Initializing AMReX (26.05-3-g4ceb814db7d7)...
MPI initialized with 2 MPI processes
MPI initialized with thread support level 0
OMP initialized with 2 OMP threads
AMReX (26.05-3-g4ceb814db7d7) initialized
Using default ref_ratio = 2 at all levels
Successfully read inputs file ... 
xlo set to mass inflow.
xhi set to pressure outflow.
ylo set to no-slip wall.
yhi set to no-slip wall.
Using conservative advection update for tracer.
Using conservative advection update for tracer2.
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  
estimated timestep: dt = 0.0078125
Multiplying dt by init_shrink: dt = 0.00234375
grid_places() time: 0.000372019 new finest: 1
Now regridding at level lbase = 0
grid_places() time: 0.000278736 new finest: 1
STEP = 0 TIME = 0 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

calling initialVelocityProject
done calling initialVelocityProject
calling initialPressureProject
done calling initialPressureProject
estTimeStep :: 
LEV = 0 UMAX = 1  0  
estimated timestep: dt = 0.0078125
Multiplying dt by init_shrink: dt = 0.00234375
estTimeStep :: 
LEV = 1 UMAX = 1  0  
estimated timestep: dt = 0.00390625
Multiplying dt by init_shrink: dt = 0.001171875

post_init_press(): doing initial pressure iterations with dt = 0.001171875

post_init_press(): iter = 0
Advancing grids at level 0 : starting time = 0 with dt = 0.001171875
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1  0
max(abs(gpx/gpy/p)) = 8.416378705e-12  1  1
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001988154
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.013425759
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes::advance(): exiting.
max(abs(u/v))  = 8.602390748  4.245512806
max(abs(gpx/gpy/p)) = 8.416378705e-12  1  1
Advancing grids at level 1 : starting time = 0 with dt = 0.001171875
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1  0
max(abs(gpx/gpy/p)) = 1.07007736e-11  1  0.75
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001093259
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010996151
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1  9.265579206e-15
max(abs(gpx/gpy/p)) = 1.07007736e-11  1  0.75
After sync projection and avgDown:
max(abs(u/v))  = 8.299755975  4.64431021
max(abs(gpx/gpy/p)) = 4464.553566  3532.344145  738.826888

post_init_press(): iter = 1
Advancing grids at level 0 : starting time = 0 with dt = 0.001171875
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1  0
max(abs(gpx/gpy/p)) = 4464.553566  3532.344145  738.826888
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001337075
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.010914925
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.01411295
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.527346627  0.7486497569
max(abs(gpx/gpy/p)) = 4464.553566  3532.344145  738.826888
Advancing grids at level 1 : starting time = 0 with dt = 0.001171875
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1  0
max(abs(gpx/gpy/p)) = 250.102155  252.0916497  483.3585422
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001035745
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.011075055
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.009419561
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.293167523  0.251434171
max(abs(gpx/gpy/p)) = 250.102155  252.0916497  483.3585422
After sync projection and avgDown:
max(abs(u/v))  = 1.25921545  0.5447535726
max(abs(gpx/gpy/p)) = 4460.809875  3473.947945  377.7728824

post_init_press(): exiting after 2 iterations
After initial iterations: 
max(abs(u/v))  = 1  0
max(abs(gpx/gpy/p)) = 4460.809875  3473.947945  377.7728824


INITIAL GRIDS 
  Level 0   2 grids  8192 cells  100 % of domain
            smallest grid: 64 x 64  biggest grid: 64 x 64
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

PLOTFILE: file = Poiseuille_2d_plt00000
Write plotfile time = 0.006070925  seconds

estTimeStep :: 
LEV = 0 UMAX = 1  0  
estimated timestep: dt = 0.001323390944
Multiplying dt by init_shrink: dt = 0.0003970172832
estTimeStep :: 
LEV = 1 UMAX = 1  0  
estimated timestep: dt = 0.00390625
Multiplying dt by init_shrink: dt = 0.001171875
[Level 0 step 1] ADVANCE at time 0 with dt = 0.0003970172832
Advancing grids at level 0 : starting time = 0 with dt = 0.0003970172832
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1  0
max(abs(gpx/gpy/p)) = 4460.809875  3473.947945  377.7728824
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001916587
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.013351783
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.01251009
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.219742638  0.4232406016
max(abs(gpx/gpy/p)) = 4460.809875  3473.947945  377.7728824
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.158689487  0.3428231462
max(abs(gpx/gpy/p)) = 4129.508972  3257.165978  430.8174321
[Level 0 step 1] Advanced 8192 cells
[Level 1 step 1] ADVANCE at time 0 with dt = 0.0001985086416
Advancing grids at level 1 : starting time = 0 with dt = 0.0001985086416
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1  0
max(abs(gpx/gpy/p)) = 91.25181647  122.9098721  170.3989277
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001003325
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010955169
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.007913052
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.022041172  0.02270543985
max(abs(gpx/gpy/p)) = 91.25181647  122.9098721  170.3989277
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.028228126  0.0242877447
max(abs(gpx/gpy/p)) = 124.0639619  128.8127639  238.1518506
[Level 1 step 1] Advanced 3072 cells
[Level 1 step 2] ADVANCE at time 0.0001985086416 with dt = 0.0001985086416
Advancing grids at level 1 : starting time = 0.0001985086416 with dt = 0.0001985086416
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.028228126  0.0242877447
max(abs(gpx/gpy/p)) = 124.0639619  128.8127639  238.1518506
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001119706
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010893744
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008165297
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.04944974  0.04722980773
max(abs(gpx/gpy/p)) = 124.0639619  128.8127639  238.1518506
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.049266563  0.04853781119
max(abs(gpx/gpy/p)) = 123.7155179  134.2980109  238.1518506
[Level 1 step 2] Advanced 3072 cells

