10-30-22 20:19  PyFrac.general                           INFO      Log file set up
10-30-22 20:19  PyFrac.controller.run                    INFO      Making elasticity matrix...
10-30-22 20:19  PyFrac.controller.run                    INFO      Done!
10-30-22 20:19  PyFrac.controller.run                    INFO      Starting time = 0.006502264444470158
10-30-22 20:19  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.007026666542034765 ...
10-30-22 20:19  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005244020975646069 sec...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:19  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:19  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01321322158455045
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:19  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0027091366086396283
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:19  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005405542621543802
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0005405542621543802
10-30-22 20:19  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Solved time: 0.007026666542034765 s
10-30-22 20:19  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005244020975646068 s
10-30-22 20:19  PyFrac.controller.run                    INFO      Element in the crack: 109
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:19  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:19  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:19  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.007542923921087422 ...
10-30-22 20:19  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005162573790526565 sec...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.007235933695076913
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014502552965277211
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00029135099412380683
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00029135099412380683
10-30-22 20:19  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Solved time: 0.007542923921087422 s
10-30-22 20:19  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005162573790526565 s
10-30-22 20:19  PyFrac.controller.run                    INFO      Element in the crack: 121
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.008075842071119797 ...
10-30-22 20:19  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005329181500323749 sec...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 6 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012172847602294498
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0022102985930437433
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00040207654570001417
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00040207654570001417
10-30-22 20:19  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Solved time: 0.008075842071119797 s
10-30-22 20:19  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005329181500323757 s
10-30-22 20:19  PyFrac.controller.run                    INFO      Element in the crack: 121
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.008631272711742473 ...
10-30-22 20:19  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005554306406226759 sec...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012953487437260843
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002430347798624647
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00045847519288459243
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00045847519288459243
10-30-22 20:19  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Solved time: 0.008631272711742473 s
10-30-22 20:19  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005554306406226756 s
10-30-22 20:19  PyFrac.controller.run                    INFO      Element in the crack: 121
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.009212294524446978 ...
10-30-22 20:19  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005810218127045063 sec...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.015702690682920812
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003144245070226148
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006375614679197857
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0006375614679197857
10-30-22 20:19  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Solved time: 0.009212294524446978 s
10-30-22 20:19  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005810218127045054 s
10-30-22 20:19  PyFrac.controller.run                    INFO      Element in the crack: 129
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.009821376891045093 ...
10-30-22 20:19  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006090823665981155 sec...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.017399816165278154
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0030541540345862352
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005159038005144723
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0005159038005144723
10-30-22 20:19  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Solved time: 0.009821376891045093 s
10-30-22 20:19  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006090823665981151 s
10-30-22 20:19  PyFrac.controller.run                    INFO      Element in the crack: 137
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:19  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:19  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:19  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:19  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.010460364076763679 ...
10-30-22 20:19  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006389871857185852 sec...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:19  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:19  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:19  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.016154118218613272
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002459564588437546
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003720400167627573
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0003720400167627573
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.010460364076763679 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006389871857185852 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 137
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.011130840942553231 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006704768657895523 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01752816886675294
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002790467988943298
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00044129974765801566
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00044129974765801566
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.011130840942553231 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006704768657895526 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 137
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.011834777046295687 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007039361037424558 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.019214241385506387
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003267475600306602
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000554279976149911
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.000554279976149911
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.011834777046295687 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0007039361037424561 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 145
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.012574211271038275 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007394342247425879 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01846816063241426
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0026543704786395526
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00038645680355875456
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00038645680355875456
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.012574211271038275 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.000739434224742588 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 145
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.01335096393751898 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007767526664807041 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 19 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01913012521684528
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0028505546957646732
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004269728835345858
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0004269728835345858
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.01335096393751898 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0007767526664807043 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 145
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.014166952982042043 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008159890445230642 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 19 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01855375952191927
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0031654722383049894
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005652523660300954
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0005652523660300954
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.014166952982042043 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008159890445230637 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 161
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.015024205090083903 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00085725210804186 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.017245220928764318
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0023841075244774223
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003355281530149793
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0003355281530149793
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.015024205090083903 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008572521080418595 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 169
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.0159248642589898 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009006591689058945 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01620572945624816
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0022311565652386456
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002898211293394911
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002898211293394911
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.0159248642589898 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.000900659168905896 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 177
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.016502264444470158 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000577400185480359 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.011232272750550467
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013834099288848759
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00017154303279382738
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00017154303279382738
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.016502264444470158 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.000577400185480359 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 177
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.017476536949685893 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009742725052157366 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01939595786017913
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002259418232104325
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00026892689926283353
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00026892689926283353
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.017476536949685893 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009742725052157356 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 185
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.018499074020034128 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0010225370703482333 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.018207811617634042
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0019751465950544095
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00021593962733636372
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00021593962733636372
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.018499074020034128 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0010225370703482346 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 185
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.019571894340953657 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001072820320919529 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01794174433853441
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020712191693152654
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00023936776336659044
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00023936776336659044
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.019571894340953657 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0010728203209195292 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 193
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.02069726607118981 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001125371730236152 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.049029929206447775
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015475198682965985
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00016446067668862696
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00016446067668862696
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.02069726607118981 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0011253717302361528 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 213
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.02150226444447016 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008049983732803488 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.010106356020129326
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009922531831723647
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0009922531831723647
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.02150226444447016 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008049983732803488 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 213
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.022721276910941026 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0012190124664708671 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.014848959035903275
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012721931583702384
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00010815344344938804
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00010815344344938804
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.022721276910941026 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0012190124664708674 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 221
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.023998706168605978 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0012774292576649515 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.046920123184521656
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011296267726270681
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.43485213088513e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 9.43485213088513e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.023998706168605978 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.001277429257664952 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 225
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.025336910799744202 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001338204631138225 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.013015320444412837
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010554156405977455
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.745501561863156e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.745501561863156e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.025336910799744202 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.001338204631138224 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 241
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.02650226444447016 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0011653536447259576 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 16 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.010539804211126214
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008294565937422282
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008294565937422282
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.02650226444447016 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0011653536447259576 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 241
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.027958039216332144 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0014557747718619849 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.010969476963418545
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006836669770979853
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006836669770979853
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.027958039216332144 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.001455774771861984 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 249
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.02948137201870498 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001523332802372837 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.006961173298373622
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005302457747110702
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005302457747110702
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.02948137201870498 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.001523332802372837 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 261
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.031074705951762153 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0015933339330571725 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 8 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.010893090927500312
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004917659342336123
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0004917659342336123
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.031074705951762153 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.001593333933057172 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 277
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.03150226444447016 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00042755849270800436 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.005882898903736549
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007225255314039379
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007225255314039379
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.03150226444447016 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.00042755849270800436 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 277
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.032357381429886166 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008551169854160087 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.10225685715899753
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007628295462100235
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007628295462100235
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.032357381429886166 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008551169854160087 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 285
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.03406761540071818 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0017102339708320174 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0053146863104337845
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002521017274812465
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002521017274812465
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.03406761540071818 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0017102339708320174 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 293
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.03586795125574866 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0018003358550304762 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.006293565485188779
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00019301203803588784
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00019301203803588784
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.03586795125574866 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.001800335855030477 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 293
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.03650226444447016 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006343131887215012 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0076570933412514934
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000807286024126361
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000807286024126361
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.03650226444447016 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006343131887215012 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 301
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.037770890821913164 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0012686263774430023 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.007663752987839069
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000491179032182703
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000491179032182703
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.037770890821913164 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0012686263774430023 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 305
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.03973454898127064 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0019636581593574804 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004494813992830693
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0004494813992830693
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.03973454898127064 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0019636581593574787 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 325
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.041502264444470166 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0017677154631995234 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.004691891964707073
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 2.5100170427361236e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 2.5100170427361236e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.041502264444470166 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0017677154631995234 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 341
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.04362805016161951 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002125785717149344 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001726214290675543
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0001726214290675543
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.04362805016161951 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.002125785717149345 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 349
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.04584458469404727 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002216534532427764 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007534294970631628
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007534294970631628
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.04584458469404727 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0022165345324277608 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 357
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.046502264444470164 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006576797504228918 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0068836593523204925
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007253872872555079
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007253872872555079
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.046502264444470164 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006576797504228918 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 357
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.04781762394531595 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0013153595008457836 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 8 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.09469795033670722
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00012301284366742494
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00012301284366742494
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.04781762394531595 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0013153595008457836 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 373
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.05021054733558798 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002392923390272033 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 8 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.007899891700804674
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.193166563672748e-06
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 6.193166563672748e-06
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.05021054733558798 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.002392923390272035 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 373
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.05150226444447016 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0012917171088821788 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.004306065804725327
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00019599081633560965
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00019599081633560965
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.05150226444447016 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0012917171088821788 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 385
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.05404755587300878 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00254529142853862 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003162799709800995
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002883409823476154
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002883409823476154
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.05404755587300878 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0025452914285386194 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 401
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.056502264444470165 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002454708571461385 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0027665254304489943
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00023506580495088772
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00023506580495088772
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.056502264444470165 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.002454708571461385 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 421
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.05925202570984814 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002749761265377976 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0103770344111708
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 5.5553608084563614e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 5.5553608084563614e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.05925202570984814 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.002749761265377973 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 421
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.06150226444447017 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0022502387346220315 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003448961918219014
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00021826981291717118
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00021826981291717118
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.06150226444447017 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0022502387346220315 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 437
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.06445162529776341 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0029493608532932436 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.013400599825028614
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002480326528035577
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002480326528035577
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.06445162529776341 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0029493608532932397 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 437
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.06650226444447016 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002050639146706751 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001906736061652925
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001052281093824418
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0001052281093824418
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.06650226444447016 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.002050639146706751 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 465
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.06964845474932273 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.003146190304852569 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.014612775286620675
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.274311243786156e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 9.274311243786156e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.06964845474932273 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.003146190304852567 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 481
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.07150226444447016 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0018538096951474375 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004886436537524889
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0004886436537524889
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.07150226444447016 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0018538096951474375 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 489
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.07484160562974274 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0033393411852725703 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.017281717326001367
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00026948758420286545
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00026948758420286545
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.07484160562974274 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0033393411852725707 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 497
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.07650226444447017 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0016606588147274337 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020919240402502335
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 3.3225079175469574e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 3.3225079175469574e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.07650226444447017 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0016606588147274337 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 505
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.07982358207392504 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0033213176294548674 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01779362156950522
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004594542101097332
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0004594542101097332
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.07982358207392504 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0033213176294548674 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 517
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.08150226444447017 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001678682370545137 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022783233235383152
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00022783233235383152
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.08150226444447017 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.001678682370545137 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 525
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.08485962918556045 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.003357364741090274 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.019637828040634905
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006701845739088232
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006701845739088232
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.08485962918556045 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.003357364741090274 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 553
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.08650226444447016 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0016426352589097165 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0024468162037504836
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.224120631442426e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 9.224120631442426e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.08650226444447016 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0016426352589097165 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 553
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.0897875349622896 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.003285270517819433 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.015121005243739041
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001721745358010524
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0001721745358010524
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.0897875349622896 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.003285270517819433 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 569
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.09150226444447017 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0017147294821805714 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0021488082339437423
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.854880772190525e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 7.854880772190525e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.09150226444447017 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0017147294821805714 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 577
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.09493172340883131 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.003429458964361143 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 17 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.020825386855642742
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00043871135945879795
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00043871135945879795
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.09493172340883131 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.003429458964361143 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 593
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.09650226444447017 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0015705410356388616 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015240147235299462
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.974129202818292e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 6.974129202818292e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.09650226444447017 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0015705410356388616 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 593
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.0996433465157479 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.003141082071277723 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.016745759212508544
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00034812775485243847
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00034812775485243847
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.0996433465157479 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.003141082071277723 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 609
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.10150226444447018 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0018589179287222812 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0021703618078710873
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 5.841110644793774e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 5.841110644793774e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.10150226444447018 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0018589179287222812 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 609
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.10522010030191474 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0037178358574445625 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.021947732748906507
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001152867890321271
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.459227732369606e-05
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 7.459227732369606e-05
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.10522010030191474 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.0037178358574445625 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 633
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.10650226444447018 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001282164142555442 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.004337899484425645
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:20  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:20  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002431701169319313
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002431701169319313
10-30-22 20:20  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Solved time: 0.10650226444447018 s
10-30-22 20:20  PyFrac.controller.run                    DEBUG     for a time step of: 0.001282164142555442 s
10-30-22 20:20  PyFrac.controller.run                    INFO      Element in the crack: 641
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:20  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:20  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:20  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.10906659272958107 ...
10-30-22 20:20  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002564328285110884 sec...
