Initializing AMReX (26.04-116-g6f2c4aff90ae)... MPI initialized with 2 MPI processes MPI initialized with thread support level 0 OMP initialized with 2 OMP threads AMReX (26.04-116-g6f2c4aff90ae) initialized Successfully read inputs file ... Using conservative advection update for tracer. Successfully read inputs file ... NavierStokesBase::init_additional_state_types()::have_divu = 0 NavierStokesBase::init_additional_state_types()::have_dsdt = 0 NavierStokesBase::init_additional_state_types: num_state_type = 3 estTimeStep :: LEV = 0 UMAX = 0 0 0 estimated timestep: dt = 2.862199766e-05 Multiplying dt by init_shrink: dt = 2.862199766e-05 grid_places() time: 0.009877577 new finest: 0 Now regridding at level lbase = 0 grid_places() time: 0.00948007 new finest: 0 STEP = 0 TIME = 0 : REGRID with lbase = 0 calling initialVelocityProject done calling initialVelocityProject calling initialPressureProject done calling initialPressureProject estTimeStep :: LEV = 0 UMAX = 0 0 0 estimated timestep: dt = 0.0001148104415 Multiplying dt by init_shrink: dt = 0.0001148104415 post_init_press(): doing initial pressure iterations with dt = 0.0001148104415 post_init_press(): iter = 0 Advancing grids at level 0 : starting time = 0 with dt = 0.0001148104415 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 0 0 0 max(abs(gpx/gpy/gpz/p)) = 4.432428308e+14 4.430475568e+14 1.547449092e+16 4.207323465e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.15251955 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes::advance(): exiting. max(abs(u/v/w)) = 3522.495341 3521.502236 11741.66615 max(abs(gpx/gpy/gpz/p)) = 4.432428308e+14 4.430475568e+14 1.547449092e+16 4.207323465e+17 After sync projection and avgDown: max(abs(u/v/w)) = 3947.567142 3948.639418 7932.511603 max(abs(gpx/gpy/gpz/p)) = 4.961645901e+14 4.961228974e+14 1.553828357e+16 4.206947167e+17 post_init_press(): iter = 1 Advancing grids at level 0 : starting time = 0 with dt = 0.0001148104415 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 0 0 0 max(abs(gpx/gpy/gpz/p)) = 4.961645901e+14 4.961228974e+14 1.553828357e+16 4.206947167e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.149406059 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 2.25e-07 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 3949.377307 3950.687631 8285.539183 max(abs(gpx/gpy/gpz/p)) = 4.961645901e+14 4.961228974e+14 1.553828357e+16 4.206947167e+17 After sync projection and avgDown: max(abs(u/v/w)) = 3958.363957 3960.854043 7926.319285 max(abs(gpx/gpy/gpz/p)) = 4.974796463e+14 4.973426803e+14 1.55436911e+16 4.206986336e+17 post_init_press(): iter = 2 Advancing grids at level 0 : starting time = 0 with dt = 0.0001148104415 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 0 0 0 max(abs(gpx/gpy/gpz/p)) = 4.974796463e+14 4.973426803e+14 1.55436911e+16 4.206986336e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.148844234 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 3.97e-07 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 3959.307346 3961.60757 7911.751977 max(abs(gpx/gpy/gpz/p)) = 4.974796463e+14 4.973426803e+14 1.55436911e+16 4.206986336e+17 After sync projection and avgDown: max(abs(u/v/w)) = 3959.769577 3960.485306 7915.679558 max(abs(gpx/gpy/gpz/p)) = 4.974624397e+14 4.972929351e+14 1.554011716e+16 4.206988076e+17 post_init_press(): exiting after 3 iterations After initial iterations: max(abs(u/v/w)) = 0 0 0 max(abs(gpx/gpy/gpz/p)) = 4.974624397e+14 4.972929351e+14 1.554011716e+16 4.206988076e+17 INITIAL GRIDS Level 0 8 grids 262144 cells 100 % of domain smallest grid: 32 x 32 x 32 biggest grid: 32 x 32 x 32 PLOTFILE: file = RayleighTaylor_plt00000 Write plotfile time = 0.014116364 seconds estTimeStep :: LEV = 0 UMAX = 0 0 0 estimated timestep: dt = 0.0001233511532 Multiplying dt by init_shrink: dt = 0.0001233511532 [Level 0 step 1] ADVANCE at time 0 with dt = 0.0001233511532 Advancing grids at level 0 : starting time = 0 with dt = 0.0001233511532 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 0 0 0 max(abs(gpx/gpy/gpz/p)) = 4.974624397e+14 4.972929351e+14 1.554011716e+16 4.206988076e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.148876738 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 3.089999998e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 4252.915175 4254.092527 9291.379353 max(abs(gpx/gpy/gpz/p)) = 4.974624397e+14 4.972929351e+14 1.554011716e+16 4.206988076e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 4310.326519 4312.20787 8751.215875 max(abs(gpx/gpy/gpz/p)) = 5.038782733e+14 5.037734282e+14 1.554678281e+16 4.20627317e+17 [Level 0 step 1] Advanced 262144 cells [STEP 1] Coarse TimeStep time: 0.722088341 [STEP 1] FAB kilobyte spread across MPI nodes: [89403 ... 