Initializing AMReX (26.05-49-g939c28a6ef7c)...
MPI initialized with 2 MPI processes
MPI initialized with thread support level 0
Initializing CUDA...
CUDA initialized with 1 device.
AMReX (26.05-49-g939c28a6ef7c) 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 = 1  0.04993977281  0  
estimated timestep: dt = 0.015625
Multiplying dt by init_shrink: dt = 0.015625
grid_places() time: 0.006952096 new finest: 1
Now regridding at level lbase = 0
grid_places() time: 0.006149249 new finest: 1
STEP = 0 TIME = 0 : REGRID  with lbase = 0
  Level 1   32 grids  286720 cells  13.671875 % of domain
            smallest grid: 8 x 8 x 8  biggest grid: 32 x 32 x 32

calling initialVelocityProject
done calling initialVelocityProject
estTimeStep :: 
LEV = 0 UMAX = 1.413884744  1.358916106  1.094692626  
estimated timestep: dt = 0.01105111295
Multiplying dt by init_shrink: dt = 0.01105111295
estTimeStep :: 
LEV = 1 UMAX = 1.71966304  1.490634699  1.204118065  
estimated timestep: dt = 0.004543041175
Multiplying dt by init_shrink: dt = 0.004543041175

post_init_press(): doing initial pressure iterations with dt = 0.004543041175

post_init_press(): iter = 0
Advancing grids at level 0 : starting time = 0 with dt = 0.004543041175
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.413884744  1.358916106  1.094692626
max(abs(gpx/gpy/gpz/p)) = 0  0  0  0
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.305947334
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.407989133  1.370125424  1.063106806
max(abs(gpx/gpy/gpz/p)) = 0  0  0  0
Advancing grids at level 1 : starting time = 0 with dt = 0.004543041175
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.71966304  1.490634699  1.204118065
max(abs(gpx/gpy/gpz/p)) = 0  0  0  0
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.630577094
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.606958999  1.496184497  1.094985102
max(abs(gpx/gpy/gpz/p)) = 0  0  0  0
After sync projection and avgDown:
max(abs(u/v/w))  = 1.419000037  1.383821459  1.097603039
max(abs(gpx/gpy/gpz/p)) = 49.95673586  27.52934967  23.56950201  1.54899919

post_init_press(): iter = 1
Advancing grids at level 0 : starting time = 0 with dt = 0.004543041175
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.413884744  1.358916106  1.094692626
max(abs(gpx/gpy/gpz/p)) = 49.95673586  27.52934967  23.56950201  1.54899919
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.303839433
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 1.679999997e-07
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.40160602  1.360474196  1.166753314
max(abs(gpx/gpy/gpz/p)) = 49.95673586  27.52934967  23.56950201  1.54899919
Advancing grids at level 1 : starting time = 0 with dt = 0.004543041175
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.71966304  1.490634699  1.204118065
max(abs(gpx/gpy/gpz/p)) = 54.51358154  51.62160864  41.84755778  1.54899919
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.563921036
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.93e-07
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.69850031  1.503275776  1.211423099
max(abs(gpx/gpy/gpz/p)) = 54.51358154  51.62160864  41.84755778  1.54899919
After sync projection and avgDown:
max(abs(u/v/w))  = 1.42565571  1.3832633  1.114571093
max(abs(gpx/gpy/gpz/p)) = 56.25917183  30.18134538  24.97234852  1.576566141

post_init_press(): exiting after 2 iterations
After initial iterations: 
max(abs(u/v/w))  = 1.413884744  1.358916106  1.094692626
max(abs(gpx/gpy/gpz/p)) = 56.25917183  30.18134538  24.97234852  1.576566141


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
  Level 1   32 grids  286720 cells  13.671875 % of domain
            smallest grid: 8 x 8 x 8  biggest grid: 32 x 32 x 32