10-30-22 20:20  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008119378018489673
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.908619454179342e-05
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 7.908619454179342e-05
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.10906659272958107 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.002564328285110884 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 657
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.11150226444447017 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0024356717148891066 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.006561321699870655
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.541430903477984e-05
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 8.541430903477984e-05
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.11150226444447017 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0024356717148891066 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 665
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.11650226444447018 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.04010809788480531
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0032223394712583365
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003011980066108017
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0003011980066108017
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.11650226444447018 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 673
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.12150226444447018 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03736424832705776
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002798801823665859
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00018809008939995358
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00018809008939995358
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.12150226444447018 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 697
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.12650226444447016 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999977 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.039914087571277256
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0034419094385807368
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024583441055601914
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00024583441055601914
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.12650226444447016 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999977 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 717
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.13150226444447016 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.036291576291887576
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002962874502869835
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002621052083905321
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002621052083905321
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.13150226444447016 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 741
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.13650226444447017 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03937105705981718
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003147284509628238
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003057673542130009
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0003057673542130009
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.13650226444447017 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 749
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.14150226444447017 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03656202860164429
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002547547010778158
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00016299613069516993
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00016299613069516993
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.14150226444447017 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 777
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.14650226444447018 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.04448694766428029
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0036048571711038
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002965932298059452
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002965932298059452
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.14650226444447018 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 793
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.15150226444447018 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.04326760127016094
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.004011002656530848
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004068397876397493
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0004068397876397493
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.15150226444447018 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 793
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.15650226444447018 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03409484710409799
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0030125780694120197
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002539433232008892
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002539433232008892
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.15650226444447018 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 829
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.1615022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.037974133853748704
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0027779444739207126
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00023335206552227428
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00023335206552227428
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.1615022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 845
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.1665022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.023001840889173175
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002787382433181773
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00018774488777756337
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00018774488777756337
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.1665022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 861
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.1715022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.039984112383830595
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003027825892657321
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024858890432372105
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00024858890432372105
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.1715022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 877
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.1765022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.04061369597758713
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0034576928258770456
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000320797550630636
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.000320797550630636
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.1765022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 885
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.1815022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.024569214459961408
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003329050637348452
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002983105874750924
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002983105874750924
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.1815022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 889
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.1865022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03285360872031758
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0025549293407382185
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00015941730431922498
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00015941730431922498
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.1865022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 933
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.19150226444447022 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 18 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.039644821520295415
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0029097578738667075
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00023992585760164033
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00023992585760164033
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.19150226444447022 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 949
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.19650226444447022 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.07808839452432845
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003098503149873575
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002979889945186772
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002979889945186772
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.19650226444447022 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 949
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.20150226444447017 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999949 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.034578843947583905
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002454803157587256
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00018015664854310805
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00018015664854310805
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.20150226444447017 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999949 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 973
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.20650226444447017 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03891626177408307
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002943263211256956
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024475169156822155
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00024475169156822155
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.20650226444447017 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 989
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.21150226444447018 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.018064315000655116
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003086772499967903
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022562166339260494
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00022562166339260494
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.21150226444447018 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 997
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.21650226444447018 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.07884806131564147
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003493882355434529
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003167925879347046
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0003167925879347046
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.21650226444447018 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 1005
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2215022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.021494451305108124
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0028615627164396942
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.05578804961566118
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 5
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 1.1558882860492522e-05
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 5 iterations with norm = 1.1558882860492522e-05
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.2215022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 1041
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2265022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 8 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03748905845878703
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0028127989211170026
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002563560900167911
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002563560900167911
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.2265022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 1049
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2315022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03519714097706809
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02552565552684685
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002745547701406497
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002745547701406497
10-30-22 20:21  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Solved time: 0.2315022644444702 s
10-30-22 20:21  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:21  PyFrac.controller.run                    INFO      Element in the crack: 1065
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:21  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:21  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:21  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2365022644444702 ...
10-30-22 20:21  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:21  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:21  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:21  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03685548621218052
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00256266216354955
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00020598573529993934
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00020598573529993934
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.2365022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1085
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2415022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 19 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.015288339164195856
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002820645560341697
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00021250242030953123
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00021250242030953123
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.2415022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1093
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2465022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.017013413394825032
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0030857905558711904
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00026741661790838676
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00026741661790838676
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.2465022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1101
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2515022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0365412121712843
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0027552017603854986
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002152814381328009
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002152814381328009
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.2515022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1117
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2565022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03767412027940331
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.003063289063723317
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002583676015355252
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002583676015355252
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.2565022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1125
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2615022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03380616445281127
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0027074209277339
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022189070961777335
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00022189070961777335
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.2615022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1153
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2665022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 17 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.035829306297966775
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0022162895687917825
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00013205024630763855
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00013205024630763855
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.2665022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1177
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.27150226444447023 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03912327713976678
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002662291307327068
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022961441262649517
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00022961441262649517
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.27150226444447023 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1185
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.27650226444447024 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.037332739275704796
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0023840842767172774
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00017444483649149177
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00017444483649149177
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.27650226444447024 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1201
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.28150226444447024 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03830184994659584
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0026265332444766975
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00021964021196035034
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00021964021196035034
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.28150226444447024 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1201
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.28650226444447024 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.017977868143336344
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0023529400050085135
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00016924268923686276
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00016924268923686276
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.28650226444447024 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1217
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.29150226444447025 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.036100178763965415
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.023994585273987193
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002479142237578233
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002479142237578233
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.29150226444447025 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1225
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.2965022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999949 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03508717778060428
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002471561481811952
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001791631161460983
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0001791631161460983
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.2965022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999949 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1245
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3015022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03830470031323068
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0027544782652972537
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00019662221146111772
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00019662221146111772
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.3015022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1253
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3065022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03519070935748862
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0027701965394618887
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002225981134927224
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002225981134927224
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.3065022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1281
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3115022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.013956571257586158
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0023220814165927804
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00018587007016561684
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00018587007016561684
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.3115022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1297
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3165022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03586636956389579
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020729245058426216
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001567762038557241
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0001567762038557241
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.3165022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1305
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3215022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.035102356640269686
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002167815052866917
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00016588167321263114
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00016588167321263114
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.3215022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1313
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3265022644444702 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0161894141591044
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020170746381243275
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00014777340499589898
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00014777340499589898
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.3265022644444702 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1321
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.33150226444447023 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03448774661403844
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0018499138601722365
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.198583114067403e-05
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.198583114067403e-05
10-30-22 20:22  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Solved time: 0.33150226444447023 s
10-30-22 20:22  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:22  PyFrac.controller.run                    INFO      Element in the crack: 1353
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:22  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:22  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:22  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.33650226444447023 ...
10-30-22 20:22  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:22  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:22  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:22  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.040528111482560546
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002610907233248838
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00019984183663943612
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00019984183663943612
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.33650226444447023 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1353
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.34150226444447024 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012900204152699235
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0023775671534504105
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001615373815744725
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0001615373815744725
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.34150226444447024 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1361
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.34650226444447024 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.035848454467082916
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0025078400050512427
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001843038816453202
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0001843038816453202
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.34650226444447024 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1369
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.35150226444447025 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03450726276321028
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0023844293564332375
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00017170206776748743
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00017170206776748743
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.35150226444447025 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1377
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.35650226444447025 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03223697729181448
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0021735875823024977
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001439491417154704
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0001439491417154704
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.35650226444447025 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1405
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.36150226444447026 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03834751237984403
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020074037746605185
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00014530413710738053
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00014530413710738053
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.36150226444447026 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1413
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.36650226444447026 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.031976985627750476
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0018337882017884037
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00012778672634513759
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00012778672634513759
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.36650226444447026 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1433
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.37150226444447026 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012222033718404003
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0019666159514664847
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001327140969639204
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0001327140969639204
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.37150226444447026 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1441
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.37650226444447027 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.013409534707720909
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017598560035779595
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00010372227977670367
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00010372227977670367
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.37650226444447027 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1457
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3815022644444702 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999949 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03622728350135858
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002057129742697989
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000143945712186471
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.000143945712186471
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.3815022644444702 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999949 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1473
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3865022644444702 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0367758262216858
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001987219826292104
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001345033108697586
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0001345033108697586
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.3865022644444702 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1481
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.3915022644444702 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.036219086689110454
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0021459110647880563
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001492020450627304
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0001492020450627304
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.3915022644444702 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1481
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.39650226444447023 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.033239770487037155
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002003725525174783
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00013280896433891308
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00013280896433891308
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.39650226444447023 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1489
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.40150226444447024 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.06303726146649889
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020204868647228395
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00013259767922937793
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00013259767922937793
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.40150226444447024 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1497
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.40650226444447024 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.015696014026601916
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001979694057760487
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00011871426366290228
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00011871426366290228
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.40650226444447024 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1513
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.41150226444447024 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.058265902508616824
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001998038277905113
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00011151601167437197
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00011151601167437197
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.41150226444447024 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1533
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.41650226444447025 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.013050600022197045
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020522132070587384
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00013417538316382795
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00013417538316382795
10-30-22 20:23  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Solved time: 0.41650226444447025 s
10-30-22 20:23  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:23  PyFrac.controller.run                    INFO      Element in the crack: 1549
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:23  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:23  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:23  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.42150226444447025 ...
10-30-22 20:23  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:23  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03282835599579743
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:23  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:23  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017412489429733794
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00010703720871556173
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00010703720871556173
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.42150226444447025 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1565
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.42650226444447026 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01138286980661088
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.04369756655146598
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00020276833327738007
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00020276833327738007
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.42650226444447026 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1565
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.43150226444447026 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01407786894115872
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016522289427418422
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00010526647220161904
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00010526647220161904
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.43150226444447026 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1581
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.43650226444447027 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.032737853889303524
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015399872694478684
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.206009801910785e-05
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 9.206009801910785e-05
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.43650226444447027 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1597
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.44150226444447027 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03439496515083591
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017548823599743716
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00011409997312088068
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00011409997312088068
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.44150226444447027 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1605
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.4465022644444703 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012049743471875051
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017755119295109654
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00011750050512498495
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00011750050512498495
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.4465022644444703 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1609
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.4515022644444703 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012801850818142911
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015048918327318361
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.089570344500437e-05
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 7.089570344500437e-05
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.4515022644444703 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1617
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.45650226444447023 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999949 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012641363846039947
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016767602233416022
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.312814241549665e-05
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 7.312814241549665e-05
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.45650226444447023 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999949 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1641
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.46150226444447023 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03667254688391659
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020478543687538157
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00012974895225870142
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00012974895225870142
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.46150226444447023 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1649
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.46650226444447024 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.009861606390781123
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020661586067625944
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00013353881486991267
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00013353881486991267
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.46650226444447024 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1649
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.47150226444447024 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.035458077682818695
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020332106870416633
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00013681790774270038
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00013681790774270038
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.47150226444447024 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1657
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.47650226444447025 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03153628708156529
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0018636287662676665
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00010216690409677345
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00010216690409677345
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.47650226444447025 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1685
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.48150226444447025 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01125227714471291
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016896837081544624
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00011502185007889634
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.00011502185007889634
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.48150226444447025 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1685
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.48650226444447026 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.013819494364561072
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014914675116881797
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.834195549095833e-05
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.834195549095833e-05
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.48650226444447026 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1701
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.49150226444447026 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012418271744532453
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014339263483921566
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.339453616363997e-05
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.339453616363997e-05
10-30-22 20:24  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Solved time: 0.49150226444447026 s
10-30-22 20:24  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:24  PyFrac.controller.run                    INFO      Element in the crack: 1717
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:24  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:24  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:24  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.49650226444447026 ...
10-30-22 20:24  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:24  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:24  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:24  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.011435291085400718
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014943542388366699
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.77732899806907e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 9.77732899806907e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.49650226444447026 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1733
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5015022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999949 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.009045603057954751
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014236029797742372
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.153837775374034e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 7.153837775374034e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5015022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999949 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1741
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5065022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 19 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.009332384524694773
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016066209565862915
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.42395931205414e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 9.42395931205414e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5065022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1749
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5115022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03327007791188385
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014899162554936859
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.231843273420264e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.231843273420264e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5115022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1757
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5165022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.05381120124134359
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001603381499996011
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.143214031465843e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 9.143214031465843e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5165022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1765
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5215022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0328202109837249
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016046049623077237
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.10243769332599e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 9.10243769332599e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5215022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1781
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5265022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03389934372455179
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015908960976462206
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.838345982522726e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.838345982522726e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5265022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1789
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5315022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.033591835955657956
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001697041960713765
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.544284123687358e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 9.544284123687358e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5315022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1789
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5365022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01244828239431444
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016222407757614955
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.972076949514721e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.972076949514721e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5365022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1789
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5415022644444702 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02741186331068775
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001483252006687345
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.539825696404694e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 7.539825696404694e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5415022644444702 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1813
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5465022644444703 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.054645736064421836
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001302506573988153
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.855713455276245e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.855713455276245e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5465022644444703 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1829
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5515022644444703 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.011577313080111415
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012559922455472143
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 5.5617040897626424e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 5.5617040897626424e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5515022644444703 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1853
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:25  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5565022644444703 ...
10-30-22 20:25  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03291969431529029
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013248499702856649
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:25  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:25  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.835767305231795e-05
10-30-22 20:25  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.835767305231795e-05
10-30-22 20:25  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Solved time: 0.5565022644444703 s
10-30-22 20:25  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:25  PyFrac.controller.run                    INFO      Element in the crack: 1861
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:25  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:25  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5615022644444703 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 17 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.032862995662083026
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013964723438727826
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.04682622922807e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.04682622922807e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.5615022644444703 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1877
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5665022644444703 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008375587262000606
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013275402451555784
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.783817761962946e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.783817761962946e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.5665022644444703 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1877
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5715022644444703 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.010387016073310532
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001129584101227173
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 5.963922488357495e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 5.963922488357495e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.5715022644444703 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1885
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5765022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 14 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.031166791258324517
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001265271341917303
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.030843864678597e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 7.030843864678597e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.5765022644444702 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1893
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5815022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.030586825072387896
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011798414904672
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.612735871924791e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.612735871924791e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.5815022644444702 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1901
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5865022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 17 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.05242770807223832
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001236659777115771
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.877432438871327e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.877432438871327e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.5865022644444702 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1901
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5915022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.028906923450985483
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010687406906134307
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.4240715261952467e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.4240715261952467e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.5915022644444702 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1925
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.5965022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.032050759068944945
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001291365947711472
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.197342869535994e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 7.197342869535994e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.5965022644444702 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1933
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6015022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.032740880350357715
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012683822586279092
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.671413301486164e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.671413301486164e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.6015022644444702 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1941
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6065022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0328395319514038
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014914096063150712
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.146628505945903e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 7.146628505945903e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.6065022644444702 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1941
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6115022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01113191579209194
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013958424696709493
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.498619778986618e-05
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.498619778986618e-05
10-30-22 20:26  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Solved time: 0.6115022644444702 s
10-30-22 20:26  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:26  PyFrac.controller.run                    INFO      Element in the crack: 1949
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:26  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:26  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:26  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6165022644444702 ...