89403] STEP = 1 TIME = 0.0001233511532 DT = 0.0001233511532 estTimeStep :: LEV = 0 UMAX = 4310.326519 4312.20787 8751.215875 estimated timestep: dt = 6.686570853e-05 [Level 0 step 2] ADVANCE at time 0.0001233511532 with dt = 6.686570853e-05 Advancing grids at level 0 : starting time = 0.0001233511532 with dt = 6.686570853e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 4310.326519 4312.20787 8751.215875 max(abs(gpx/gpy/gpz/p)) = 5.038782733e+14 5.037734282e+14 1.554678281e+16 4.20627317e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.148229014 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 2.959999996e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 6645.719039 6645.4504 21926.17949 max(abs(gpx/gpy/gpz/p)) = 5.038782733e+14 5.037734282e+14 1.554678281e+16 4.20627317e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 7299.963156 7309.081734 14705.30362 max(abs(gpx/gpy/gpz/p)) = 6.692920833e+14 6.691130478e+14 1.574527856e+16 4.202007219e+17 [Level 0 step 2] Advanced 262144 cells [STEP 2] Coarse TimeStep time: 0.748228831 [STEP 2] FAB kilobyte spread across MPI nodes: [89403 ... 89403] STEP = 2 TIME = 0.0001902168618 DT = 6.686570853e-05 estTimeStep :: LEV = 0 UMAX = 7299.963156 7309.081734 14705.30362 estimated timestep: dt = 3.979219098e-05 Now regridding at level lbase = 0 grid_places() time: 0.006369061 new finest: 1 STEP = 2 TIME = 0.0001902168618 : REGRID with lbase = 0 Level 1 16 grids 524288 cells 25 % of domain smallest grid: 32 x 32 x 32 biggest grid: 32 x 32 x 32 [Level 0 step 3] ADVANCE at time 0.0001902168618 with dt = 3.979219098e-05 Advancing grids at level 0 : starting time = 0.0001902168618 with dt = 3.979219098e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 7299.963156 7309.081734 14705.30362 max(abs(gpx/gpy/gpz/p)) = 6.692920833e+14 6.691130478e+14 1.574527856e+16 4.202007219e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.156077895 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 2.79e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 9093.387198 9090.305686 23458.6314 max(abs(gpx/gpy/gpz/p)) = 6.692920833e+14 6.691130478e+14 1.574527856e+16 4.202007219e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 9483.893286 9478.649376 19042.91406 max(abs(gpx/gpy/gpz/p)) = 8.51548749e+14 8.509846721e+14 1.594653963e+16 4.196414343e+17 [Level 0 step 3] Advanced 262144 cells [Level 1 step 5] ADVANCE at time 0.0001902168618 with dt = 1.989609549e-05 Advancing grids at level 1 : starting time = 0.0001902168618 with dt = 1.989609549e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 7299.963156 7309.081734 14705.30362 max(abs(gpx/gpy/gpz/p)) = 6.692920833e+14 6.691130478e+14 1.574527856e+16 1.21852426e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.330041928 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 3.039999994e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 8209.747629 8218.746813 18630.10635 max(abs(gpx/gpy/gpz/p)) = 6.692920833e+14 6.691130478e+14 1.574527856e+16 1.21852426e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 8393.776671 8398.176944 16761.3075 max(abs(gpx/gpy/gpz/p)) = 8.395680332e+14 8.404587321e+14 1.580555613e+16 1.219599165e+17 [Level 1 step 5] Advanced 524288 cells [Level 1 step 6] ADVANCE at time 0.0002101129572 with dt = 1.989609549e-05 Advancing grids at level 1 : starting time = 0.0002101129572 with dt = 1.989609549e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 8393.776671 8398.176944 16761.3075 max(abs(gpx/gpy/gpz/p)) = 8.395680332e+14 8.404587321e+14 1.580555613e+16 1.219599165e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.313541625 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 5.650000006e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 9485.511067 9488.654423 20042.50367 max(abs(gpx/gpy/gpz/p)) = 8.395680332e+14 8.404587321e+14 1.580555613e+16 1.219599165e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 9550.269948 9553.964404 19161.48535 max(abs(gpx/gpy/gpz/p)) = 9.046754985e+14 9.046947341e+14 1.607706705e+16 1.219599165e+17 [Level 1 step 6] Advanced 524288 cells mac_sync() on level 0 [STEP 3] Coarse TimeStep time: 5.036811139 [STEP 3] FAB kilobyte spread across MPI nodes: [235996 ... 