
Loading shared library <./libmelt_boundary_heat_flux.debug.so>

Number of active cells: 512 (on 5 levels)
Number of degrees of freedom: 17,673 (4,290+2,097+4,290+561+2,145+2,145+2,145)

*** Timestep 0:  t=0 years, dt=0 years
   Solving temperature system... 0 iterations.
   Solving porosity system ... 0 iterations.
   Solving peridotite system ... 0 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 22+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 1.63669e-16, 1.54902e-16, 1.54902e-16, 0.168632
      Relative nonlinear residual (total system) after nonlinear iteration 1: 0.168632

   Solving temperature system... 0 iterations.
   Solving porosity system ... 0 iterations.
   Solving peridotite system ... 0 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 0+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 1.63669e-16, 1.54902e-16, 1.54902e-16, 5.58899e-08
      Relative nonlinear residual (total system) after nonlinear iteration 2: 5.58899e-08


   Postprocessing:
     Compositions min/max/mass:          1.438e-28/0.2/1.257e+08 // 1.438e-28/0.2/1.257e+08
     Writing graphical output:           output-melt_boundary_heat_flux/solution/solution-00000
     Temperature min/avg/max:            1600 K, 1600 K, 1600 K
     Heat fluxes through boundary parts: 0 W, 0 W, -2e+05 W, 2e+05 W

*** Timestep 1:  t=3443.45 years, dt=3443.45 years
   Solving temperature system... 8 iterations.
   Solving porosity system ... 10 iterations.
   Solving peridotite system ... 9 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 18+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 0.00141713, 0.0308629, 0.00391777, 0.0163796
      Relative nonlinear residual (total system) after nonlinear iteration 1: 0.0308629

   Solving temperature system... 5 iterations.
   Solving porosity system ... 9 iterations.
   Solving peridotite system ... 7 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 13+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 7.37033e-07, 0.00209112, 0.000128711, 0.000678497
      Relative nonlinear residual (total system) after nonlinear iteration 2: 0.00209112

   Solving temperature system... 3 iterations.
   Solving porosity system ... 8 iterations.
   Solving peridotite system ... 6 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 10+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 1.36391e-09, 0.000130762, 5.48326e-06, 2.60101e-05
      Relative nonlinear residual (total system) after nonlinear iteration 3: 0.000130762

   Solving temperature system... 2 iterations.
   Solving porosity system ... 7 iterations.
   Solving peridotite system ... 5 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 6+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 7.73064e-11, 1.22713e-05, 4.86712e-07, 3.63059e-06
      Relative nonlinear residual (total system) after nonlinear iteration 4: 1.22713e-05

   Solving temperature system... 1 iterations.
   Solving porosity system ... 6 iterations.
   Solving peridotite system ... 4 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 3+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 7.10243e-12, 9.10844e-07, 2.62983e-08, 2.35847e-07
      Relative nonlinear residual (total system) after nonlinear iteration 5: 9.10844e-07


   Postprocessing:
     Compositions min/max/mass:          -1.979e-06/0.1989/1.257e+08 // -5.063e-10/0.199/1.256e+08
     Writing graphical output:           output-melt_boundary_heat_flux/solution/solution-00001
     Temperature min/avg/max:            1563 K, 1600 K, 1637 K
     Heat fluxes through boundary parts: 0 W, 0 W, -2e+05 W, 2e+05 W

*** Timestep 2:  t=5000 years, dt=1556.55 years
   Solving temperature system... 7 iterations.
   Solving porosity system ... 9 iterations.
   Solving peridotite system ... 9 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 13+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 2.96053e-05, 0.000855117, 0.0010344, 0.00127379
      Relative nonlinear residual (total system) after nonlinear iteration 1: 0.00127379

   Solving temperature system... 3 iterations.
   Solving porosity system ... 7 iterations.
   Solving peridotite system ... 6 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 6+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 3.38391e-09, 2.28568e-05, 1.17575e-06, 1.00623e-05
      Relative nonlinear residual (total system) after nonlinear iteration 2: 2.28568e-05

   Solving temperature system... 1 iterations.
   Solving porosity system ... 6 iterations.
   Solving peridotite system ... 4 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system (AMG)... 4+0 iterations.
   Solving fluid velocity system... 12 iterations.
      Relative nonlinear residuals (temperature, compositional fields, Stokes system): 6.56765e-12, 6.14835e-07, 3.74647e-08, 2.6496e-07
      Relative nonlinear residual (total system) after nonlinear iteration 3: 6.14835e-07


   Postprocessing:
     Compositions min/max/mass:          -3.228e-06/0.1986/1.257e+08 // -7.95e-10/0.1989/1.256e+08
     Writing graphical output:           output-melt_boundary_heat_flux/solution/solution-00002
     Temperature min/avg/max:            1548 K, 1600 K, 1652 K
     Heat fluxes through boundary parts: 0 W, 0 W, -2e+05 W, 2e+05 W

Termination requested by criterion: end time