10-30-22 20:26  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:26  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:26  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:26  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.07402578001941003
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013573561098824498
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:27  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002125787706243424
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0002125787706243424
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6165022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 1957
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6215022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.029708769831728005
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013017577471528341
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.7958258730957934e-05
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.7958258730957934e-05
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6215022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 1993
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6265022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.032482430949885524
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014314339186604031
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.223791909372835e-05
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 8.223791909372835e-05
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6265022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 1993
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6315022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.009730813169773781
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012493078390474466
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.600508113962178e-05
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.600508113962178e-05
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6315022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 2001
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6365022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.010792740898846347
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009862430695660861
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0009862430695660861
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6365022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 2017
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6415022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03075067322126607
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011455664359708352
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.517901238403567e-05
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.517901238403567e-05
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6415022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 2025
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6465022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03000776412264038
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010379216981601046
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.262595975854879e-05
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.262595975854879e-05
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6465022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 2025
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6515022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03158313537477369
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009963418738748687
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0009963418738748687
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6515022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 2033
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6565022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012144099819626745
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008611869703857877
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008611869703857877
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6565022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 2053
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6615022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008279962103901823
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001038250192951793
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.503559933773715e-05
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.503559933773715e-05
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6615022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 2061
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6665022644444702 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008271310452916722
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010426081880321192
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.079543089446247e-05
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.079543089446247e-05
10-30-22 20:27  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Solved time: 0.6665022644444702 s
10-30-22 20:27  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:27  PyFrac.controller.run                    INFO      Element in the crack: 2077
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:27  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:27  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:27  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6715022644444703 ...
10-30-22 20:27  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:27  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:27  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:27  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03324787499282628
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012546703366641764
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.282569605005506e-05
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.282569605005506e-05
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.6715022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2085
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6765022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 16 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03252325904666371
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012104993776866735
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.461499957026718e-05
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.461499957026718e-05
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.6765022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2085
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6815022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.030616659780718366
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010927799366270109
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.499275094531185e-05
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.499275094531185e-05
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.6815022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2093
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6865022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0305760603114161
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012209027127538263
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 5.593311929608546e-05
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 5.593311929608546e-05
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.6865022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2093
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6915022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02871369213224817
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011373773405740906
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.5864180106391925e-05
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.5864180106391925e-05
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.6915022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2109
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.6965022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03035655850985897
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001191771625405451
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 5.705699568409273e-05
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 5.705699568409273e-05
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.6965022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2117
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7015022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.029744383122731505
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006816818681428316
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006816818681428316
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.7015022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2117
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7065022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.027362894869891734
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011827593801900622
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.956479563817267e-05
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 4.956479563817267e-05
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.7065022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2145
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7115022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.01032666650536453
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000945920560666626
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000945920560666626
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.7115022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2145
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7165022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02648990960507205
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008606769111701568
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008606769111701568
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.7165022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2169
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7215022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02963172040729052
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008150175212244302
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008150175212244302
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.7215022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2177
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7265022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02994991876181154
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:28  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:28  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009271281187892555
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0009271281187892555
10-30-22 20:28  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Solved time: 0.7265022644444703 s
10-30-22 20:28  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:28  PyFrac.controller.run                    INFO      Element in the crack: 2185
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:28  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:28  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:28  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7315022644444703 ...
10-30-22 20:28  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:28  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.04753522446178108
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008316906869901403
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008316906869901403
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7315022644444703 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2193
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7365022644444703 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008712381172859414
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007304898218699362
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007304898218699362
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7365022644444703 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2209
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7415022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.031424718697447944
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009772183425095311
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0009772183425095311
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7415022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2217
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7465022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.030757605510758346
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008934139304109715
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008934139304109715
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7465022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2225
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7515022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.007819471546676086
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008782126409791693
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008782126409791693
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7515022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2225
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7565022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.028920467128267697
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007614399358728199
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007614399358728199
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7565022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2241
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7615022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03020612153506858
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008736831082084306
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008736831082084306
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7615022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2241
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7665022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 17 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02874849769414362
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008604400152889888
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008604400152889888
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7665022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2241
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7715022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.027229941732363098
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008102459237195539
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008102459237195539
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7715022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2249
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7765022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.06846054872831725
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008970848518275923
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008970848518275923
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7765022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2249
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7815022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.012390090998880674
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008185548761708252
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008185548761708252
10-30-22 20:29  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Solved time: 0.7815022644444702 s
10-30-22 20:29  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:29  PyFrac.controller.run                    INFO      Element in the crack: 2277
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:29  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:29  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:29  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7865022644444702 ...
10-30-22 20:29  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:29  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:29  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:29  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0305671407019266
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000895840523313109
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000895840523313109
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.7865022644444702 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2285
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7915022644444702 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.007660066776948518
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010341883766592592
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 3.711070036475169e-05
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 3.711070036475169e-05
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.7915022644444702 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2285
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.7965022644444703 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02779507397742824
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009271378622033639
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0009271378622033639
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.7965022644444703 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2305
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8015022644444703 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.028158095558258184
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010110056608758468
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 3.3340498096392334e-05
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 3.3340498096392334e-05
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.8015022644444703 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2313
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8065022644444703 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.009610823896817382
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000809175504482669
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000809175504482669
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.8065022644444703 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2329
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8115022644444703 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.027980339483609923
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007124451577260357
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007124451577260357
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.8115022644444703 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2337
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8165022644444703 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.04570480394273998
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000723217035057486
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000723217035057486
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.8165022644444703 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2345
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8215022644444703 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02858972891014054
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007311431889109053
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007311431889109053
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.8215022644444703 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2361
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8265022644444703 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02945132304594584
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007369794829095084
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007369794829095084
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.8265022644444703 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2361
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:30  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8315022644444703 ...
10-30-22 20:30  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0459677809753845
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:30  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:30  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006297118841810266
10-30-22 20:30  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006297118841810266
10-30-22 20:30  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Solved time: 0.8315022644444703 s
10-30-22 20:30  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:30  PyFrac.controller.run                    INFO      Element in the crack: 2361
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:30  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:30  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8365022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02652710574063022
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005430860364630335
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005430860364630335
10-30-22 20:31  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Solved time: 0.8365022644444703 s
10-30-22 20:31  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:31  PyFrac.controller.run                    INFO      Element in the crack: 2385
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8415022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 19 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.029385103933390957
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006762126364935791
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006762126364935791
10-30-22 20:31  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Solved time: 0.8415022644444703 s
10-30-22 20:31  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:31  PyFrac.controller.run                    INFO      Element in the crack: 2385
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8465022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 20 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.028020014846879913
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006432007342290152
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006432007342290152
10-30-22 20:31  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Solved time: 0.8465022644444703 s
10-30-22 20:31  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:31  PyFrac.controller.run                    INFO      Element in the crack: 2385
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8515022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02661905961470314
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005811636189754797
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005811636189754797
10-30-22 20:31  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Solved time: 0.8515022644444703 s
10-30-22 20:31  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:31  PyFrac.controller.run                    INFO      Element in the crack: 2401
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8565022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008439719412553155
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005742472412155835
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005742472412155835
10-30-22 20:31  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Solved time: 0.8565022644444703 s
10-30-22 20:31  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:31  PyFrac.controller.run                    INFO      Element in the crack: 2409
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8615022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.029210273902927523
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007100411175115321
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007100411175115321
10-30-22 20:31  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Solved time: 0.8615022644444703 s
10-30-22 20:31  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:31  PyFrac.controller.run                    INFO      Element in the crack: 2417
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8665022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 17 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0294748496476798
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03631948126533066
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.4976971334316e-05
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 6.4976971334316e-05
10-30-22 20:31  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Solved time: 0.8665022644444703 s
10-30-22 20:31  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:31  PyFrac.controller.run                    INFO      Element in the crack: 2417
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8715022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 16 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.009010511161203598
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:31  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:31  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006190707792558135
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006190707792558135
10-30-22 20:31  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Solved time: 0.8715022644444703 s
10-30-22 20:31  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:31  PyFrac.controller.run                    INFO      Element in the crack: 2441
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:31  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:31  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:31  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8765022644444703 ...
10-30-22 20:31  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:31  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 18 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.03127202826527218
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008909766303123498
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008909766303123498
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.8765022644444703 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2449
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:32  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8815022644444703 ...
10-30-22 20:32  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.030714369101726976
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008653097583397524
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008653097583397524
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.8815022644444703 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2449
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:32  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8865022644444703 ...
10-30-22 20:32  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.029052771983020993
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008192290950763105
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0008192290950763105
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.8865022644444703 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2449
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:32  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8915022644444703 ...
10-30-22 20:32  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.027450641036633527
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007418494874047196
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007418494874047196
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.8915022644444703 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2457
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:32  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.8965022644444702 ...
10-30-22 20:32  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.009297422303182297
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002592705590823491
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002592705590823491
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.8965022644444702 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2457
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:32  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9015022644444702 ...
10-30-22 20:32  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.010181057009225178
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000933287307988235
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000933287307988235
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.9015022644444702 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2477
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:32  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9065022644444702 ...
10-30-22 20:32  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.010958028779119682
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006294969843710442
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006294969843710442
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.9065022644444702 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2485
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:32  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9115022644444702 ...
10-30-22 20:32  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 17 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.024849047985097794
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005396689661718897
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005396689661718897
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.9115022644444702 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2509
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:32  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9165022644444702 ...
10-30-22 20:32  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.027599288489551923
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:32  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:32  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005845538468780553
10-30-22 20:32  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005845538468780553
10-30-22 20:32  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Solved time: 0.9165022644444702 s
10-30-22 20:32  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:32  PyFrac.controller.run                    INFO      Element in the crack: 2509
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:32  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:32  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:33  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9215022644444703 ...
10-30-22 20:33  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008451029427678376
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004964063379851526
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0004964063379851526
10-30-22 20:33  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Solved time: 0.9215022644444703 s
10-30-22 20:33  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:33  PyFrac.controller.run                    INFO      Element in the crack: 2525
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:33  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9265022644444703 ...
10-30-22 20:33  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.027375805546719385
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000500761209132656
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000500761209132656
10-30-22 20:33  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Solved time: 0.9265022644444703 s
10-30-22 20:33  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:33  PyFrac.controller.run                    INFO      Element in the crack: 2537
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:33  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9315022644444703 ...
10-30-22 20:33  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 21 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02914742772502096
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005512196192681681
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005512196192681681
10-30-22 20:33  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Solved time: 0.9315022644444703 s
10-30-22 20:33  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:33  PyFrac.controller.run                    INFO      Element in the crack: 2537
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:33  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9365022644444703 ...
10-30-22 20:33  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 17 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.027706667408187866
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00044519105974995455
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00044519105974995455
10-30-22 20:33  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Solved time: 0.9365022644444703 s
10-30-22 20:33  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:33  PyFrac.controller.run                    INFO      Element in the crack: 2561
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:33  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9415022644444703 ...
10-30-22 20:33  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.030234063951812575
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005782951532652245
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005782951532652245
10-30-22 20:33  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Solved time: 0.9415022644444703 s
10-30-22 20:33  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:33  PyFrac.controller.run                    INFO      Element in the crack: 2561
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:33  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9465022644444703 ...
10-30-22 20:33  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.028859759103458758
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005455407600558944
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005455407600558944
10-30-22 20:33  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Solved time: 0.9465022644444703 s
10-30-22 20:33  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:33  PyFrac.controller.run                    INFO      Element in the crack: 2561
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:33  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9515022644444703 ...
10-30-22 20:33  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008205872246981105
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00048513615246286487
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00048513615246286487
10-30-22 20:33  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Solved time: 0.9515022644444703 s
10-30-22 20:33  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:33  PyFrac.controller.run                    INFO      Element in the crack: 2561
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:33  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:33  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:33  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9565022644444703 ...
10-30-22 20:33  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:33  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:33  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:33  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.04520626725255487
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00044715270920248074
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00044715270920248074
10-30-22 20:34  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Solved time: 0.9565022644444703 s
10-30-22 20:34  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:34  PyFrac.controller.run                    INFO      Element in the crack: 2577
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:34  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9615022644444703 ...
10-30-22 20:34  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.02762895055373476
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004877535413004048
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0004877535413004048
10-30-22 20:34  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Solved time: 0.9615022644444703 s
10-30-22 20:34  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:34  PyFrac.controller.run                    INFO      Element in the crack: 2593
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:34  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9665022644444703 ...
10-30-22 20:34  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.029617179037724078
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006045061288322273
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006045061288322273
10-30-22 20:34  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Solved time: 0.9665022644444703 s
10-30-22 20:34  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:34  PyFrac.controller.run                    INFO      Element in the crack: 2593
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:34  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9715022644444703 ...
10-30-22 20:34  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.007467624800576405
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005901686084713706
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005901686084713706
10-30-22 20:34  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Solved time: 0.9715022644444703 s
10-30-22 20:34  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:34  PyFrac.controller.run                    INFO      Element in the crack: 2593
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:34  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9765022644444703 ...
10-30-22 20:34  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 13 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.026803959532562427
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005413422190990248
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005413422190990248
10-30-22 20:34  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Solved time: 0.9765022644444703 s
10-30-22 20:34  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:34  PyFrac.controller.run                    INFO      Element in the crack: 2601
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:34  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9815022644444703 ...
10-30-22 20:34  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.008781519177748593
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005326759279652268
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005326759279652268
10-30-22 20:34  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Solved time: 0.9815022644444703 s
10-30-22 20:34  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:34  PyFrac.controller.run                    INFO      Element in the crack: 2609
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:34  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9865022644444703 ...
