
Number of active cells: 1,024 (on 6 levels)
Number of degrees of freedom: 32,196 (8,450+1,089+4,225+9,216+9,216)

*** Timestep 0:  t=0 seconds
   Solving temperature system... 0 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 67+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.355 m/s, 0.786 m/s
     Compositions min/max/mass:    0/1/0.4 // 0/1/0.3994
     Temperature min/avg/max:      0 K, 0.5 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00000

*** Timestep 1:  t=0.0198883 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 20+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.355 m/s, 0.786 m/s
     Compositions min/max/mass:    0/1/0.4 // 0/1/0.3994
     Temperature min/avg/max:      0 K, 0.5001 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00001

*** Timestep 2:  t=0.0397766 seconds
   Solving temperature system... 12 iterations.
   Solving Stokes system... 62+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.34 m/s, 0.749 m/s
     Compositions min/max/mass:    0/1/0.3997 // 0/1/0.3996
     Temperature min/avg/max:      0 K, 0.5001 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00002

*** Timestep 3:  t=0.0606247 seconds
   Solving temperature system... 12 iterations.
   Solving Stokes system... 60+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.326 m/s, 0.719 m/s
     Compositions min/max/mass:    0/1/0.3995 // 0/1/0.3991
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00003

*** Timestep 4:  t=0.0823503 seconds
   Solving temperature system... 12 iterations.
   Solving Stokes system... 60+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.315 m/s, 0.695 m/s
     Compositions min/max/mass:    0/1/0.4008 // 0/1/0.3996
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00004

*** Timestep 5:  t=0.104827 seconds
   Solving temperature system... 12 iterations.
   Solving Stokes system... 61+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.301 m/s, 0.667 m/s
     Compositions min/max/mass:    0/1/0.4003 // 0/1/0.3998
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00005

*** Timestep 6:  t=0.128243 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 60+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.291 m/s, 0.647 m/s
     Compositions min/max/mass:    0/1/0.4006 // 0/1/0.4
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00006

*** Timestep 7:  t=0.152407 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 60+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.279 m/s, 0.623 m/s
     Compositions min/max/mass:    0/1/0.4006 // 0/1/0.3987
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00007

*** Timestep 8:  t=0.177491 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 61+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.269 m/s, 0.606 m/s
     Compositions min/max/mass:    0/1/0.4007 // 0/1/0.3996
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00008

*** Timestep 9:  t=0.203289 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 60+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.259 m/s, 0.585 m/s
     Compositions min/max/mass:    0/1/0.4009 // 0/1/0.3989
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00009

*** Timestep 10:  t=0.230005 seconds
   Solving temperature system... 12 iterations.
   Solving Stokes system... 61+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.248 m/s, 0.563 m/s
     Compositions min/max/mass:    0/1/0.4004 // 0/1/0.3988
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00010

*** Timestep 11:  t=0.257777 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 60+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.237 m/s, 0.541 m/s
     Compositions min/max/mass:    0/1/0.4013 // 0/1/0.3987
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00011

*** Timestep 12:  t=0.286646 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 61+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.228 m/s, 0.523 m/s
     Compositions min/max/mass:    0/1/0.4009 // 0/1/0.3986
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00012

*** Timestep 13:  t=0.316533 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 61+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.218 m/s, 0.502 m/s
     Compositions min/max/mass:    0/1/0.4006 // 0/1/0.3987
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00013

*** Timestep 14:  t=0.347655 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 62+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.21 m/s, 0.485 m/s
     Compositions min/max/mass:    0/1/0.4007 // 0/1/0.3989
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00014

*** Timestep 15:  t=0.379876 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 61+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.203 m/s, 0.47 m/s
     Compositions min/max/mass:    0/1/0.4004 // 0/1/0.399
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00015

*** Timestep 16:  t=0.413083 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 61+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.196 m/s, 0.456 m/s
     Compositions min/max/mass:    0/1/0.401 // 0/1/0.3992
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00016

*** Timestep 17:  t=0.447314 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 61+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.187 m/s, 0.436 m/s
     Compositions min/max/mass:    0/1/0.4011 // 0/1/0.3993
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00017

*** Timestep 18:  t=0.483185 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.179 m/s, 0.419 m/s
     Compositions min/max/mass:    0/1/0.4016 // 0/1/0.3995
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00018

*** Timestep 19:  t=0.520441 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 62+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.17 m/s, 0.4 m/s
     Compositions min/max/mass:    0/1/0.4013 // 0/1/0.4001
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00019

*** Timestep 20:  t=0.559459 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 62+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.162 m/s, 0.383 m/s
     Compositions min/max/mass:    0/1/0.4008 // 0/1/0.4001
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00020

*** Timestep 21:  t=0.600223 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.154 m/s, 0.369 m/s
     Compositions min/max/mass:    0/1/0.3997 // 0/1/0.3992
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00021

*** Timestep 22:  t=0.642504 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.147 m/s, 0.354 m/s
     Compositions min/max/mass:    0/1/0.4 // 0/1/0.3991
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00022

*** Timestep 23:  t=0.686689 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.141 m/s, 0.334 m/s
     Compositions min/max/mass:    0/1/0.3996 // 0/1/0.3995
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00023

*** Timestep 24:  t=0.733399 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.133 m/s, 0.316 m/s
     Compositions min/max/mass:    0/1/0.3986 // 0/1/0.3995
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00024

*** Timestep 25:  t=0.782925 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.125 m/s, 0.296 m/s
     Compositions min/max/mass:    0/1/0.3998 // 0/1/0.3992
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00025

*** Timestep 26:  t=0.835704 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.118 m/s, 0.277 m/s
     Compositions min/max/mass:    0/1/0.3999 // 0/1/0.3995
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00026

*** Timestep 27:  t=0.892156 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.11 m/s, 0.258 m/s
     Compositions min/max/mass:    0/1/0.401 // 0/1/0.3998
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00027

*** Timestep 28:  t=0.952771 seconds
   Solving temperature system... 11 iterations.
   Solving Stokes system... 63+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.102 m/s, 0.236 m/s
     Compositions min/max/mass:    0/1/0.4004 // 0/1/0.399
     Temperature min/avg/max:      0 K, 0.5002 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00028

*** Timestep 29:  t=1 seconds
   Solving temperature system... 10 iterations.
   Solving Stokes system... 62+0 iterations.

   Postprocessing:
     Number of advected particles: 20000
     RMS, max velocity:            0.094 m/s, 0.219 m/s
     Compositions min/max/mass:    0/1/0.3994 // 0/1/0.3986
     Temperature min/avg/max:      0 K, 0.5001 K, 1 K
     Writing graphical output:     output-particle_interpolator_time_dependence/solution/solution-00029

Termination requested by criterion: end time


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