235996] STEP = 3 TIME = 0.0002300090527 DT = 3.979219098e-05 estTimeStep :: LEV = 0 UMAX = 9504.324289 9510.014361 19022.61412 estimated timestep: dt = 3.076108501e-05 estTimeStep :: LEV = 1 UMAX = 9549.29429 9552.94284 19172.67539 estimated timestep: dt = 1.526016161e-05 Now regridding at level lbase = 1 grid_places() time: 0.018806246 new finest: 2 TIME = 0.0002300090527 : REGRID with lbase = 1 Level 2 153 grids 2480128 cells 14.78271484 % of domain smallest grid: 8 x 8 x 8 biggest grid: 32 x 32 x 32 [Level 0 step 4] ADVANCE at time 0.0002300090527 with dt = 3.052032323e-05 Advancing grids at level 0 : starting time = 0.0002300090527 with dt = 3.052032323e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 9504.324289 9510.014361 19022.61412 max(abs(gpx/gpy/gpz/p)) = 8.911417233e+14 8.906849337e+14 1.607125693e+16 4.196506583e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.149861927 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 5.66999999e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 11352.51291 11344.65381 25656.30403 max(abs(gpx/gpy/gpz/p)) = 8.911417233e+14 8.906849337e+14 1.607125693e+16 4.196506583e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 11568.63041 11560.18074 22917.57625 max(abs(gpx/gpy/gpz/p)) = 1.034776596e+15 1.035959622e+15 1.615400643e+16 4.190449706e+17 [Level 0 step 4] Advanced 262144 cells [Level 1 step 7] ADVANCE at time 0.0002300090527 with dt = 1.526016161e-05 Advancing grids at level 1 : starting time = 0.0002300090527 with dt = 1.526016161e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 9549.29429 9552.94284 19172.67539 max(abs(gpx/gpy/gpz/p)) = 9.041605318e+14 9.042009178e+14 1.608525988e+16 1.219837377e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.333175483 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 2.990000016e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 10447.60543 10446.57039 21917.725 max(abs(gpx/gpy/gpz/p)) = 9.041605318e+14 9.042009178e+14 1.608525988e+16 1.219837377e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 10555.60268 10554.914 20986.88999 max(abs(gpx/gpy/gpz/p)) = 1.023052154e+15 1.023397456e+15 1.597990714e+16 1.219796296e+17 [Level 1 step 7] Advanced 524288 cells [Level 2 step 13] ADVANCE at time 0.0002300090527 with dt = 7.630080807e-06 Advancing grids at level 2 : starting time = 0.0002300090527 with dt = 7.630080807e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 9549.29429 9552.94284 19172.67539 max(abs(gpx/gpy/gpz/p)) = 9.041605318e+14 9.042009178e+14 1.593506413e+16 9.587508778e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.003453031 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 7.17999999e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 9992.268884 9995.909872 20413.98593 max(abs(gpx/gpy/gpz/p)) = 9.041605318e+14 9.042009178e+14 1.593506413e+16 9.587508778e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 10040.35752 10054.13816 20052.89935 max(abs(gpx/gpy/gpz/p)) = 1.021696278e+15 1.021582985e+15 1.562851987e+16 9.574860439e+16 [Level 2 step 13] Advanced 2480128 cells [Level 2 step 14] ADVANCE at time 0.0002376391335 with dt = 7.630080807e-06 Advancing grids at level 2 : starting time = 0.0002376391335 with dt = 7.630080807e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 10040.35752 10054.13816 20052.89935 max(abs(gpx/gpy/gpz/p)) = 1.021696278e+15 1.021582985e+15 1.562851987e+16 9.574860439e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 1.935880326 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 2.760000015e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 10556.1697 10556.43938 21128.2673 max(abs(gpx/gpy/gpz/p)) = 1.021696278e+15 1.021582985e+15 1.562851987e+16 9.574860439e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 10557.32065 10553.10548 21021.28861 max(abs(gpx/gpy/gpz/p)) = 1.036690148e+15 1.036014741e+15 1.578665443e+16 9.574860439e+16 [Level 2 step 14] Advanced 2480128 cells mac_sync() on level 1 [Level 1 step 8] ADVANCE at time 0.0002452692144 with dt = 1.526016161e-05 Advancing grids at level 1 : starting time = 0.0002452692144 with dt = 1.526016161e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 10551.40053 10550.24817 20990.49675 max(abs(gpx/gpy/gpz/p)) = 1.035570321e+15 1.034288472e+15 1.597076038e+16 1.219796296e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.314652819 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 2.929999994e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 11608.32036 11604.46713 23578.13427 max(abs(gpx/gpy/gpz/p)) = 1.035570321e+15 1.034288472e+15 1.597076038e+16 1.219796296e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 11645.97968 11645.75506 22999.86308 max(abs(gpx/gpy/gpz/p)) = 1.077491356e+15 1.077071584e+15 1.631479685e+16 1.219796296e+17 [Level 1 step 