10-30-22 20:34  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 15 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.026721385385271784
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004920114014282463
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0004920114014282463
10-30-22 20:34  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Solved time: 0.9865022644444703 s
10-30-22 20:34  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:34  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:34  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9915022644444703 ...
10-30-22 20:34  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.027097889309721474
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:34  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:34  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005764014273342356
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005764014273342356
10-30-22 20:34  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Solved time: 0.9915022644444703 s
10-30-22 20:34  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:34  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:34  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:34  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:34  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 0.9965022644444703 ...
10-30-22 20:34  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0050000000000000044 sec...
10-30-22 20:34  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.025838401359290435
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005798863215133057
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0005798863215133057
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 0.9965022644444703 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0050000000000000044 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0034977355555296796 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.009283787236254908
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00025719424764503174
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00025719424764503174
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.0 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0034977355555296796 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0005 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016853255265649736
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002497625402194511
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002497625402194511
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.0005 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.001 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016772941623789553
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024867856452129696
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00024867856452129696
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.001 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0014999999999998 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016722137829690961
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002479972817842783
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002479972817842783
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.0014999999999998 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0019999999999998 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016689994308498918
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024755246160079736
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00024755246160079736
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.0019999999999998 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0024999999999997 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016671490353681
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024729269600750773
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00024729269600750773
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.0024999999999997 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0029999999999997 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016659127087533016
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002471317350486605
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002471317350486605
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.0029999999999997 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2617
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0034999999999996 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001665480937653539
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024719719843638695
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00024719719843638695
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.0034999999999996 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2625
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0039999999999996 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017508888423558894
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00026108152000376653
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00026108152000376653
10-30-22 20:35  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Solved time: 1.0039999999999996 s
10-30-22 20:35  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:35  PyFrac.controller.run                    INFO      Element in the crack: 2625
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:35  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:35  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:35  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0044999999999995 ...
10-30-22 20:35  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:35  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:35  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:35  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017760165265736966
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002644172406305957
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002644172406305957
10-30-22 20:36  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Solved time: 1.0044999999999995 s
10-30-22 20:36  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:36  PyFrac.controller.run                    INFO      Element in the crack: 2625
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:36  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0049999999999994 ...
10-30-22 20:36  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017815137610661985
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002653043036910623
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002653043036910623
10-30-22 20:36  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Solved time: 1.0049999999999994 s
10-30-22 20:36  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:36  PyFrac.controller.run                    INFO      Element in the crack: 2625
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:36  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0054999999999994 ...
10-30-22 20:36  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017777093236824065
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002650110669067475
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002650110669067475
10-30-22 20:36  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Solved time: 1.0054999999999994 s
10-30-22 20:36  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:36  PyFrac.controller.run                    INFO      Element in the crack: 2625
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:36  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0059999999999993 ...
10-30-22 20:36  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017690909665515977
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002641164596845412
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002641164596845412
10-30-22 20:36  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Solved time: 1.0059999999999993 s
10-30-22 20:36  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:36  PyFrac.controller.run                    INFO      Element in the crack: 2625
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:36  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0064999999999993 ...
10-30-22 20:36  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017582690061698056
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002630084655213289
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002630084655213289
10-30-22 20:36  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Solved time: 1.0064999999999993 s
10-30-22 20:36  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:36  PyFrac.controller.run                    INFO      Element in the crack: 2633
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:36  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:36  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:36  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0069999999999992 ...
10-30-22 20:36  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0018401885831068451
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016133663566850437
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015759627808325913
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 5
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001574447938616354
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 6
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742216840584078
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 7
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742107126364147
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 8
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742091127952662
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 9
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090299047465
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 10
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090179371765
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 11
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001574209017297815
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 12
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090172093778
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 13
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090172034143
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 14
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090172022724
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 15
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090171998616
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 16
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090171985928
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 17
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090171978315
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 18
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001574209017197197
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 19
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001574209017198339
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 20
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090171975778
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 21
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001574209017198212
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 22
10-30-22 20:36  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:36  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090172022724
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:36  PyFrac.attempt_time_step                 DEBUG     Iteration 23
10-30-22 20:36  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090172034143
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 24
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090172012574
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 25
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015742090172013842
10-30-22 20:37  PyFrac.controller.advance_time_step      WARNING   Did not converge after max iterations!
10-30-22 20:37  PyFrac.controller.advance_time_step      WARNING   Time step failed...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0068999999999992 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00039999999999995595 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014742462445301388
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022947458705870259
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00022947458705870259
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.0068999999999992 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.00039999999999995595 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2633
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0069999999999992 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 9.999999999998899e-05 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 1.0363621478453361e-07
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 1.0363621478453361e-07
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.0069999999999992 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 9.999999999998899e-05 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2633
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0071999999999992 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00019999999999997797 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000957829654303006
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.000957829654303006
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.0071999999999992 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.00019999999999997797 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2633
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0074999999999992 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00029999999999996696 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011418416924116365
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001920435639829624
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0001920435639829624
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.0074999999999992 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.00029999999999996696 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2633
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0079999999999991 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001872169510722824
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.continuous_front_reconstruction   DEBUG     deleted 8 points on the same edge that leads to sub resolution
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002829394931892334
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002829394931892334
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.0079999999999991 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2633
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.008499999999999 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001121058788815812
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00010377453642669134
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00010377453642669134
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.008499999999999 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2645
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.008999999999999 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0020579061751433503
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00030331435979801983
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00030331435979801983
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.008999999999999 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2653
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.009499999999999 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0019026803831823933
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002739892919056198
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002739892919056198
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.009499999999999 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2653
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.009999999999999 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.032569882495184506
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00027892613422919214
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00027892613422919214
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.009999999999999 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2661
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0104999999999988 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0019696629842647392
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00028489844907655075
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00028489844907655075
10-30-22 20:37  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Solved time: 1.0104999999999988 s
10-30-22 20:37  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:37  PyFrac.controller.run                    INFO      Element in the crack: 2661
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:37  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:37  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:37  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0109999999999988 ...
10-30-22 20:37  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:37  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0019716358214737074
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:37  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:37  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002863267340801373
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002863267340801373
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0109999999999988 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2661
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0114999999999987 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001953140569784726
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002851650722596686
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002851650722596686
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0114999999999987 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2661
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0119999999999987 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0019259115471847844
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002827921888729375
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002827921888729375
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0119999999999987 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2661
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0124999999999986 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0018950810279530705
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00027984982071716343
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00027984982071716343
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0124999999999986 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2661
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0129999999999986 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0018616662646637444
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002763841145811733
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002763841145811733
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0129999999999986 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2669
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0134999999999985 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0018739479290730812
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002687385474243857
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002687385474243857
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0134999999999985 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2669
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0139999999999985 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001874421434183635
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002691634269230194
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002691634269230194
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0139999999999985 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2669
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0144999999999984 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001848993911925332
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00026692115214796896
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00026692115214796896
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0144999999999984 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2669
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0149999999999983 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0018176509385848
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002641041062254601
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002641041062254601
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0149999999999983 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2669
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0154999999999983 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017837192883500906
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002608911548034255
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002608911548034255
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0154999999999983 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2669
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0159999999999982 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017486187895912665
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:38  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:38  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00025737705655798934
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00025737705655798934
10-30-22 20:38  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Solved time: 1.0159999999999982 s
10-30-22 20:38  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:38  PyFrac.controller.run                    INFO      Element in the crack: 2677
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:38  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:38  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:38  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0164999999999982 ...
10-30-22 20:38  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:38  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001795823115449492
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002634389958767479
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002634389958767479
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.0164999999999982 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2677
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0169999999999981 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017940202438351644
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002638704452639841
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002638704452639841
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.0169999999999981 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2677
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.017499999999998 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017715759579471952
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00026188686649895735
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00026188686649895735
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.017499999999998 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2677
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.017999999999998 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017412023915224764
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002589239766175617
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002589239766175617
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.017999999999998 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2677
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.018499999999998 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001707949356872826
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00025555929846283207
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00025555929846283207
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.018499999999998 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2677
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.018999999999998 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016736231781625723
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000251999226947699
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000251999226947699
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.018999999999998 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2677
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0194999999999979 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001639423286210534
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024838392706754293
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00024838392706754293
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.0194999999999979 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0199999999999978 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016682659884214369
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00025365576606788934
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00025365576606788934
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.0199999999999978 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0204999999999977 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016630036264200768
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002533020031064665
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002533020031064665
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.0204999999999977 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0209999999999977 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0016385754234152668
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002507857104192393
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002507857104192393
10-30-22 20:39  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Solved time: 1.0209999999999977 s
10-30-22 20:39  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:39  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:39  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:39  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:39  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0214999999999976 ...
10-30-22 20:39  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:39  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:39  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:39  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001607115786914744
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002474312537761161
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002474312537761161
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0214999999999976 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0219999999999976 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015730405650044136
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024372666469525252
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00024372666469525252
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0219999999999976 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0224999999999975 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015380958681434401
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002398754188644417
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002398754188644417
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0224999999999975 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0229999999999975 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0015029967571882658
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00023596490892332204
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00023596490892332204
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0229999999999975 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0234999999999974 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014680600776874322
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00023203698577342708
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00023203698577342708
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0234999999999974 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0239999999999974 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014334280374838657
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022811248815073502
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00022811248815073502
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0239999999999974 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0244999999999973 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013991613953629716
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022420193989561968
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00022420193989561968
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0244999999999973 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2685
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0249999999999972 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001363642628220847
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022006411559890085
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00022006411559890085
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0249999999999972 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0254999999999972 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013832395734653382
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002155871488682605
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002155871488682605
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0254999999999972 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0259999999999971 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013848347790329776
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002152247707412452
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0002152247707412452
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.0259999999999971 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.026499999999997 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013642611168668923
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00021298009161992485
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00021298009161992485
10-30-22 20:40  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Solved time: 1.026499999999997 s
10-30-22 20:40  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:40  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:40  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:40  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:40  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.026999999999997 ...
10-30-22 20:40  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:40  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:40  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:40  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013358090251461496
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00021001514438990826
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00021001514438990826
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.026999999999997 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.027499999999997 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0013041484885407378
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000206693344334472
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000206693344334472
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.027499999999997 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.027999999999997 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012711435454097876
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00020317429101164526
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00020317429101164526
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.027999999999997 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0284999999999969 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012376181298554862
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00019953570936037286
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00019953570936037286
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.0284999999999969 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0289999999999968 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012039592790569669
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00019581636580545298
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00019581636580545298
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.0289999999999968 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0294999999999968 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001170292434434362
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001920044387707079
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0001920044387707079
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.0294999999999968 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0299999999999967 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011368719539033673
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001881780929229687
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0001881780929229687
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.0299999999999967 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0304999999999966 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011035886420869508
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00018426478702338045
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00018426478702338045
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.0304999999999966 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0309999999999966 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.001070608817908191
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00018034613823297277
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00018034613823297277
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.0309999999999966 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0314999999999965 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010378341234415136
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00017635377214289826
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00017635377214289826
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.0314999999999965 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0319999999999965 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0010054637823138167
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:41  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:41  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001723995174642298
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0001723995174642298
10-30-22 20:41  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Solved time: 1.0319999999999965 s
10-30-22 20:41  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:41  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:41  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:41  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:41  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0324999999999964 ...
10-30-22 20:41  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:41  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000973323484990141
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.000973323484990141
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0324999999999964 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0329999999999964 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009397232258204577
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0009397232258204577
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0329999999999964 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0334999999999963 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009035300424203212
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0009035300424203212
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0334999999999963 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0339999999999963 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008678655322881065
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0008678655322881065
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0339999999999963 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0344999999999962 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007878904885052725
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007878904885052725
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0344999999999962 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0349999999999961 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007560790716087951
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007560790716087951
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0349999999999961 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.035499999999996 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007251154349987499
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007251154349987499
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.035499999999996 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.035999999999996 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006203940747181639
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0006203940747181639
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.035999999999996 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.036499999999996 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005746220185725475
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005746220185725475
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.036499999999996 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.036999999999996 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005502554779241844
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005502554779241844
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.036999999999996 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0374999999999959 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005309182445938901
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005309182445938901
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0374999999999959 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0379999999999958 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005073734374141687
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005073734374141687
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0379999999999958 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0384999999999958 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:42  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:42  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00048430197560531607
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00048430197560531607
10-30-22 20:42  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Solved time: 1.0384999999999958 s
10-30-22 20:42  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:42  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:42  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:42  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:42  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0389999999999957 ...
10-30-22 20:42  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:42  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00046170498426881544
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00046170498426881544
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0389999999999957 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0394999999999956 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0004395474283937591
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0004395474283937591
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0394999999999956 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0399999999999956 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00041785473618062704
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00041785473618062704
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0399999999999956 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0404999999999955 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00031476244641720686
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00031476244641720686
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0404999999999955 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0409999999999955 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00029815238308276645
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00029815238308276645
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0409999999999955 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0414999999999954 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002822068263784612
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0002822068263784612
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0414999999999954 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0419999999999954 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00026546630568269336
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00026546630568269336
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0419999999999954 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0424999999999953 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00016452366424314012
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00016452366424314012
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0424999999999953 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0429999999999953 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002420447041891157
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0002420447041891157
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0429999999999953 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0434999999999952 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00010518253260470041
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00010518253260470041
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0434999999999952 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0439999999999952 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.980228703384012e-05
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 8.980228703384012e-05
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.0439999999999952 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.044499999999995 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 6.147530426305585e-05
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 6.147530426305585e-05
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.044499999999995 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:43  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.044999999999995 ...