PLOTFILE: file = DoubleShearLayer_plt00000
Write plotfile time = 0.034091594  seconds

estTimeStep :: 
LEV = 0 UMAX = 1.413884744  1.358916106  1.094692626  
estimated timestep: dt = 0.01105111295
Multiplying dt by init_shrink: dt = 0.01105111295
estTimeStep :: 
LEV = 1 UMAX = 1.71966304  1.490634699  1.204118065  
estimated timestep: dt = 0.004543041175
Multiplying dt by init_shrink: dt = 0.004543041175
[Level 0 step 1] ADVANCE at time 0 with dt = 0.00908608235
Advancing grids at level 0 : starting time = 0 with dt = 0.00908608235
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.413884744  1.358916106  1.094692626
max(abs(gpx/gpy/gpz/p)) = 56.25917183  30.18134538  24.97234852  1.576566141
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.305837061
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 1.849999993e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.41754297  1.449387812  1.259818478
max(abs(gpx/gpy/gpz/p)) = 56.25917183  30.18134538  24.97234852  1.576566141
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.434848397  1.393900941  1.224072166
max(abs(gpx/gpy/gpz/p)) = 42.07560118  24.07471778  20.59994932  2.788122591
[Level 0 step 1] Advanced 262144 cells
[Level 1 step 1] ADVANCE at time 0 with dt = 0.004543041175
Advancing grids at level 1 : starting time = 0 with dt = 0.004543041175
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.71966304  1.490634699  1.204118065
max(abs(gpx/gpy/gpz/p)) = 63.19960632  57.13479849  46.78870464  1.595531455
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.561943879
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.540000003e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.712538412  1.502412463  1.221983304
max(abs(gpx/gpy/gpz/p)) = 63.19960632  57.13479849  46.78870464  1.595531455
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.724113132  1.51397634  1.255291425
max(abs(gpx/gpy/gpz/p)) = 70.51753957  58.06182188  47.93406108  1.613572185
[Level 1 step 1] Advanced 286720 cells
[Level 1 step 2] ADVANCE at time 0.004543041175 with dt = 0.004543041175
Advancing grids at level 1 : starting time = 0.004543041175 with dt = 0.004543041175
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.724113132  1.51397634  1.255291425
max(abs(gpx/gpy/gpz/p)) = 70.51753957  58.06182188  47.93406108  1.613572185
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.536210245
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 4.799999989e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.71798021  1.527517207  1.283613036
max(abs(gpx/gpy/gpz/p)) = 70.51753957  58.06182188  47.93406108  1.613572185
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.715320981  1.515822856  1.274384517
max(abs(gpx/gpy/gpz/p)) = 66.27270594  64.50296466  53.87246005  1.433079128
[Level 1 step 2] Advanced 286720 cells

mac_sync() on level 0

[STEP 1] Coarse TimeStep time: 5.191658817
[STEP 1] FAB kilobyte spread across MPI nodes: [402417 ... 551631]

STEP = 1 TIME = 0.00908608235 DT = 0.00908608235

estTimeStep :: 
LEV = 0 UMAX = 1.444293735  1.411794162  1.152706021  
estimated timestep: dt = 0.01081843646
estTimeStep :: 
LEV = 1 UMAX = 1.71356846  1.515221593  1.274324161  
estimated timestep: dt = 0.004559199227
Now regridding at level lbase = 0
grid_places() time: 0.005917886 new finest: 1
STEP = 1 TIME = 0.00908608235 : REGRID  with lbase = 0
  Level 1   32 grids  286720 cells  13.671875 % of domain
            smallest grid: 8 x 8 x 8  biggest grid: 32 x 32 x 32