8] Advanced 524288 cells [Level 2 step 15] ADVANCE at time 0.0002452692144 with dt = 7.630080807e-06 Advancing grids at level 2 : starting time = 0.0002452692144 with dt = 7.630080807e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 10557.31728 10553.28572 21020.76616 max(abs(gpx/gpy/gpz/p)) = 1.037235681e+15 1.036442074e+15 1.578405585e+16 9.576013142e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 1.958959273 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 3.18000005e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 11085.9282 11079.68845 22171.99662 max(abs(gpx/gpy/gpz/p)) = 1.037235681e+15 1.036442074e+15 1.578405585e+16 9.576013142e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 11104.70812 11098.82047 22002.08376 max(abs(gpx/gpy/gpz/p)) = 1.079290996e+15 1.077857475e+15 1.57097876e+16 9.58548578e+16 [Level 2 step 15] Advanced 2480128 cells [Level 2 step 16] ADVANCE at time 0.0002528992952 with dt = 7.630080807e-06 Advancing grids at level 2 : starting time = 0.0002528992952 with dt = 7.630080807e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 11104.70812 11098.82047 22002.08376 max(abs(gpx/gpy/gpz/p)) = 1.079290996e+15 1.077857475e+15 1.57097876e+16 9.58548578e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 1.928038936 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 4.429999976e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 11655.48786 11646.18901 23184.69027 max(abs(gpx/gpy/gpz/p)) = 1.079290996e+15 1.077857475e+15 1.57097876e+16 9.58548578e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 11656.57509 11650.73839 23088.27071 max(abs(gpx/gpy/gpz/p)) = 1.089395815e+15 1.087643906e+15 1.580693663e+16 9.58548578e+16 [Level 2 step 16] Advanced 2480128 cells mac_sync() on level 1 mac_sync() on level 0 [STEP 4] Coarse TimeStep time: 54.64412825 [STEP 4] FAB kilobyte spread across MPI nodes: [1037428 ... 1055254] STEP = 4 TIME = 0.000260529376 DT = 3.052032323e-05 estTimeStep :: LEV = 0 UMAX = 11587.43073 11577.10629 22944.03507 estimated timestep: dt = 2.5503633e-05 estTimeStep :: LEV = 1 UMAX = 11640.26458 11639.98853 23010.13414 estimated timestep: dt = 1.271518555e-05 estTimeStep :: LEV = 2 UMAX = 11657.88463 11652.01455 23091.22449 estimated timestep: dt = 6.335266566e-06 Now regridding at level lbase = 0 grid_places() time: 0.025477031 new finest: 2 STEP = 4 TIME = 0.000260529376 : REGRID with lbase = 0 Level 1 32 grids 655360 cells 31.25 % of domain smallest grid: 32 x 32 x 16 biggest grid: 32 x 32 x 24 Level 2 167 grids 2936320 cells 17.50183105 % of domain smallest grid: 16 x 16 x 8 biggest grid: 32 x 32 x 32 [Level 0 step 5] ADVANCE at time 0.000260529376 with dt = 2.534106627e-05 Advancing grids at level 0 : starting time = 0.000260529376 with dt = 2.534106627e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 11587.43073 11577.10629 22944.03507 max(abs(gpx/gpy/gpz/p)) = 1.078364759e+15 1.077293412e+15 1.629674042e+16 4.190485073e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.137660435 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 2.419999987e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 13368.01472 13355.68477 28618.28211 max(abs(gpx/gpy/gpz/p)) = 1.078364759e+15 1.077293412e+15 1.629674042e+16 4.190485073e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 13487.3508 13483.19555 26212.4961 max(abs(gpx/gpy/gpz/p)) = 1.201203498e+15 1.20153317e+15 1.631142446e+16 4.183892364e+17 [Level 0 step 5] Advanced 262144 cells [Level 1 step 9] ADVANCE at time 0.000260529376 with dt = 1.267053313e-05 Advancing grids at level 1 : starting time = 0.000260529376 with dt = 1.267053313e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 11640.26458 11639.98853 23010.13414 max(abs(gpx/gpy/gpz/p)) = 1.085858819e+15 1.084139033e+15 1.63148812e+16 1.219992684e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.434001882 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 2.129999928e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 12556.59688 12552.58469 25346.32267 max(abs(gpx/gpy/gpz/p)) = 1.085858819e+15 1.084139033e+15 1.63148812e+16 1.219992684e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 12626.96221 12626.64466 24715.44707 max(abs(gpx/gpy/gpz/p)) = 1.202637345e+15 1.202608142e+15 1.614533152e+16 1.219402435e+17 [Level 1 step 9] Advanced 655360 cells [Level 2 step 17] ADVANCE at time 0.000260529376 with dt = 6.335266566e-06 Advancing grids at level 2 : starting time = 0.000260529376 with dt = 6.335266566e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 11657.88463 11652.01455 23091.22449 