10-30-22 20:43  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:43  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:43  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.979427591469869e-05
10-30-22 20:43  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 4.979427591469869e-05
10-30-22 20:43  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Solved time: 1.044999999999995 s
10-30-22 20:43  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:43  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:43  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:43  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.045499999999995 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 3.840927396176876e-05
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 3.840927396176876e-05
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.045499999999995 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.045999999999995 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 2.5999354201632315e-05
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 2.5999354201632315e-05
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.045999999999995 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0464999999999949 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 1.592936016183787e-05
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 1.592936016183787e-05
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0464999999999949 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0469999999999948 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001753245752864848
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0001753245752864848
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0469999999999948 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0474999999999948 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005959822586233896
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005959822586233896
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0474999999999948 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0479999999999947 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001862087433854547
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0001862087433854547
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0479999999999947 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0484999999999947 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005120902354292657
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005120902354292657
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0484999999999947 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0489999999999946 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005136665871577101
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005136665871577101
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0489999999999946 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0494999999999945 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00020738251961830166
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00020738251961830166
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0494999999999945 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0499999999999945 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 1.66035611440834e-05
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 1.66035611440834e-05
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0499999999999945 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0504999999999944 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024471015996692716
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00024471015996692716
10-30-22 20:44  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Solved time: 1.0504999999999944 s
10-30-22 20:44  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:44  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:44  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:44  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:44  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0509999999999944 ...
10-30-22 20:44  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:44  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:44  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:44  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00047015526850122975
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00047015526850122975
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0509999999999944 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0514999999999943 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005731952284632229
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005731952284632229
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0514999999999943 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0519999999999943 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003648547970869144
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0003648547970869144
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0519999999999943 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0524999999999942 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007008567807261434
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007008567807261434
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0524999999999942 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0529999999999942 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00039551720673597547
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00039551720673597547
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0529999999999942 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.053499999999994 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.280446913718692e-05
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 9.280446913718692e-05
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.053499999999994 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.053999999999994 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005119441508075942
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005119441508075942
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.053999999999994 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2693
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.054499999999994 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.034308998649321104
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 2.8049241168990247e-05
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 2.8049241168990247e-05
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.054499999999994 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.054999999999994 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.054999999999994 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0554999999999939 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0554999999999939 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0559999999999938 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022453395501458842
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00022453395501458842
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0559999999999938 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0564999999999938 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00015637852658638093
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00015637852658638093
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0564999999999938 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0569999999999937 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017844617967451503
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:45  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:45  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 7.156256328058895e-05
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 7.156256328058895e-05
10-30-22 20:45  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Solved time: 1.0569999999999937 s
10-30-22 20:45  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:45  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:45  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:45  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:45  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0574999999999937 ...
10-30-22 20:45  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:45  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0012571879949082178
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 8 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001649993420030647
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0001649993420030647
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0574999999999937 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0579999999999936 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00024864985703475467
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00024864985703475467
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0579999999999936 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0584999999999936 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00011833158889141098
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00011833158889141098
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0584999999999936 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0589999999999935 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003601124278803084
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0003601124278803084
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0589999999999935 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0594999999999934 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022452378023586771
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00022452378023586771
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0594999999999934 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0599999999999934 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0002687136929036759
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0002687136929036759
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0599999999999934 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0604999999999933 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0604999999999933 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0609999999999933 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0609999999999933 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0614999999999932 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0614999999999932 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0619999999999932 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00020826702372197793
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00020826702372197793
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0619999999999932 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0624999999999931 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0019356885273329307
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007945504526863359
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0007945504526863359
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.0624999999999931 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.062999999999993 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005391294071661459
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005391294071661459
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.062999999999993 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:46  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.063499999999993 ...
10-30-22 20:46  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:46  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:46  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 1.0718079983693598e-06
10-30-22 20:46  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 1.0718079983693598e-06
10-30-22 20:46  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Solved time: 1.063499999999993 s
10-30-22 20:46  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:46  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:46  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:46  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.063999999999993 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00166790793064221
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00012035495839431478
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.00012035495839431478
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.063999999999993 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.064499999999993 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003396391304440835
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0003396391304440835
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.064499999999993 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0649999999999928 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001326658947553189
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0001326658947553189
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0649999999999928 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0654999999999928 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003211105449604043
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0003211105449604043
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0654999999999928 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0659999999999927 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006663779053407847
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0006663779053407847
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0659999999999927 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0664999999999927 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.572274347403635e-05
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 9.572274347403635e-05
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0664999999999927 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0669999999999926 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 6 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003318031443921154
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0003318031443921154
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0669999999999926 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0674999999999926 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 1.0719394720518753e-14
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 1.0719394720518753e-14
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0674999999999926 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0679999999999925 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0679999999999925 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0684999999999925 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0684999999999925 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0689999999999924 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0689999999999924 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0694999999999923 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003743626957661686
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0003743626957661686
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0694999999999923 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:47  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0699999999999923 ...
10-30-22 20:47  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 6 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:47  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:47  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007911839236598439
10-30-22 20:47  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007911839236598439
10-30-22 20:47  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Solved time: 1.0699999999999923 s
10-30-22 20:47  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:47  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:47  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:47  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0704999999999922 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0014472578189554865
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000657737069861497
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.000657737069861497
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0704999999999922 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0709999999999922 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005223156759137418
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005223156759137418
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0709999999999922 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0714999999999921 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 9.959163072310442e-05
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 9.959163072310442e-05
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0714999999999921 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.071999999999992 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.071999999999992 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.072499999999992 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.072499999999992 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.072999999999992 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.072999999999992 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.073499999999992 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.073499999999992 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0739999999999919 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0739999999999919 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0744999999999918 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0744999999999918 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0749999999999917 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0749999999999917 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0754999999999917 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000600378093973489
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.000600378093973489
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0754999999999917 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0759999999999916 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.000837146031225824
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.000837146031225824
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0759999999999916 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0764999999999916 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007819867732392244
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007819867732392244
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0764999999999916 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0769999999999915 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008411999428226125
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0008411999428226125
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0769999999999915 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0774999999999915 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:48  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0001506145850399811
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0001506145850399811
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0774999999999915 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0779999999999914 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0779999999999914 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0784999999999914 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:48  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:48  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Solved time: 1.0784999999999914 s
10-30-22 20:48  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:48  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:48  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:48  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:48  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0789999999999913 ...
10-30-22 20:48  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:48  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0789999999999913 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0794999999999912 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007812028446958114
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007812028446958114
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0794999999999912 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0799999999999912 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0003961906778174222
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0003961906778174222
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0799999999999912 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0804999999999911 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00010333645037043237
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00010333645037043237
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0804999999999911 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.080999999999991 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.080999999999991 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.081499999999991 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.081499999999991 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.081999999999991 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.081999999999991 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.082499999999991 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 1.667937818512718e-13
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 1.667937818512718e-13
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.082499999999991 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0829999999999909 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008576800803283058
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0008576800803283058
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0829999999999909 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0834999999999908 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0011272133335896448
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0006887452596567752
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 3 iterations with norm = 0.0006887452596567752
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0834999999999908 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0839999999999907 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005338281766203569
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0005338281766203569
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0839999999999907 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0844999999999907 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0844999999999907 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0849999999999906 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0849999999999906 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0854999999999906 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0854999999999906 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0859999999999905 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0859999999999905 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0864999999999905 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0864999999999905 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0869999999999904 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0869999999999904 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0874999999999904 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00014681366076972862
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00014681366076972862
10-30-22 20:49  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Solved time: 1.0874999999999904 s
10-30-22 20:49  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:49  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:49  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:49  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:49  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0879999999999903 ...
10-30-22 20:49  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:49  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:49  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:49  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00022099012796092483
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00022099012796092483
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0879999999999903 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0884999999999903 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0884999999999903 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0889999999999902 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0889999999999902 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0894999999999901 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0894999999999901 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.08999999999999 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.08999999999999 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.09049999999999 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.09049999999999 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.09099999999999 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 5.819099991138752e-15
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 5.819099991138752e-15
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.09099999999999 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.09149999999999 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 8 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008841831326155393
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0008841831326155393
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.09149999999999 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0919999999999899 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00040441884943941754
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.00040441884943941754
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0919999999999899 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0924999999999898 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 8.782204290608466e-05
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 8.782204290608466e-05
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0924999999999898 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0929999999999898 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0929999999999898 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0934999999999897 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.00125350444738794
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.002106010477842703
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0008577150821346328
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0008577150821346328
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0934999999999897 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0939999999999896 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:50  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009328170726443805
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0009328170726443805
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0939999999999896 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0944999999999896 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0944999999999896 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0949999999999895 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0949999999999895 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0954999999999895 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0954999999999895 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0959999999999894 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0959999999999894 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0964999999999894 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0964999999999894 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0969999999999893 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0969999999999893 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0974999999999893 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:50  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:50  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Solved time: 1.0974999999999893 s
10-30-22 20:50  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:50  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:50  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:50  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:50  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0979999999999892 ...
10-30-22 20:50  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:50  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.0979999999999892 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.0984999999999892 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.0984999999999892 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.098999999999989 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.098999999999989 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.099499999999989 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.099499999999989 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.099999999999989 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.099999999999989 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.100499999999989 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.100499999999989 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1009999999999889 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1009999999999889 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1014999999999888 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1014999999999888 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1019999999999888 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1019999999999888 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1024999999999887 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1024999999999887 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1029999999999887 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1029999999999887 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1034999999999886 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1034999999999886 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1039999999999885 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1039999999999885 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1044999999999885 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1044999999999885 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1049999999999884 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1049999999999884 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1054999999999884 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1054999999999884 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1059999999999883 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1059999999999883 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1064999999999883 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1064999999999883 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1069999999999882 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1069999999999882 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1074999999999882 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1074999999999882 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.107999999999988 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.107999999999988 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.108499999999988 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.108499999999988 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.108999999999988 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.108999999999988 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.109499999999988 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.109499999999988 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1099999999999879 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 2.3276399964555005e-15
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 2.3276399964555005e-15
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1099999999999879 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1104999999999878 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 4.269381782972326e-14
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 4.269381782972326e-14
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1104999999999878 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1109999999999878 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0009829927032463104
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0009829927032463104
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1109999999999878 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1114999999999877 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0017464416278955889
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 3
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0021541869799739607
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 4
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0005880258364581093
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 4 iterations with norm = 0.0005880258364581093
10-30-22 20:51  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Solved time: 1.1114999999999877 s
10-30-22 20:51  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:51  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:51  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:51  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:51  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1119999999999877 ...
10-30-22 20:51  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Starting Fracture Front loop...
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 1
10-30-22 20:51  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:51  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 10.0
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG      
10-30-22 20:51  PyFrac.attempt_time_step                 DEBUG     Iteration 2
10-30-22 20:52  PyFrac.injection_extended_footprint      DEBUG     Solving the EHL system with the new trial footprint
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Norm of subsequent filling fraction estimates = 0.0007652523371731455
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Fracture front converged after 2 iterations with norm = 0.0007652523371731455
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1119999999999877 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1124999999999876 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1124999999999876 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1129999999999876 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1129999999999876 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1134999999999875 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1134999999999875 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1139999999999874 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1139999999999874 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1144999999999874 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1144999999999874 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1149999999999873 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1149999999999873 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1154999999999873 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1154999999999873 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1159999999999872 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1159999999999872 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1164999999999872 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1164999999999872 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1169999999999871 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1169999999999871 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.117499999999987 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.117499999999987 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.117999999999987 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.117999999999987 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.118499999999987 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.118499999999987 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.118999999999987 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.118999999999987 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1194999999999868 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1194999999999868 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1199999999999868 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1199999999999868 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1204999999999867 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1204999999999867 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1209999999999867 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1209999999999867 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1214999999999866 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1214999999999866 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1219999999999866 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1219999999999866 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1224999999999865 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1224999999999865 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1229999999999865 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1229999999999865 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1234999999999864 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1234999999999864 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1239999999999863 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1239999999999863 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1244999999999863 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1244999999999863 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1249999999999862 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1249999999999862 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1254999999999862 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1254999999999862 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1259999999999861 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1259999999999861 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.126499999999986 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.126499999999986 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.126999999999986 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.126999999999986 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.127499999999986 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.127499999999986 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.127999999999986 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.127999999999986 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1284999999999858 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1284999999999858 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1289999999999858 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1289999999999858 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1294999999999857 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1294999999999857 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1299999999999857 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:52  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:52  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Solved time: 1.1299999999999857 s
10-30-22 20:52  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:52  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:52  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:52  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:52  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1304999999999856 ...
10-30-22 20:52  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:52  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1304999999999856 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1309999999999856 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1309999999999856 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1314999999999855 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1314999999999855 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1319999999999855 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1319999999999855 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1324999999999854 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1324999999999854 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1329999999999854 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1329999999999854 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1334999999999853 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1334999999999853 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1339999999999852 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1339999999999852 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1344999999999852 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1344999999999852 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1349999999999851 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1349999999999851 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.135499999999985 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.135499999999985 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.135999999999985 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.135999999999985 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.136499999999985 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.136499999999985 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.136999999999985 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.136999999999985 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1374999999999849 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1374999999999849 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1379999999999848 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1379999999999848 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1384999999999847 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1384999999999847 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1389999999999847 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1389999999999847 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1394999999999846 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1394999999999846 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1399999999999846 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1399999999999846 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1404999999999845 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1404999999999845 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1409999999999845 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1409999999999845 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1414999999999844 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1414999999999844 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1419999999999844 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1419999999999844 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1424999999999843 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1424999999999843 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1429999999999843 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1429999999999843 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1434999999999842 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1434999999999842 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1439999999999841 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1439999999999841 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.144499999999984 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.144499999999984 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.144999999999984 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.144999999999984 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.145499999999984 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.145499999999984 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.145999999999984 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.145999999999984 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1464999999999839 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1464999999999839 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1469999999999838 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1469999999999838 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1474999999999838 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1474999999999838 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1479999999999837 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1479999999999837 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1484999999999836 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1484999999999836 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1489999999999836 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1489999999999836 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1494999999999835 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1494999999999835 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1499999999999835 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1499999999999835 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1504999999999834 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1504999999999834 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1509999999999834 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1509999999999834 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1514999999999833 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1514999999999833 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1519999999999833 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:53  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:53  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Solved time: 1.1519999999999833 s
10-30-22 20:53  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:53  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:53  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:53  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:53  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1524999999999832 ...