[Level 0 step 2] ADVANCE at time 0.00908608235 with dt = 0.009062630352
Advancing grids at level 0 : starting time = 0.00908608235 with dt = 0.009062630352
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.444293735  1.411794162  1.152706021
max(abs(gpx/gpy/gpz/p)) = 60.41888218  33.87996239  28.01160601  1.267987532
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.305722214
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 1.029999996e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.401126859  1.53476437  1.332317453
max(abs(gpx/gpy/gpz/p)) = 60.41888218  33.87996239  28.01160601  1.267987532
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.448270239  1.436225524  1.257695179
max(abs(gpx/gpy/gpz/p)) = 35.05289274  23.00708136  19.32238445  2.69500872
[Level 0 step 2] Advanced 262144 cells
[Level 1 step 3] ADVANCE at time 0.00908608235 with dt = 0.004531315176
Advancing grids at level 1 : starting time = 0.00908608235 with dt = 0.004531315176
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.71356846  1.515221593  1.274324161
max(abs(gpx/gpy/gpz/p)) = 66.42884117  64.52645915  53.8808912  1.423338762
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.570278173
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.879999996e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.708490769  1.503671985  1.285122646
max(abs(gpx/gpy/gpz/p)) = 66.42884117  64.52645915  53.8808912  1.423338762
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.70618043  1.504314074  1.286290674
max(abs(gpx/gpy/gpz/p)) = 62.39127683  65.5019409  54.600846  1.783754171
[Level 1 step 3] Advanced 286720 cells
[Level 1 step 4] ADVANCE at time 0.01361739753 with dt = 0.004531315176
Advancing grids at level 1 : starting time = 0.01361739753 with dt = 0.004531315176
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.70618043  1.504314074  1.286290674
max(abs(gpx/gpy/gpz/p)) = 62.39127683  65.5019409  54.600846  1.783754171
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.564397692
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.880000013e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.700488567  1.48263095  1.292457446
max(abs(gpx/gpy/gpz/p)) = 62.39127683  65.5019409  54.600846  1.783754171
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.696883533  1.484183768  1.293395532
max(abs(gpx/gpy/gpz/p)) = 58.80642989  65.1008966  53.79880318  1.714999722
[Level 1 step 4] Advanced 286720 cells

mac_sync() on level 0

[STEP 2] Coarse TimeStep time: 5.51420008
[STEP 2] FAB kilobyte spread across MPI nodes: [402417 ... 551631]

STEP = 2 TIME = 0.0181487127 DT = 0.009062630352

estTimeStep :: 
LEV = 0 UMAX = 1.445071127  1.427690145  1.171690786  
estimated timestep: dt = 0.01081261656
estTimeStep :: 
LEV = 1 UMAX = 1.695010201  1.483526956  1.293106627  
estimated timestep: dt = 0.004609116803
Now regridding at level lbase = 0
grid_places() time: 0.005910746 new finest: 1
STEP = 2 TIME = 0.0181487127 : REGRID  with lbase = 0
  Level 1   29 grids  288768 cells  13.76953125 % of domain
            smallest grid: 8 x 8 x 8  biggest grid: 32 x 32 x 32

[Level 0 step 3] ADVANCE at time 0.0181487127 with dt = 0.009118398455
Advancing grids at level 0 : starting time = 0.0181487127 with dt = 0.009118398455
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.445071127  1.427690145  1.171690786
max(abs(gpx/gpy/gpz/p)) = 51.78129088  34.4029677  27.76227225  1.674414753
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.305173029
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 9.999999762e-08
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.388116979  1.560642445  1.349763528
max(abs(gpx/gpy/gpz/p)) = 51.78129088  34.4029677  27.76227225  1.674414753
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.447564237  1.45799628  1.273867406
max(abs(gpx/gpy/gpz/p)) = 34.3085853  23.67067961  19.45164802  2.945191636
[Level 0 step 3] Advanced 262144 cells
[Level 1 step 5] ADVANCE at time 0.0181487127 with dt = 0.004559199227
Advancing grids at level 1 : starting time = 0.0181487127 with dt = 0.004559199227
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.695010201  1.483526956  1.293106627
max(abs(gpx/gpy/gpz/p)) = 58.96594356  65.13302706  53.80752793  1.707972287
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.648806102
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.880000013e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.687530509  1.472503728  1.296521103
max(abs(gpx/gpy/gpz/p)) = 58.96594356  65.13302706  53.80752793  1.707972287
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.684340508  1.477632352  1.296115502
max(abs(gpx/gpy/gpz/p)) = 55.70436736  64.19964174  52.65115729  1.967820659
[Level 1 step 5] Advanced 288768 cells
[Level 1 step 6] ADVANCE at time 0.02270791193 with dt = 0.004559199227
Advancing grids at level 1 : starting time = 0.02270791193 with dt = 0.004559199227
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.684340508  1.477632352  1.296115502
max(abs(gpx/gpy/gpz/p)) = 55.70436736  64.19964174  52.65115729  1.967820659
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.592882422
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.16999999e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.67712573  1.475561819  1.297330196
max(abs(gpx/gpy/gpz/p)) = 55.70436736  64.19964174  52.65115729  1.967820659
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.673285347  1.478806689  1.296898289
max(abs(gpx/gpy/gpz/p)) = 53.23226492  63.43711077  51.68447184  1.9570588
[Level 1 step 6] Advanced 288768 cells