max(abs(gpx/gpy/gpz/p)) = 1.089585795e+15 1.087712564e+15 1.581049521e+16 9.630137404e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.412175124 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 3.279999987e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 12119.18037 12112.23085 24172.45861 max(abs(gpx/gpy/gpz/p)) = 1.089585795e+15 1.087712564e+15 1.581049521e+16 9.630137404e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 12156.13439 12150.06993 23910.33026 max(abs(gpx/gpy/gpz/p)) = 1.204602172e+15 1.203707e+15 1.541157843e+16 9.618526501e+16 [Level 2 step 17] Advanced 2936320 cells [Level 2 step 18] ADVANCE at time 0.0002668646425 with dt = 6.335266566e-06 Advancing grids at level 2 : starting time = 0.0002668646425 with dt = 6.335266566e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 12156.13439 12150.06993 23910.33026 max(abs(gpx/gpy/gpz/p)) = 1.204602172e+15 1.203707e+15 1.541157843e+16 9.618526501e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.344780778 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 3.210000017e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 12658.77906 12649.39131 24860.85959 max(abs(gpx/gpy/gpz/p)) = 1.204602172e+15 1.203707e+15 1.541157843e+16 9.618526501e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 12657.33673 12651.61968 24790.07929 max(abs(gpx/gpy/gpz/p)) = 1.210096612e+15 1.210383659e+15 1.546874003e+16 9.618526501e+16 [Level 2 step 18] Advanced 2936320 cells mac_sync() on level 1 [Level 1 step 10] ADVANCE at time 0.0002731999091 with dt = 1.267053313e-05 Advancing grids at level 1 : starting time = 0.0002731999091 with dt = 1.267053313e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 12621.90553 12621.07966 24727.43678 max(abs(gpx/gpy/gpz/p)) = 1.208968327e+15 1.209504251e+15 1.613561417e+16 1.219402435e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.429361186 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 6.31000006e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 13614.76897 13608.20019 26978.04863 max(abs(gpx/gpy/gpz/p)) = 1.208968327e+15 1.209504251e+15 1.613561417e+16 1.219402435e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 13631.45055 13624.66115 26573.74928 max(abs(gpx/gpy/gpz/p)) = 1.241815761e+15 1.242251259e+15 1.65012021e+16 1.219402435e+17 [Level 1 step 10] Advanced 655360 cells [Level 2 step 19] ADVANCE at time 0.0002731999091 with dt = 6.335266566e-06 Advancing grids at level 2 : starting time = 0.0002731999091 with dt = 6.335266566e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 12656.98682 12652.31066 24784.36692 max(abs(gpx/gpy/gpz/p)) = 1.211498494e+15 1.211744911e+15 1.546682356e+16 9.619768505e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.331833597 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 3.839999891e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 13159.29404 13154.05824 25805.09887 max(abs(gpx/gpy/gpz/p)) = 1.211498494e+15 1.211744911e+15 1.546682356e+16 9.619768505e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 13169.33411 13162.6917 25675.99812 max(abs(gpx/gpy/gpz/p)) = 1.247529303e+15 1.246451049e+15 1.535721117e+16 9.629754934e+16 [Level 2 step 19] Advanced 2936320 cells [Level 2 step 20] ADVANCE at time 0.0002795351757 with dt = 6.335266566e-06 Advancing grids at level 2 : starting time = 0.0002795351757 with dt = 6.335266566e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 13169.33411 13162.6917 25675.99812 max(abs(gpx/gpy/gpz/p)) = 1.247529303e+15 1.246451049e+15 1.535721117e+16 9.629754934e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.344162821 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 3.239999984e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 13682.04278 13672.68612 26738.89072 max(abs(gpx/gpy/gpz/p)) = 1.247529303e+15 1.246451049e+15 1.535721117e+16 9.629754934e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 13678.21987 13672.99743 26665.55353 max(abs(gpx/gpy/gpz/p)) = 1.249255506e+15 1.249601362e+15 1.538623485e+16 9.629754934e+16 [Level 2 step 20] Advanced 2936320 cells mac_sync() on level 1 mac_sync() on level 0 [STEP 5] Coarse TimeStep time: 65.33049171 [STEP 5] FAB kilobyte spread across MPI nodes: [1220772 ... 