10-30-22 20:53  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:53  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1524999999999832 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1529999999999831 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1529999999999831 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.153499999999983 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.153499999999983 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.153999999999983 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.153999999999983 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.154499999999983 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.154499999999983 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.154999999999983 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.154999999999983 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1554999999999829 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1554999999999829 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1559999999999828 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1559999999999828 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1564999999999828 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1564999999999828 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1569999999999827 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1569999999999827 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1574999999999827 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1574999999999827 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1579999999999826 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1579999999999826 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1584999999999825 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1584999999999825 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1589999999999825 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1589999999999825 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1594999999999824 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1594999999999824 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1599999999999824 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1599999999999824 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1604999999999823 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1604999999999823 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1609999999999823 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1609999999999823 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1614999999999822 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1614999999999822 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1619999999999822 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1619999999999822 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.162499999999982 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.162499999999982 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.162999999999982 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.162999999999982 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.163499999999982 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.163499999999982 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.163999999999982 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.163999999999982 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1644999999999819 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1644999999999819 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1649999999999818 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1649999999999818 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1654999999999818 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1654999999999818 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1659999999999817 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1659999999999817 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1664999999999817 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1664999999999817 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1669999999999816 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1669999999999816 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1674999999999816 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1674999999999816 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1679999999999815 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1679999999999815 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1684999999999814 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1684999999999814 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1689999999999814 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1689999999999814 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1694999999999813 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1694999999999813 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1699999999999813 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1699999999999813 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1704999999999812 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1704999999999812 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1709999999999812 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1709999999999812 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1714999999999811 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1714999999999811 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.171999999999981 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.171999999999981 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.172499999999981 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.172499999999981 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.172999999999981 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.172999999999981 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.173499999999981 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.173499999999981 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:54  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1739999999999808 ...
10-30-22 20:54  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:54  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:54  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:54  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Solved time: 1.1739999999999808 s
10-30-22 20:54  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:54  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:54  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:54  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1744999999999808 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1744999999999808 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1749999999999807 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1749999999999807 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1754999999999807 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1754999999999807 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1759999999999806 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1759999999999806 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1764999999999806 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1764999999999806 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1769999999999805 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1769999999999805 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1774999999999805 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1774999999999805 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1779999999999804 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1779999999999804 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1784999999999803 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1784999999999803 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1789999999999803 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1789999999999803 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1794999999999802 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1794999999999802 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1799999999999802 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1799999999999802 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1804999999999801 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1804999999999801 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.18099999999998 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.18099999999998 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.18149999999998 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.18149999999998 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.18199999999998 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.18199999999998 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.18249999999998 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.18249999999998 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1829999999999798 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1829999999999798 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1834999999999798 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1834999999999798 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1839999999999797 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1839999999999797 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1844999999999797 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1844999999999797 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1849999999999796 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1849999999999796 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1854999999999796 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1854999999999796 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1859999999999795 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1859999999999795 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1864999999999795 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1864999999999795 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1869999999999794 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1869999999999794 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1874999999999793 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1874999999999793 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1879999999999793 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1879999999999793 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1884999999999792 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1884999999999792 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1889999999999792 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1889999999999792 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1894999999999791 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1894999999999791 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.189999999999979 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.189999999999979 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.190499999999979 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.190499999999979 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.190999999999979 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.190999999999979 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.191499999999979 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.191499999999979 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1919999999999789 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1919999999999789 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1924999999999788 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1924999999999788 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1929999999999787 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1929999999999787 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1934999999999787 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1934999999999787 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1939999999999786 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1939999999999786 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1944999999999786 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1944999999999786 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1949999999999785 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1949999999999785 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1954999999999785 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:55  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:55  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Solved time: 1.1954999999999785 s
10-30-22 20:55  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:55  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:55  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:55  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:55  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1959999999999784 ...
10-30-22 20:55  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:55  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.1959999999999784 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1964999999999784 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.1964999999999784 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1969999999999783 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.1969999999999783 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1974999999999782 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.1974999999999782 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1979999999999782 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.1979999999999782 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.1984999999999781 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.1984999999999781 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.198999999999978 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.198999999999978 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.199499999999978 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.199499999999978 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.199999999999978 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.199999999999978 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.200499999999978 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.200499999999978 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2009999999999779 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2009999999999779 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2014999999999778 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2014999999999778 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2019999999999778 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2019999999999778 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2024999999999777 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2024999999999777 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2029999999999776 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2029999999999776 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2034999999999776 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2034999999999776 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2039999999999775 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2039999999999775 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2044999999999775 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2044999999999775 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2049999999999774 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2049999999999774 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2054999999999774 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2054999999999774 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2059999999999773 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2059999999999773 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2064999999999773 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2064999999999773 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2069999999999772 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2069999999999772 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2074999999999771 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2074999999999771 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.207999999999977 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.207999999999977 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.208499999999977 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.208499999999977 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.208999999999977 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.208999999999977 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.209499999999977 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.209499999999977 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2099999999999769 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2099999999999769 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2104999999999768 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2104999999999768 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2109999999999768 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2109999999999768 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2114999999999767 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2114999999999767 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2119999999999767 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2119999999999767 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2124999999999766 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2124999999999766 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2129999999999765 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2129999999999765 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2134999999999765 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2134999999999765 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2139999999999764 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2139999999999764 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2144999999999764 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2144999999999764 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2149999999999763 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2149999999999763 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2154999999999763 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2154999999999763 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2159999999999762 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2159999999999762 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2164999999999762 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.2164999999999762 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.216999999999976 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:56  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Solved time: 1.216999999999976 s
10-30-22 20:56  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:56  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:56  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:56  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:56  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.217499999999976 ...
10-30-22 20:56  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:56  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:56  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.217499999999976 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.217999999999976 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.217999999999976 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.218499999999976 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.218499999999976 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2189999999999759 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2189999999999759 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2194999999999758 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2194999999999758 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2199999999999758 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2199999999999758 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2204999999999757 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2204999999999757 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2209999999999757 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2209999999999757 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2214999999999756 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2214999999999756 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2219999999999756 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2219999999999756 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2224999999999755 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2224999999999755 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2229999999999754 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2229999999999754 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2234999999999754 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2234999999999754 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2239999999999753 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2239999999999753 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2244999999999753 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2244999999999753 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2249999999999752 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2249999999999752 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2254999999999752 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2254999999999752 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.225999999999975 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.225999999999975 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.226499999999975 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.226499999999975 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.226999999999975 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.226999999999975 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.227499999999975 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.227499999999975 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.227999999999975 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.227999999999975 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2284999999999748 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2284999999999748 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2289999999999748 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2289999999999748 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2294999999999747 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2294999999999747 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2299999999999747 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2299999999999747 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2304999999999746 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2304999999999746 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2309999999999746 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2309999999999746 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2314999999999745 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2314999999999745 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2319999999999744 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2319999999999744 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2324999999999744 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2324999999999744 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2329999999999743 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2329999999999743 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2334999999999743 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2334999999999743 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2339999999999742 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2339999999999742 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2344999999999742 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2344999999999742 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2349999999999741 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2349999999999741 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.235499999999974 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.235499999999974 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.235999999999974 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.235999999999974 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.236499999999974 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.236499999999974 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.236999999999974 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.236999999999974 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2374999999999738 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2374999999999738 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2379999999999738 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2379999999999738 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2384999999999737 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2384999999999737 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:57  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2389999999999737 ...
10-30-22 20:57  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:57  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:57  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:57  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Solved time: 1.2389999999999737 s
10-30-22 20:57  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:57  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:57  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:57  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2394999999999736 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2394999999999736 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2399999999999736 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2399999999999736 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2404999999999735 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2404999999999735 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2409999999999735 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2409999999999735 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2414999999999734 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2414999999999734 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2419999999999733 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2419999999999733 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2424999999999733 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2424999999999733 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2429999999999732 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2429999999999732 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2434999999999732 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2434999999999732 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2439999999999731 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2439999999999731 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.244499999999973 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.244499999999973 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.244999999999973 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.244999999999973 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.245499999999973 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.245499999999973 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.245999999999973 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.245999999999973 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2464999999999729 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2464999999999729 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2469999999999728 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2469999999999728 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2474999999999727 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2474999999999727 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2479999999999727 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2479999999999727 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2484999999999726 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2484999999999726 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2489999999999726 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2489999999999726 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2494999999999725 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2494999999999725 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2499999999999725 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2499999999999725 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2504999999999724 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2504999999999724 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2509999999999724 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2509999999999724 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2514999999999723 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2514999999999723 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2519999999999722 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2519999999999722 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2524999999999722 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2524999999999722 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2529999999999721 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2529999999999721 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.253499999999972 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.253499999999972 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.253999999999972 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.253999999999972 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.254499999999972 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.254499999999972 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.254999999999972 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.254999999999972 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2554999999999719 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2554999999999719 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2559999999999718 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2559999999999718 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2564999999999718 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2564999999999718 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2569999999999717 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2569999999999717 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2574999999999716 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2574999999999716 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2579999999999716 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2579999999999716 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2584999999999715 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2584999999999715 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2589999999999715 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2589999999999715 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2594999999999714 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2594999999999714 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2599999999999714 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2599999999999714 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2604999999999713 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:58  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:58  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Solved time: 1.2604999999999713 s
10-30-22 20:58  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:58  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:58  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:58  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:58  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2609999999999713 ...
10-30-22 20:58  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:58  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2609999999999713 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2614999999999712 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2614999999999712 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2619999999999711 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2619999999999711 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.262499999999971 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.262499999999971 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.262999999999971 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.262999999999971 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.263499999999971 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.263499999999971 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.263999999999971 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.263999999999971 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2644999999999709 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2644999999999709 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2649999999999708 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2649999999999708 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2654999999999708 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2654999999999708 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2659999999999707 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2659999999999707 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2664999999999706 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2664999999999706 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2669999999999706 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2669999999999706 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2674999999999705 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2674999999999705 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2679999999999705 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2679999999999705 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2684999999999704 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2684999999999704 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2689999999999704 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2689999999999704 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2694999999999703 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2694999999999703 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2699999999999703 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2699999999999703 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2704999999999702 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2704999999999702 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2709999999999702 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2709999999999702 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.27149999999997 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.27149999999997 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.27199999999997 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.27199999999997 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.27249999999997 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.27249999999997 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.27299999999997 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.27299999999997 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2734999999999699 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2734999999999699 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2739999999999698 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2739999999999698 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2744999999999698 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2744999999999698 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2749999999999697 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2749999999999697 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2754999999999697 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2754999999999697 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2759999999999696 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2759999999999696 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2764999999999695 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2764999999999695 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2769999999999695 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2769999999999695 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2774999999999694 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2774999999999694 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2779999999999694 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2779999999999694 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2784999999999693 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2784999999999693 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2789999999999693 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2789999999999693 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2794999999999692 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2794999999999692 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2799999999999692 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2799999999999692 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.280499999999969 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.280499999999969 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.280999999999969 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.280999999999969 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.281499999999969 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.281499999999969 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.281999999999969 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.281999999999969 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2824999999999689 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 20:59  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 20:59  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Solved time: 1.2824999999999689 s
10-30-22 20:59  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 20:59  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 20:59  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 20:59  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 20:59  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2829999999999688 ...
10-30-22 20:59  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 20:59  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2829999999999688 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2834999999999688 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2834999999999688 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2839999999999687 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2839999999999687 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2844999999999687 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2844999999999687 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2849999999999686 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2849999999999686 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2854999999999686 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2854999999999686 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2859999999999685 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2859999999999685 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2864999999999684 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2864999999999684 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2869999999999684 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2869999999999684 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2874999999999683 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2874999999999683 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2879999999999683 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2879999999999683 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2884999999999682 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2884999999999682 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2889999999999682 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2889999999999682 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2894999999999681 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2894999999999681 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.289999999999968 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.289999999999968 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.290499999999968 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.290499999999968 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.290999999999968 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.290999999999968 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.291499999999968 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.291499999999968 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2919999999999678 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2919999999999678 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2924999999999678 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2924999999999678 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2929999999999677 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2929999999999677 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2934999999999677 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2934999999999677 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2939999999999676 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2939999999999676 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2944999999999676 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2944999999999676 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2949999999999675 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2949999999999675 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2954999999999675 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2954999999999675 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2959999999999674 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2959999999999674 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2964999999999673 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2964999999999673 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2969999999999673 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2969999999999673 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2974999999999672 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2974999999999672 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2979999999999672 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2979999999999672 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.2984999999999671 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.2984999999999671 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.298999999999967 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.298999999999967 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.299499999999967 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.299499999999967 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.299999999999967 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004999999999999449 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.299999999999967 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004999999999999449 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 3.3084646133829665e-14 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 3.3084646133829665e-14 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000000662 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 6.616929226765933e-14 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000000662 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 6.616929226765933e-14 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000001986 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.3233858453531866e-13 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000001986 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 1.3233858453531866e-13 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000004632 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 2.646771690706373e-13 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000004632 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 2.646771690706373e-13 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000009926 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 5.293543381412746e-13 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000009926 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 5.293543381412746e-13 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000020513 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.0587086762825493e-12 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000020513 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 1.0587086762825493e-12 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000041687 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 2.1174173525650986e-12 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000041687 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 2.1174173525650986e-12 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000084035 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 4.234834705130197e-12 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000084035 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 4.234834705130197e-12 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000168732 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 8.469669410260394e-12 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000168732 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 8.469669410260394e-12 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000338126 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.693933882052079e-11 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000338126 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 1.693933882052079e-11 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000000676912 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 3.387867764104158e-11 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000000676912 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 3.387867764104158e-11 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000001354486 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 6.775735528208315e-11 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000001354486 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 6.775735528208315e-11 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000002709633 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.355147105641663e-10 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000002709633 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 1.355147105641663e-10 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000005419927 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 2.710294211283326e-10 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000005419927 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 2.710294211283326e-10 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000010840516 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 5.420588422566652e-10 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000010840516 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 5.420588422566652e-10 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000021681692 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.0841176845133305e-09 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000021681692 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 1.0841176845133305e-09 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:00  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000043364046 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 2.168235369026661e-09 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:00  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:00  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000043364046 s
10-30-22 21:00  PyFrac.controller.run                    DEBUG     for a time step of: 2.168235369026661e-09 s
10-30-22 21:00  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:00  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000086728754 ...
