
Loading shared library <./libheat_advection_by_melt.so>

Number of active cells: 256 (on 5 levels)
Number of degrees of freedom: 7,369 (2,178+1,057+2,178+289+1,089+289+289)

*** Timestep 0:  t=0 seconds
   Solving temperature system... 0 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 51+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 1.80371e-16, 2.44479e-16, 0, 0.0526341
      Relative nonlinear residual (total system) after nonlinear iteration 1: 0.0526341

   Solving temperature system... 0 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 1.80371e-16, 2.44479e-16, 0, 6.39451e-13
      Relative nonlinear residual (total system) after nonlinear iteration 2: 6.39451e-13


   Postprocessing:
     Temperature min/avg/max:       1 K, 1.5 K, 2 K
     Heating rate (average/total):  0.05 W/kg, 0.1 W
     Writing graphical output:      output-heat_advection_by_melt/solution/solution-00000

*** Timestep 1:  t=0.03125 seconds
   Solving temperature system... 5 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 0.000399056, 2.68927e-16, 0, 6.39428e-13
      Relative nonlinear residual (total system) after nonlinear iteration 1: 0.000399056

   Solving temperature system... 0 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 1.52836e-13, 2.68927e-16, 0, 6.39428e-13
      Relative nonlinear residual (total system) after nonlinear iteration 2: 6.39428e-13


   Postprocessing:
     Temperature min/avg/max:       1 K, 1.5 K, 1.991 K
     Heating rate (average/total):  0.05 W/kg, 0.1 W
     Writing graphical output:      output-heat_advection_by_melt/solution/solution-00001

*** Timestep 2:  t=0.0625 seconds
   Solving temperature system... 8 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 0.000179105, 1.75185e-16, 0, 6.39428e-13
      Relative nonlinear residual (total system) after nonlinear iteration 1: 0.000179105

   Solving temperature system... 0 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 4.13914e-13, 1.75185e-16, 0, 6.39428e-13
      Relative nonlinear residual (total system) after nonlinear iteration 2: 6.39428e-13


   Postprocessing:
     Temperature min/avg/max:       1 K, 1.5 K, 1.987 K
     Heating rate (average/total):  0.05 W/kg, 0.1 W
     Writing graphical output:      output-heat_advection_by_melt/solution/solution-00002

*** Timestep 3:  t=0.09375 seconds
   Solving temperature system... 8 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 0.000100345, 1.75185e-16, 0, 6.39428e-13
      Relative nonlinear residual (total system) after nonlinear iteration 1: 0.000100345

   Solving temperature system... 0 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 1.39953e-13, 1.75185e-16, 0, 6.39428e-13
      Relative nonlinear residual (total system) after nonlinear iteration 2: 6.39428e-13


   Postprocessing:
     Temperature min/avg/max:       1 K, 1.5 K, 1.986 K
     Heating rate (average/total):  0.05 W/kg, 0.1 W
     Writing graphical output:      output-heat_advection_by_melt/solution/solution-00003

*** Timestep 4:  t=0.1 seconds
   Solving temperature system... 7 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 1.70704e-05, 9.98459e-17, 0, 6.39554e-13
      Relative nonlinear residual (total system) after nonlinear iteration 1: 1.70704e-05

   Solving temperature system... 0 iterations.
   Solving porosity system ... 0 iterations.
   Skipping peridotite composition solve because RHS is zero.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 0+0 iterations.
   Solving for u_f in 1 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 3.30005e-13, 9.98459e-17, 0, 6.39554e-13
      Relative nonlinear residual (total system) after nonlinear iteration 2: 6.39554e-13


   Postprocessing:
     Temperature min/avg/max:       1 K, 1.5 K, 1.986 K
     Heating rate (average/total):  0.05 W/kg, 0.1 W
     Writing graphical output:      output-heat_advection_by_melt/solution/solution-00004

Termination requested by criterion: end time


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