1257559] STEP = 5 TIME = 0.0002858704422 DT = 2.534106627e-05 estTimeStep :: LEV = 0 UMAX = 13491.01152 13490.75025 26272.96846 estimated timestep: dt = 2.227217876e-05 estTimeStep :: LEV = 1 UMAX = 13627.15309 13619.19503 26583.47207 estimated timestep: dt = 1.100601623e-05 estTimeStep :: LEV = 2 UMAX = 13681.12865 13675.96821 26664.60616 estimated timestep: dt = 5.486263763e-06 Now regridding at level lbase = 1 grid_places() time: 0.024649905 new finest: 2 TIME = 0.0002858704422 : REGRID with lbase = 1 Level 2 194 grids 2904576 cells 17.31262207 % of domain smallest grid: 8 x 8 x 8 biggest grid: 32 x 32 x 32 [Level 0 step 6] ADVANCE at time 0.0002858704422 with dt = 2.194505505e-05 Advancing grids at level 0 : starting time = 0.0002858704422 with dt = 2.194505505e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 13491.01152 13490.75025 26272.96846 max(abs(gpx/gpy/gpz/p)) = 1.226030182e+15 1.225565218e+15 1.6439367e+16 4.183855058e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.137267689 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 2.660000007e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 15184.33902 15186.18214 31208.38293 max(abs(gpx/gpy/gpz/p)) = 1.226030182e+15 1.225565218e+15 1.6439367e+16 4.183855058e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 15332.1777 15328.34333 29648.41443 max(abs(gpx/gpy/gpz/p)) = 1.370539661e+15 1.372278571e+15 1.643424319e+16 4.176763275e+17 [Level 0 step 6] Advanced 262144 cells [Level 1 step 11] ADVANCE at time 0.0002858704422 with dt = 1.097252753e-05 Advancing grids at level 1 : starting time = 0.0002858704422 with dt = 1.097252753e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 13627.15309 13619.19503 26583.47207 max(abs(gpx/gpy/gpz/p)) = 1.245872229e+15 1.24596357e+15 1.650468692e+16 1.219588832e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.435783182 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 2.179999967e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 14496.73749 14494.32712 28672.91879 max(abs(gpx/gpy/gpz/p)) = 1.245872229e+15 1.24596357e+15 1.650468692e+16 1.219588832e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 14549.441 14542.62003 28085.84564 max(abs(gpx/gpy/gpz/p)) = 1.374440073e+15 1.375195386e+15 1.624806598e+16 1.218517431e+17 [Level 1 step 11] Advanced 655360 cells [Level 2 step 21] ADVANCE at time 0.0002858704422 with dt = 5.486263763e-06 Advancing grids at level 2 : starting time = 0.0002858704422 with dt = 5.486263763e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 13681.12865 13675.96821 26664.60616 max(abs(gpx/gpy/gpz/p)) = 1.250587283e+15 1.251062727e+15 1.538240699e+16 9.724951902e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.44106766 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 4.819999901e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 14119.74389 14117.96158 27644.62813 max(abs(gpx/gpy/gpz/p)) = 1.250587283e+15 1.251062727e+15 1.538240699e+16 9.724951902e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 14148.94849 14145.40704 27411.02101 max(abs(gpx/gpy/gpz/p)) = 1.383111601e+15 1.38319128e+15 1.508676433e+16 9.715995324e+16 [Level 2 step 21] Advanced 2904576 cells [Level 2 step 22] ADVANCE at time 0.000291356706 with dt = 5.486263763e-06 Advancing grids at level 2 : starting time = 0.000291356706 with dt = 5.486263763e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 14148.94849 14145.40704 27411.02101 max(abs(gpx/gpy/gpz/p)) = 1.383111601e+15 1.38319128e+15 1.508676433e+16 9.715995324e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.402556781 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 2.58e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 14620.87254 14609.95287 28265.4749 max(abs(gpx/gpy/gpz/p)) = 1.383111601e+15 1.38319128e+15 1.508676433e+16 9.715995324e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 14616.20272 14609.59711 28205.46436 max(abs(gpx/gpy/gpz/p)) = 1.383836161e+15 1.384104186e+15 1.511278444e+16 9.715995324e+16 [Level 2 step 22] Advanced 2904576 cells mac_sync() on level 1 [Level 1 step 12] ADVANCE at time 0.0002968429698 with dt = 1.097252753e-05 Advancing grids at level 1 : starting time = 0.0002968429698 with dt = 1.097252753e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 14544.22169 14538.83617 28094.32203 max(abs(gpx/gpy/gpz/p)) = 1.379299469e+15 1.379816494e+15 1.623659427e+16 1.218517431e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.40002587 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 2.239999901e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 15527.58258 15519.06008 30170.10831 max(abs(gpx/gpy/gpz/p)) = 1.379299469e+15 1.379816494e+15 1.623659427e+16 1.218517431e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 15531.01544 15524.91848 29856.53328 max(abs(gpx/gpy/gpz/p)) = 1.405164386e+15 1.405628725e+15 1.657376495e+16 1.218517431e+17 [Level 1 step 12] Advanced 655360 cells [Level 2 step 23] ADVANCE at time 