mac_sync() on level 0

[STEP 3] Coarse TimeStep time: 6.024752785
[STEP 3] FAB kilobyte spread across MPI nodes: [490880 ... 551631]

STEP = 3 TIME = 0.02726711116 DT = 0.009118398455

estTimeStep :: 
LEV = 0 UMAX = 1.438184433  1.416323485  1.178290138  
estimated timestep: dt = 0.01086439238
estTimeStep :: 
LEV = 1 UMAX = 1.671371186  1.478128342  1.296633443  
estimated timestep: dt = 0.004674305783
Now regridding at level lbase = 0
grid_places() time: 0.005774618 new finest: 1
STEP = 3 TIME = 0.02726711116 : REGRID  with lbase = 0
  Level 1   30 grids  280064 cells  13.35449219 % of domain
            smallest grid: 8 x 8 x 8  biggest grid: 32 x 32 x 32

[Level 0 step 4] ADVANCE at time 0.02726711116 with dt = 0.009218233605
Advancing grids at level 0 : starting time = 0.02726711116 with dt = 0.009218233605
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.438184433  1.416323485  1.178290138
max(abs(gpx/gpy/gpz/p)) = 45.83505346  34.28835505  27.57887522  1.963893103
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.305926141
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 1.619999992e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.383698038  1.569316623  1.354703645
max(abs(gpx/gpy/gpz/p)) = 45.83505346  34.28835505  27.57887522  1.963893103
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.440579083  1.467010049  1.279376021
max(abs(gpx/gpy/gpz/p)) = 33.70359595  23.91440035  19.46378263  2.762539553
[Level 0 step 4] Advanced 262144 cells
[Level 1 step 7] ADVANCE at time 0.02726711116 with dt = 0.004609116803
Advancing grids at level 1 : starting time = 0.02726711116 with dt = 0.004609116803
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.671371186  1.478128342  1.296633443
max(abs(gpx/gpy/gpz/p)) = 53.24270641  63.46999275  51.69319975  1.958512174
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.642987013
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.510000018e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.66277828  1.475400436  1.296766701
max(abs(gpx/gpy/gpz/p)) = 53.24270641  63.46999275  51.69319975  1.958512174
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.659814089  1.474729574  1.295937368
max(abs(gpx/gpy/gpz/p)) = 52.9354728  62.67884972  50.70346873  1.791028656
[Level 1 step 7] Advanced 280064 cells
[Level 1 step 8] ADVANCE at time 0.03187622796 with dt = 0.004609116803
Advancing grids at level 1 : starting time = 0.03187622796 with dt = 0.004609116803
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.659814089  1.474729574  1.295937368
max(abs(gpx/gpy/gpz/p)) = 52.9354728  62.67884972  50.70346873  1.791028656
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.568024518
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 5.379999983e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.652214524  1.475271327  1.295406985
max(abs(gpx/gpy/gpz/p)) = 52.9354728  62.67884972  50.70346873  1.791028656
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.648350124  1.475090398  1.295016886
max(abs(gpx/gpy/gpz/p)) = 52.76836251  62.29280907  50.13477867  1.784596349
[Level 1 step 8] Advanced 280064 cells

mac_sync() on level 0

[STEP 4] Coarse TimeStep time: 5.909974553
[STEP 4] FAB kilobyte spread across MPI nodes: [490880 ... 551631]