10-30-22 21:00  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 4.336470738053322e-09 sec...
10-30-22 21:00  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000086728754 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 4.336470738053322e-09 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000173458168 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 8.672941476106644e-09 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000173458168 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 8.672941476106644e-09 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000346916998 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.7345882952213287e-08 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000346916998 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 1.7345882952213287e-08 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000000693834657 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 3.4691765904426575e-08 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000000693834657 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 3.4691765904426575e-08 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000001387669975 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 6.938353180885315e-08 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000001387669975 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 6.938353180885315e-08 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.300000277534061 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.387670636177063e-07 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.300000277534061 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 1.387670636177063e-07 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000005550681883 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 2.775341272354126e-07 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000005550681883 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 2.775341272354126e-07 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000011101364428 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 5.550682544708252e-07 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000011101364428 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 5.550682544708252e-07 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000022202729518 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.1101365089416504e-06 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000022202729518 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 1.1101365089416504e-06 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000044405459696 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 2.2202730178833008e-06 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000044405459696 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 2.2202730178833008e-06 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000088810920054 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 4.4405460357666016e-06 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000088810920054 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 4.4405460357666016e-06 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.300017762184077 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 8.881092071533203e-06 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.300017762184077 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 8.881092071533203e-06 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.30003552436822 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 1.7762184143066406e-05 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.30003552436822 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 1.7762184143066406e-05 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3000710487365061 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 3.552436828613281e-05 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3000710487365061 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 3.552436828613281e-05 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3001420974730784 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 7.104873657226562e-05 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3001420974730784 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 7.104873657226562e-05 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.300284194946223 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00014209747314453125 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.300284194946223 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.00014209747314453125 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.300568389892512 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0002841949462890625 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.300568389892512 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0002841949462890625 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3011367797850901 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000568389892578125 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3011367797850901 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.000568389892578125 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3022735595702464 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00113677978515625 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3022735595702464 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.00113677978515625 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3045471191405589 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0022735595703125 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3045471191405589 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0022735595703125 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.305 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004528808594410627 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.305 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004528808594410627 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.305905761718882 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009057617188821254 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.305905761718882 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009057617188821254 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3077172851566463 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0018115234377642508 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3077172851566463 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0018115234377642508 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3099999999999998 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002282714843353517 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3099999999999998 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.002282714843353517 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3145654296867069 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004565429686707034 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3145654296867069 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004565429686707034 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3149999999999997 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004345703132928591 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3149999999999997 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004345703132928591 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3158691406265854 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008691406265857182 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3158691406265854 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008691406265857182 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3176074218797569 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0017382812531714364 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3176074218797569 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0017382812531714364 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3199999999999996 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0023925781202427387 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3199999999999996 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.0023925781202427387 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3249999999999995 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 6 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3249999999999995 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3299999999999994 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3299999999999994 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3349999999999993 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3349999999999993 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3399999999999992 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3399999999999992 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.344999999999999 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.344999999999999 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.349999999999999 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.349999999999999 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3549999999999989 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3549999999999989 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3599999999999988 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3599999999999988 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3649999999999987 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:01  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:01  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Solved time: 1.3649999999999987 s
10-30-22 21:01  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:01  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:01  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:01  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:01  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3699999999999986 ...
10-30-22 21:01  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:01  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.3699999999999986 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3749999999999984 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.3749999999999984 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3799999999999983 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.3799999999999983 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3849999999999982 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 6 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.3849999999999982 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.3899999999999981 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.3899999999999981 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.394999999999998 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.394999999999998 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.399999999999998 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.399999999999998 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4049999999999978 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4049999999999978 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4099999999999977 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4099999999999977 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4149999999999976 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4149999999999976 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4199999999999975 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4199999999999975 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4249999999999974 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4249999999999974 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4299999999999973 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4299999999999973 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4349999999999972 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 6 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4349999999999972 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.439999999999997 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.439999999999997 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.444999999999997 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 8 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.444999999999997 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4499999999999968 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4499999999999968 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4549999999999967 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4549999999999967 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4599999999999966 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4599999999999966 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4649999999999965 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:02  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Solved time: 1.4649999999999965 s
10-30-22 21:02  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:02  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:02  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:02  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:02  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4699999999999964 ...
10-30-22 21:02  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:02  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:02  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:02  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.4699999999999964 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4749999999999963 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.4749999999999963 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4799999999999962 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.4799999999999962 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.484999999999996 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.484999999999996 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.489999999999996 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.489999999999996 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4949999999999959 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.4949999999999959 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.4999999999999958 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.4999999999999958 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5049999999999957 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5049999999999957 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5099999999999956 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5099999999999956 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5149999999999955 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5149999999999955 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5199999999999954 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 6 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5199999999999954 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5249999999999952 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5249999999999952 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5299999999999951 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5299999999999951 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.534999999999995 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.534999999999995 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.539999999999995 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.539999999999995 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5449999999999948 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5449999999999948 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5499999999999947 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5499999999999947 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5549999999999946 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5549999999999946 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5599999999999945 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5599999999999945 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5649999999999944 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 12 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5649999999999944 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5699999999999943 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5699999999999943 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5749999999999942 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.5749999999999942 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.579999999999994 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:03  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:03  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:03  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Solved time: 1.579999999999994 s
10-30-22 21:03  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:03  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:03  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:03  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:03  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.584728498124728 ...
10-30-22 21:03  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0047284981247340515 sec...
10-30-22 21:03  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.584728498124728 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.004728498124733971 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.584999999999994 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0002715018752659226 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.584999999999994 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0002715018752659226 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5855430037505258 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005430037505318452 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.5855430037505258 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005430037505318452 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5866290112515895 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0010860075010636905 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.5866290112515895 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0010860075010636905 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5888010262537169 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002172015002127381 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.5888010262537169 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.002172015002127381 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5899999999999939 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0011989737462769767 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.5899999999999939 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0011989737462769767 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5923979474925478 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0023979474925539535 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.5923979474925478 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0023979474925539535 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5949999999999938 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00260205250744594 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.5949999999999938 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.00260205250744594 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5994514316991177 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004451431699123879 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.5994514316991177 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.004451431699123987 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.5999999999999936 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005485683008759068 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.5999999999999936 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005485683008759068 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6010971366017455 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0010971366017518136 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6010971366017455 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0010971366017518136 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.603291409805249 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002194273203503627 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.603291409805249 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.002194273203503627 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6049999999999935 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0017085901947444526 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6049999999999935 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0017085901947444526 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6084171803894824 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0034171803894889052 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6084171803894824 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0034171803894889052 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6099999999999934 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0015828196105109882 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6099999999999934 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0015828196105109882 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6131656392210154 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0031656392210219764 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6131656392210154 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0031656392210219764 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6149999999999933 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001834360778977917 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6149999999999933 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.001834360778977917 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6186687215579492 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.003668721557955834 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6186687215579492 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.003668721557955834 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6199999999999932 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0013312784420440593 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6199999999999932 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0013312784420440593 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6226625568840813 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0026625568840881186 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6226625568840813 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0026625568840881186 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6249999999999931 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0023374431159117748 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6249999999999931 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0023374431159117748 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.62890391707055 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0039039170705569004 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.62890391707055 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.003903917070556817 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.629999999999993 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0010960829294430763 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.629999999999993 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0010960829294430763 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6321921658588792 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0021921658588861526 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6321921658588792 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0021921658588861526 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.634999999999993 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002807834141113741 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.634999999999993 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.002807834141113741 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.638730113630129 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0037301136301360915 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.638730113630129 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0037301136301362003 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6399999999999928 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001269886369863693 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6399999999999928 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.001269886369863693 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6425397727397202 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002539772739727386 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6425397727397202 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.002539772739727386 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:04  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6449999999999927 ...
10-30-22 21:04  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0024602272602725073 sec...
10-30-22 21:04  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:04  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:04  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Solved time: 1.6449999999999927 s
10-30-22 21:04  PyFrac.controller.run                    DEBUG     for a time step of: 0.0024602272602725073 s
10-30-22 21:04  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:04  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:04  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.64848611550234 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0034861155023474416 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.64848611550234 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0034861155023473422 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6499999999999926 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0015138844976525512 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6499999999999926 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0015138844976525512 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6530277689952977 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0030277689953051024 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6530277689952977 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0030277689953051024 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6549999999999925 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001972231004694791 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6549999999999925 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.001972231004694791 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6583332889798459 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.003333288979853342 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6583332889798459 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0033332889798534104 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6599999999999924 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001666711020146483 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6599999999999924 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.001666711020146483 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.663235437029774 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.003235437029781465 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.663235437029774 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0032354370297815738 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6649999999999923 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0017645629702183196 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6649999999999923 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0017645629702183196 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6680950055443047 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0030950055443123544 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6680950055443047 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0030950055443124125 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6699999999999922 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001904994455687481 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6699999999999922 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.001904994455687481 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6729814386934272 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0029814386934349964 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6729814386934272 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0029814386934350345 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.674999999999992 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002018561306564859 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 8 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.674999999999992 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.002018561306564859 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.677948057631547 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002948057631555104 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.677948057631547 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0029480576315550344 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.679999999999992 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002051942368444859 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.679999999999992 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.002051942368444859 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6828352751265039 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002835275126511949 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6828352751265039 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.002835275126511938 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6849999999999918 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0021647248734879554 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6849999999999918 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0021647248734879554 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6877200244082269 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0027200244082350674 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6877200244082269 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0027200244082350444 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6899999999999917 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002279975591764849 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6899999999999917 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.002279975591764849 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6926056858360898 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0026056858360981473 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6926056858360898 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.002605685836098104 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6949999999999916 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0023943141639017895 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6949999999999916 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0023943141639017895 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.697530194811873 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0025301948118815086 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 9 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.697530194811873 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0025301948118814366 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.6999999999999915 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002469805188118457 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.6999999999999915 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.002469805188118457 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7024278556976755 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002427855697684102 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.7024278556976755 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0024278556976840004 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7048137854442662 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0023859297465905847 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.7048137854442662 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.002385929746590687 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7049999999999914 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00018621455572520595 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.7049999999999914 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.00018621455572520595 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7053724291114418 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003724291114504119 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.7053724291114418 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003724291114504119 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7061172873343426 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007448582229008238 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.7061172873343426 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0007448582229008238 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7076070037801443 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0014897164458016476 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.7076070037801443 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.0014897164458016476 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7099999999999913 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00239299621984701 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:05  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:05  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:05  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Solved time: 1.7099999999999913 s
10-30-22 21:05  PyFrac.controller.run                    DEBUG     for a time step of: 0.00239299621984701 s
10-30-22 21:05  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:05  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:05  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:05  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7122050914512827 ...
10-30-22 21:05  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002205091451291345 sec...
10-30-22 21:05  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7122050914512827 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.002205091451291441 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7143754369577004 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002170345506417693 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7143754369577004 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0021703455064177035 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7149999999999912 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006245630422907489 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7149999999999912 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006245630422907489 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7162491260845727 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0012491260845814978 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7162491260845727 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0012491260845814978 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.718339994673321 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00209086858874841 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.718339994673321 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.002090868588748407 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.719999999999991 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0016600053266699888 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.719999999999991 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0016600053266699888 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.722046559747307 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0020465597473157847 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.722046559747307 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0020465597473158237 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7240123959007418 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001965836153434999 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7240123959007418 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.00196583615343493 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.724999999999991 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009876040992491397 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.724999999999991 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009876040992491397 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7269143744005855 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0019143744005945774 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7269143744005855 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0019143744005944985 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7288179464216606 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0019035720210752187 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7288179464216606 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0019035720210751617 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7299999999999909 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0011820535783302333 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7299999999999909 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0011820535783302333 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7318082751831414 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0018082751831505974 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7318082751831414 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0018082751831505206 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7335701932846943 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001761918101552939 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 11 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7335701932846943 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0017619181015529062 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7349999999999908 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0014298067152964666 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7349999999999908 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0014298067152964666 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7367117024027685 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0017117024027777995 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7367117024027685 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0017117024027777372 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7383808981714837 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001669195768715136 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 7 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7383808981714837 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0016691957687151593 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7399999999999907 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001619101828506997 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7399999999999907 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.001619101828506997 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7416413632893737 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0016413632893829768 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7416413632893737 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0016413632893830243 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7432307495981738 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0015893863088002266 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7432307495981738 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0015893863088001225 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7447826770645474 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0015519274663734891 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7447826770645474 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0015519274663735594 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7449999999999906 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00021732293544318715 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7449999999999906 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.00021732293544318715 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.745434645870877 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004346458708863743 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.745434645870877 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004346458708863743 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7463039376126497 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008692917417727486 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7463039376126497 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008692917417727486 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7477973962835405 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0014934586708908301 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7477973962835405 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0014934586708907904 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7492567767905782 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0014593805070376555 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7492567767905782 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0014593805070377552 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7499999999999905 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007432232094122249 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7499999999999905 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0007432232094122249 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7513723586757601 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001372358675769766 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7513723586757601 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0013723586757696804 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7527892095045279 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0014168508287678253 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7527892095045279 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0014168508287677462 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7541893285005352 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0014001189960074205 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7541893285005352 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.001400118996007338 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7549999999999903 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000810671499455129 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7549999999999903 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.000810671499455129 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:06  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7563126942084695 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0013126942084792088 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7563126942084695 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.001312694208479126 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7576236904074611 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00131099619899172 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7576236904074611 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0013109961989916652 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7588827459329572 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001259055525496062 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:06  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Solved time: 1.7588827459329572 s
10-30-22 21:06  PyFrac.controller.run                    DEBUG     for a time step of: 0.0012590555254961 s
10-30-22 21:06  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:06  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7599999999999902 ...