0.0002968429698 with dt = 5.486263763e-06 Advancing grids at level 2 : starting time = 0.0002968429698 with dt = 5.486263763e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 14617.1556 14610.44771 28202.60033 max(abs(gpx/gpy/gpz/p)) = 1.384908447e+15 1.385042765e+15 1.511066642e+16 9.717183943e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.404924695 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 5.330000192e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 15085.06711 15078.90555 29154.56906 max(abs(gpx/gpy/gpz/p)) = 1.384908447e+15 1.385042765e+15 1.511066642e+16 9.717183943e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 15087.95199 15080.849 29058.466 max(abs(gpx/gpy/gpz/p)) = 1.413966278e+15 1.413525791e+15 1.500033557e+16 9.726991744e+16 [Level 2 step 23] Advanced 2904576 cells [Level 2 step 24] ADVANCE at time 0.0003023292335 with dt = 5.486263763e-06 Advancing grids at level 2 : starting time = 0.0003023292335 with dt = 5.486263763e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 15087.95199 15080.849 29058.466 max(abs(gpx/gpy/gpz/p)) = 1.413966278e+15 1.413525791e+15 1.500033557e+16 9.726991744e+16 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.407079577 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 2.509999888e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 15572.51944 15569.65643 30029.0138 max(abs(gpx/gpy/gpz/p)) = 1.413966278e+15 1.413525791e+15 1.500033557e+16 9.726991744e+16 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 15570.77139 15567.01146 29946.57704 max(abs(gpx/gpy/gpz/p)) = 1.412824619e+15 1.412326838e+15 1.500695735e+16 9.726991744e+16 [Level 2 step 24] Advanced 2904576 cells mac_sync() on level 1 mac_sync() on level 0 [STEP 6] Coarse TimeStep time: 66.35766585 [STEP 6] FAB kilobyte spread across MPI nodes: [1257559 ... 1263526] STEP = 6 TIME = 0.0003078154973 DT = 2.194505505e-05 estTimeStep :: LEV = 0 UMAX = 15390.25698 15381.54077 29707.91009 estimated timestep: dt = 1.969698469e-05 estTimeStep :: LEV = 1 UMAX = 15534.26446 15527.15358 29871.83382 estimated timestep: dt = 9.794448065e-06 estTimeStep :: LEV = 2 UMAX = 15575.03712 15571.18064 29945.6458 estimated timestep: dt = 4.885153037e-06 Now regridding at level lbase = 0 grid_places() time: 0.031970344 new finest: 2 STEP = 6 TIME = 0.0003078154973 : REGRID with lbase = 0 Level 1 32 grids 786432 cells 37.5 % of domain smallest grid: 32 x 32 x 16 biggest grid: 32 x 32 x 32 Level 2 249 grids 3053056 cells 18.19763184 % of domain smallest grid: 8 x 8 x 8 biggest grid: 32 x 32 x 32 [Level 0 step 7] ADVANCE at time 0.0003078154973 with dt = 1.954061215e-05 Advancing grids at level 0 : starting time = 0.0003078154973 with dt = 1.954061215e-05 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 15390.25698 15381.54077 29707.91009 max(abs(gpx/gpy/gpz/p)) = 1.392438912e+15 1.394043172e+15 1.64326352e+16 4.176669357e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 0, time: 0.137865916 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 0, time: 2.520000066e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 17121.02892 17116.63195 34115.94372 max(abs(gpx/gpy/gpz/p)) = 1.392438912e+15 1.394043172e+15 1.64326352e+16 4.176669357e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 17200.41662 17200.78662 32810.24818 max(abs(gpx/gpy/gpz/p)) = 1.531255549e+15 1.535920027e+15 1.656969042e+16 4.169080322e+17 [Level 0 step 7] Advanced 262144 cells [Level 1 step 13] ADVANCE at time 0.0003078154973 with dt = 9.770306073e-06 Advancing grids at level 1 : starting time = 0.0003078154973 with dt = 9.770306073e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 15534.26446 15527.15358 29871.83382 max(abs(gpx/gpy/gpz/p)) = 1.407379659e+15 1.408596458e+15 1.657860065e+16 1.698314776e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.518505004 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 2.429999881e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 16405.85124 16402.26672 31751.03577 max(abs(gpx/gpy/gpz/p)) = 1.407379659e+15 1.408596458e+15 1.657860065e+16 1.698314776e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 16438.96131 16430.52083 31428.83382 max(abs(gpx/gpy/gpz/p)) = 1.512522858e+15 1.512314068e+15 1.645316005e+16 1.694560662e+17 [Level 1 step 13] Advanced 786432 cells [Level 2 step 25] ADVANCE at time 0.0003078154973 with dt = 4.885153037e-06 Advancing grids at level 2 : starting time = 0.0003078154973 with dt = 4.885153037e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 15575.03712 15571.18064 29945.6458 max(abs(gpx/gpy/gpz/p)) = 