STEP = 4 TIME = 0.03648534476 DT = 0.009218233605

estTimeStep :: 
LEV = 0 UMAX = 1.428098048  1.380279074  1.179863313  
estimated timestep: dt = 0.01094112552
estTimeStep :: 
LEV = 1 UMAX = 1.64637953  1.47466543  1.294753838  
estimated timestep: dt = 0.004745260652
Now regridding at level lbase = 0
grid_places() time: 0.005969238 new finest: 1
STEP = 4 TIME = 0.03648534476 : REGRID  with lbase = 0
  Level 1   34 grids  275968 cells  13.15917969 % of domain
            smallest grid: 8 x 8 x 8  biggest grid: 32 x 32 x 32

[Level 0 step 5] ADVANCE at time 0.03648534476 with dt = 0.009348611567
Advancing grids at level 0 : starting time = 0.03648534476 with dt = 0.009348611567
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.428098048  1.380279074  1.179863313
max(abs(gpx/gpy/gpz/p)) = 40.37675041  34.12036295  27.3568164  1.789242266
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.308094969
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 1.800000007e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.375186605  1.573694255  1.356045078
max(abs(gpx/gpy/gpz/p)) = 40.37675041  34.12036295  27.3568164  1.789242266
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.430568991  1.470914466  1.280588777
max(abs(gpx/gpy/gpz/p)) = 32.83629507  23.5409333  19.38120991  2.636913977
[Level 0 step 5] Advanced 262144 cells
[Level 1 step 9] ADVANCE at time 0.03648534476 with dt = 0.004674305783
Advancing grids at level 1 : starting time = 0.03648534476 with dt = 0.004674305783
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.64637953  1.47466543  1.294753838
max(abs(gpx/gpy/gpz/p)) = 52.71521507  62.32795867  50.15412051  1.786026113
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.703967739
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.929999982e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.637369981  1.475080617  1.294090322
max(abs(gpx/gpy/gpz/p)) = 52.71521507  62.32795867  50.15412051  1.786026113
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.634275867  1.474443257  1.293309457
max(abs(gpx/gpy/gpz/p)) = 52.54006881  61.90709446  49.61663564  1.688761575
[Level 1 step 9] Advanced 275968 cells
[Level 1 step 10] ADVANCE at time 0.04115965055 with dt = 0.004674305783
Advancing grids at level 1 : starting time = 0.04115965055 with dt = 0.004674305783
NavierStokes::advance(): before velocity update:
max(abs(u/v/w))  = 1.634275867  1.474443257  1.293309457
max(abs(gpx/gpy/gpz/p)) = 52.54006881  61.90709446  49.61663564  1.688761575
... predict edge velocities
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.642468022
... advect velocities
... advect scalars
... update scalars
... update scalars
... update velocities 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 1.53000002e-07
NavierStokes::advance(): before nodal projection 
max(abs(u/v/w))  = 1.625860115  1.474413178  1.292379363
max(abs(gpx/gpy/gpz/p)) = 52.54006881  61.90709446  49.61663564  1.688761575
NavierStokes::advance(): exiting.
max(abs(u/v/w))  = 1.622022261  1.474300841  1.292063449
max(abs(gpx/gpy/gpz/p)) = 52.38575113  61.90490395  49.41281774  1.687619183
[Level 1 step 10] Advanced 275968 cells

mac_sync() on level 0

[STEP 5] Coarse TimeStep time: 6.412879471
[STEP 5] FAB kilobyte spread across MPI nodes: [505792 ... 551631]

STEP = 5 TIME = 0.04583395633 DT = 0.009348611567

PLOTFILE: file = DoubleShearLayer_plt00005
Write plotfile time = 0.04965943  seconds

Run time = 36.25297757
Total GPU global memory (MB) spread across MPI: [7965 ... 7965]
Free  GPU global memory (MB) spread across MPI: [4419 ... 4419]
[The         Arena] max space (MB) allocated spread across MPI: [512 ... 553]
[The         Arena] max space (MB) used      spread across MPI: [508 ... 551]
[The Managed Arena] max space (MB) allocated spread across MPI: [8 ... 8]
[The Managed Arena] max space (MB) used      spread across MPI: [0 ... 0]
[The  Pinned Arena] max space (MB) allocated spread across MPI: [16 ... 16]
[The  Pinned Arena] max space (MB) used      spread across MPI: [12 ... 13]
AMReX (26.05-49-g939c28a6ef7c) finalized