10-30-22 21:06  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0011172540670330022 sec...
10-30-22 21:06  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:06  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:06  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7599999999999902 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0011172540670330022 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7612141065026028 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001214106502612445 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7612141065026028 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0012141065026125553 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7623922806652845 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0011781741626817341 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7623922806652845 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0011781741626817333 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.763573119292071 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0011808386267864912 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.763573119292071 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.001180838626786418 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7647454170370194 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001172297744948367 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7647454170370194 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.001172297744948425 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7649999999999901 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0002545829629707619 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7649999999999901 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0002545829629707619 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7655091659259317 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005091659259415238 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7655091659259317 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005091659259415238 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7665274977778147 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0010183318518830475 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7665274977778147 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0010183318518830475 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7676325559956658 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0011050582178510693 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 10 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7676325559956658 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0011050582178511181 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7687192623092782 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0010867063136123058 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7687192623092782 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0010867063136124067 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7697628426697527 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0010435803604744943 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7697628426697527 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.001043580360474472 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.76999999999999 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00023715733023732533 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.76999999999999 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.00023715733023732533 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7704743146604647 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00047431466047465065 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7704743146604647 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.00047431466047465065 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.771422943981414 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009486293209493013 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.771422943981414 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009486293209493013 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.772408417579343 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009854735979291272 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.772408417579343 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009854735979291096 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7733791374522976 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009707198729545081 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7733791374522976 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009707198729544952 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7743113004321394 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009321629798417912 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7743113004321394 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009321629798417774 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.77499999999999 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006886995678505592 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.77499999999999 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006886995678505592 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7759551472344413 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009551472344512904 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7759551472344413 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009551472344513368 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7768854217013914 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0009302744669501819 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7768854217013914 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0009302744669501539 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7777787355392392 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008933138378478022 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7777787355392392 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008933138378477423 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7786365492272076 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008578136879683831 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7786365492272076 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.000857813687968445 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7794844313145577 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000847882087350167 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7794844313145577 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008478820873500936 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7799999999999898 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005155686854321218 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7799999999999898 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005155686854321218 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7808182945759599 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008182945759701176 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 6 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7808182945759599 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008182945759700466 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.781654334917237 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008360403412770298 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.781654334917237 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008360403412770445 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7824571302910899 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008027953738529546 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7824571302910899 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008027953738529714 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.783253450034716 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007963197436260937 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.783253450034716 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0007963197436260394 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7840578511042688 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008044010695528658 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7840578511042688 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008044010695529291 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7848302588596663 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007724077553975211 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7848302588596663 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0007724077553974418 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7849999999999897 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00016974114032342058 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7849999999999897 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.00016974114032342058 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7853394822806365 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00033948228064684116 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7853394822806365 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.00033948228064684116 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7860184468419302 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006789645612936823 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7860184468419302 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006789645612936823 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7867376713579186 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007192245159884122 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7867376713579186 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0007192245159883814 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.787428269324489 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006905979665703411 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.787428269324489 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006905979665703388 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7881159734805245 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006877041560356107 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7881159734805245 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006877041560355845 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.788788770058427 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000672796577902583 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.788788770058427 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006727965779025347 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.789434784269747 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006460142113198612 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.789434784269747 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006460142113198231 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7899999999999896 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005652157302427074 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.7899999999999896 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005652157302427074 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.790622074339343 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006220743393534133 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.790622074339343 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006220743393534622 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.791283847800601 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006617734612578729 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:07  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:07  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Solved time: 1.791283847800601 s
10-30-22 21:07  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006617734612579529 s
10-30-22 21:07  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:07  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:07  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:07  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.791919270262573 ...
10-30-22 21:07  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006354224619720323 sec...
10-30-22 21:07  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.791919270262573 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006354224619720128 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7925293921964405 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006101219338674445 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7925293921964405 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006101219338674468 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.793141602589418 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006122103929775433 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.793141602589418 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006122103929775413 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7937294301081375 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005878275187194832 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7937294301081375 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005878275187194415 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7943203936680927 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005909635599553043 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7943203936680927 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005909635599552487 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7948878168625206 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005674231944278353 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7948878168625206 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005674231944279295 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7949999999999895 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00011218313746885755 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7949999999999895 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00011218313746885755 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7952243662749272 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0002243662749377151 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7952243662749272 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0002243662749377151 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7956730988248026 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004487325498754302 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7956730988248026 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004487325498754302 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7961866346572049 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005135358324022576 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7961866346572049 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005135358324022121 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7967039675454473 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005173328882423911 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7967039675454473 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005173328882424055 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7972263444813246 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005223769358773147 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7972263444813246 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005223769358773112 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7977411854749814 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005148409936568396 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7977411854749814 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005148409936568399 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7982630851259278 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005218996509463208 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7982630851259278 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005218996509464002 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7987785470130522 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005154618871242658 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7987785470130522 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005154618871243688 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7992734656134033 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004949186003510895 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7992734656134033 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.000494918600351113 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.799748657775014 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004751921616107053 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.799748657775014 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00047519216161062694 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.7999999999999894 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00025134222497547043 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.7999999999999894 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00025134222497547043 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.80047390735669 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004739073567007198 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.80047390735669 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00047390735670060913 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.800928906521553 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004549991648631199 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.800928906521553 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004549991648630236 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.801365765094936 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00043685857338295324 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.801365765094936 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00043685857338293665 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8017852040451678 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004194389502318633 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 5 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8017852040451678 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004194389502318874 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.802243143627668 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004579395825001473 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.802243143627668 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004579395825001775 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8026828220103552 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000439678382687201 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8026828220103552 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00043967838268721415 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8031049686765586 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00042214666620332035 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8031049686765586 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00042214666620332686 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8035400115013036 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00043504282474500977 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8035400115013036 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00043504282474504663 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.803957704947104 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00041769344580041786 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.803957704947104 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00041769344580044887 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8043739861070498 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004162811599457422 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8043739861070498 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00041628115994574166 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.804773664740875 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003996786338251639 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.804773664740875 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00039967863382517343 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8049999999999893 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00022633525911430752 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8049999999999893 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00022633525911430752 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.805406193437343 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00040619343735373754 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.805406193437343 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00040619343735381896 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8057961750207425 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003899815833993323 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8057961750207425 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00038998158339942357 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8061865767835736 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003904017628310086 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8061865767835736 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00039040176283111627 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8065614052201822 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003748284366085184 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8065614052201822 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00037482843660852083 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.806921280766982 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003598755467999626 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.806921280766982 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00035987554679994815 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8072988929432299 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000377612176247842 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8072988929432299 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003776121762477658 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8076614396943085 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003625467510787158 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8076614396943085 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00036254675107860734 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8080095222375279 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00034808254321947867 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8080095222375279 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003480825432193857 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8083437161886968 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003341939511689571 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8083437161886968 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00033419395116895956 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8086645743705234 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00032085818182669653 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8086645743705234 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.00032085818182658876 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:08  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8090646765531693 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0004001021826459027 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8090646765531693 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004001021826458562 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8094488151019705 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003841385488012405 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8094488151019705 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003841385488012605 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8098176304786135 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003688153766430582 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:08  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Solved time: 1.8098176304786135 s
10-30-22 21:08  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003688153766430169 s
10-30-22 21:08  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:08  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8099999999999892 ...
10-30-22 21:08  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0001823695213756249 sec...
10-30-22 21:08  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:08  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:08  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8099999999999892 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0001823695213756249 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.810346834672657 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00034683467266777355 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.810346834672657 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003468346726678284 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8106798215565973 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003329868839402597 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8106798215565973 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003329868839403449 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.810999520779024 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00031969922242657667 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.810999520779024 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003196992224265838 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.811306461351984 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00030694057296011415 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.811306461351984 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003069405729601016 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8116409394285558 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000334478076571804 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8116409394285558 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.00033447807657172035 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8119620685193059 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000321129090750084 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8119620685193059 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003211290907501052 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8122926382668678 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00033056974756192405 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8122926382668678 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.00033056974756195956 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8126632091810775 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00037057091420970395 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8126632091810775 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003705709142096669 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8130514178416186 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.000388208660541047 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8130514178416186 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003882086605411228 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8134241397317927 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00037272189017401714 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8134241397317927 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003727218901741214 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8137819928302266 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00035785309843393244 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8137819928302266 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003578530984338357 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8141255687460978 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00034357591587127654 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 4 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8141255687460978 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.00034357591587119707 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8145283120622615 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00040274331616365825 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8145283120622615 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.00040274331616374504 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8149149881041344 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00038667604187285373 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8149149881041344 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.00038667604187292426 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.814999999999989 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 8.501189585463642e-05 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 2 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.814999999999989 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 8.501189585463642e-05 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8151700237916983 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00017002379170927284 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8151700237916983 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.00017002379170927284 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8155100713751169 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0003400475834185457 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8155100713751169 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0003400475834185457 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8159566220805499 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00044655070543290836 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8159566220805499 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0004465507054329798 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8165498593187746 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005932372382246282 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8165498593187746 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005932372382246864 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8171194550409082 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005695957221337433 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8171194550409082 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005695957221336645 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8176663624912357 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0005469074503275863 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 18 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8176663624912357 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0005469074503274829 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8185104547466426 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0008440922554068616 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 3 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8185104547466426 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0008440922554069363 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8196684275267097 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001157972780067125 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8196684275267097 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.001157972780067018 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.819999999999989 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00033157247327930683 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.819999999999989 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.00033157247327930683 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8206631449465476 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0006631449465586137 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8206631449465476 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0006631449465586137 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8219894348396648 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0013262898931172273 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8219894348396648 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0013262898931172273 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8246420146258993 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0026525797862344547 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8246420146258993 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0026525797862344547 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8249999999999889 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00035798537408959774 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8249999999999889 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.00035798537408959774 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.825715970748168 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.0007159707481791955 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.825715970748168 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.0007159707481791955 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8271479122445264 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.001431941496358391 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8271479122445264 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.001431941496358391 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8299999999999887 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.002852087755462307 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8299999999999887 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.002852087755462307 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8349999999999886 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8349999999999886 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8399999999999885 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8399999999999885 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8449999999999884 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8449999999999884 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8499999999999883 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8499999999999883 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8549999999999882 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.8549999999999882 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.859999999999988 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.859999999999988 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:09  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.864999999999988 ...
10-30-22 21:09  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:09  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:09  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:09  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Solved time: 1.864999999999988 s
10-30-22 21:09  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:09  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:09  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:09  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:10  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.869999999999988 ...
10-30-22 21:10  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:10  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Solved time: 1.869999999999988 s
10-30-22 21:10  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:10  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:10  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8749999999999878 ...
10-30-22 21:10  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:10  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Solved time: 1.8749999999999878 s
10-30-22 21:10  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:10  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:10  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8799999999999877 ...
10-30-22 21:10  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:10  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Solved time: 1.8799999999999877 s
10-30-22 21:10  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:10  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:10  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8849999999999876 ...
10-30-22 21:10  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:10  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Solved time: 1.8849999999999876 s
10-30-22 21:10  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:10  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:10  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8899999999999875 ...
10-30-22 21:10  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:10  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Solved time: 1.8899999999999875 s
10-30-22 21:10  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:10  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:10  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.8949999999999874 ...
10-30-22 21:10  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.004999999999999893 sec...
10-30-22 21:10  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Solved time: 1.8949999999999874 s
10-30-22 21:10  PyFrac.controller.run                    DEBUG     for a time step of: 0.004999999999999893 s
10-30-22 21:10  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:10  PyFrac.controller.advance_time_step      INFO      Evaluating solution at time = 1.9 ...
10-30-22 21:10  PyFrac.controller.advance_time_step      DEBUG     Attempting time step of 0.00500000000001255 sec...
10-30-22 21:10  PyFrac.attempt_time_step                 DEBUG     Solving ElastoHydrodynamic equations with same footprint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.solve_width_pressure.sol_sys_EHL  DEBUG     Iterating on cells with active width constraint...
10-30-22 21:10  PyFrac.Anderson                          DEBUG     Converged after 1 iterations
10-30-22 21:10  PyFrac.controller.run                    INFO      Time step successful!
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Solved time: 1.9 s
10-30-22 21:10  PyFrac.controller.run                    DEBUG     for a time step of: 0.00500000000001255 s
10-30-22 21:10  PyFrac.controller.run                    INFO      Element in the crack: 2701
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Nx: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     Ny: 75
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hx: 0.013513513513513514
10-30-22 21:10  PyFrac.controller.run                    DEBUG     hy: 0.013513513513513514
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting footprint...
10-30-22 21:10  PyFrac.plot_fracture_list                INFO      Plotting w...
10-30-22 21:10  PyFrac.controller.run                    INFO      Final time = 1.9
10-30-22 21:10  PyFrac.controller.run                    INFO      -----Simulation finished------
10-30-22 21:10  PyFrac.controller.run                    INFO      number of time steps = 1165
10-30-22 21:10  PyFrac.controller.run                    INFO      failed time steps = 0
10-30-22 21:10  PyFrac.controller.run                    INFO      number of remeshings = 0