1.413637767e+15 1.413010201e+15 1.657860065e+16 1.205973718e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.736042607 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 3.099999901e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 16006.05951 15996.50436 30862.6465 max(abs(gpx/gpy/gpz/p)) = 1.413637767e+15 1.413010201e+15 1.657860065e+16 1.205973718e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 16021.95917 16012.73094 30753.09694 max(abs(gpx/gpy/gpz/p)) = 1.510857677e+15 1.511654992e+15 1.624672267e+16 1.202968828e+17 [Level 2 step 25] Advanced 3053056 cells [Level 2 step 26] ADVANCE at time 0.0003127006503 with dt = 4.885153037e-06 Advancing grids at level 2 : starting time = 0.0003127006503 with dt = 4.885153037e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 16021.95917 16012.73094 30753.09694 max(abs(gpx/gpy/gpz/p)) = 1.510857677e+15 1.511654992e+15 1.624672267e+16 1.202968828e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.680930363 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 2.419999987e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 16464.37225 16461.7603 31634.95276 max(abs(gpx/gpy/gpz/p)) = 1.510857677e+15 1.511654992e+15 1.624672267e+16 1.202968828e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 16462.47823 16459.58096 31569.74135 max(abs(gpx/gpy/gpz/p)) = 1.528683105e+15 1.534336267e+15 1.650142188e+16 1.202968828e+17 [Level 2 step 26] Advanced 3053056 cells mac_sync() on level 1 [Level 1 step 14] ADVANCE at time 0.0003175858034 with dt = 9.770306073e-06 Advancing grids at level 1 : starting time = 0.0003175858034 with dt = 9.770306073e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 16434.84316 16427.75822 31442.67867 max(abs(gpx/gpy/gpz/p)) = 1.525301469e+15 1.524741244e+15 1.646061151e+16 1.694560662e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 1, time: 0.466008795 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 1, time: 2.230000007e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 17315.90914 17330.07556 33384.46218 max(abs(gpx/gpy/gpz/p)) = 1.525301469e+15 1.524741244e+15 1.646061151e+16 1.694560662e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 17327.561 17334.56247 33146.41249 max(abs(gpx/gpy/gpz/p)) = 1.596305674e+15 1.59716035e+15 1.668154528e+16 1.694560662e+17 [Level 1 step 14] Advanced 786432 cells [Level 2 step 27] ADVANCE at time 0.0003175858034 with dt = 4.885153037e-06 Advancing grids at level 2 : starting time = 0.0003175858034 with dt = 4.885153037e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 16461.96352 16459.11975 31570.11479 max(abs(gpx/gpy/gpz/p)) = 1.52991673e+15 1.531620414e+15 1.64944251e+16 1.203137041e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.698426079 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 2.58e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 16907.70748 16906.69818 32481.09015 max(abs(gpx/gpy/gpz/p)) = 1.52991673e+15 1.531620414e+15 1.64944251e+16 1.203137041e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 16914.83222 16913.43993 32394.37113 max(abs(gpx/gpy/gpz/p)) = 1.590823133e+15 1.59611127e+15 1.624761279e+16 1.204674448e+17 [Level 2 step 27] Advanced 3053056 cells [Level 2 step 28] ADVANCE at time 0.0003224709564 with dt = 4.885153037e-06 Advancing grids at level 2 : starting time = 0.0003224709564 with dt = 4.885153037e-06 NavierStokes::advance(): before velocity update: max(abs(u/v/w)) = 16914.83222 16913.43993 32394.37113 max(abs(gpx/gpy/gpz/p)) = 1.590823133e+15 1.59611127e+15 1.624761279e+16 1.204674448e+17 ... predict edge velocities ... mac_projection NavierStokesBase:mac_project(): lev: 2, time: 2.677060109 ... advect scalars ... update scalars ... advect momenta ... update scalars ... update momenta NavierStokes:velocity_diffusion_update(): lev: 2, time: 3.849999928e-07 NavierStokes::advance(): before nodal projection max(abs(u/v/w)) = 17387.00296 17379.46495 33313.35933 max(abs(gpx/gpy/gpz/p)) = 1.590823133e+15 1.59611127e+15 1.624761279e+16 1.204674448e+17 NavierStokes::advance(): exiting. max(abs(u/v/w)) = 17383.56813 17376.56609 33256.08727 max(abs(gpx/gpy/gpz/p)) = 1.600149305e+15 1.615360545e+15 1.638905037e+16 1.204674448e+17 [Level 2 step 28] Advanced 3053056 cells mac_sync() on level 1 mac_sync() on level 0 [STEP 7] Coarse TimeStep time: 72.80899333 [STEP 7] FAB kilobyte spread across MPI nodes: [1321125 ... 1342254] STEP = 7 TIME = 0.0003273561094 DT = 1.954061215e-05 PLOTFILE: file = RayleighTaylor_plt00007 Write plotfile time = 0.159018654 seconds Run time = 268.3037457 AMReX (26.04-116-g6f2c4aff90ae) finalized