mac_sync() on level 0

[STEP 1] Coarse TimeStep time: 0.154131514
[STEP 1] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 1 TIME = 0.0003970172832 DT = 0.0003970172832

estTimeStep :: 
LEV = 0 UMAX = 1.158715205  0.3427997896  
estimated timestep: dt = 0.001375449957
estTimeStep :: 
LEV = 1 UMAX = 1.048997746  0.04824198557  
estimated timestep: dt = 0.003723792559
Now regridding at level lbase = 0
grid_places() time: 0.000191403 new finest: 1
STEP = 1 TIME = 0.0003970172832 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 2] ADVANCE at time 0.0003970172832 with dt = 0.0004367190115
Advancing grids at level 0 : starting time = 0.0003970172832 with dt = 0.0004367190115
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.158715205  0.3427997896
max(abs(gpx/gpy/p)) = 4129.528257  3257.099989  430.9088636
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001464854
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.013633778
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.014261373
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.212382794  0.4266804991
max(abs(gpx/gpy/p)) = 4129.528257  3257.099989  430.9088636
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.144039238  0.3225337318
max(abs(gpx/gpy/p)) = 3710.721481  2895.282368  221.4600636
[Level 0 step 2] Advanced 8192 cells
[Level 1 step 3] ADVANCE at time 0.0003970172832 with dt = 0.0002183595058
Advancing grids at level 1 : starting time = 0.0003970172832 with dt = 0.0002183595058
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.048997746  0.04824198557
max(abs(gpx/gpy/p)) = 124.2999967  143.7782415  238.4986589
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001313739
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.01074889
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008322671
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.071898982  0.06654455286
max(abs(gpx/gpy/p)) = 124.2999967  143.7782415  238.4986589
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.053104837  0.05638365874
max(abs(gpx/gpy/p)) = 58.27870018  88.98979806  70.38824852
[Level 1 step 3] Advanced 3072 cells
[Level 1 step 4] ADVANCE at time 0.0006153767889 with dt = 0.0002183595058
Advancing grids at level 1 : starting time = 0.0006153767889 with dt = 0.0002183595058
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.053104837  0.05638365874
max(abs(gpx/gpy/p)) = 58.27870018  88.98979806  70.38824852
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001116928
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010950394
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008320506
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.070238655  0.06857909504
max(abs(gpx/gpy/p)) = 58.27870018  88.98979806  70.38824852
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.069717355  0.06415456739
max(abs(gpx/gpy/p)) = 44.94224269  81.52286389  70.38824852
[Level 1 step 4] Advanced 3072 cells

mac_sync() on level 0

[STEP 2] Coarse TimeStep time: 0.156121705
[STEP 2] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 2 TIME = 0.0008337362947 DT = 0.0004367190115

estTimeStep :: 
LEV = 0 UMAX = 1.143809936  0.3226429363  
estimated timestep: dt = 0.001451004557
estTimeStep :: 
LEV = 1 UMAX = 1.069750517  0.06546891555  
estimated timestep: dt = 0.003651552338
Now regridding at level lbase = 0
grid_places() time: 0.000230929 new finest: 1
STEP = 2 TIME = 0.0008337362947 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 3] ADVANCE at time 0.0008337362947 with dt = 0.0004803909127
Advancing grids at level 0 : starting time = 0.0008337362947 with dt = 0.0004803909127
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.143809936  0.3226429363
max(abs(gpx/gpy/p)) = 3710.671236  2895.433859  221.2159657
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001484998
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.012531709
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.014230692
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.143262556  0.3718932807
max(abs(gpx/gpy/p)) = 3710.671236  2895.433859  221.2159657
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.143918957  0.3341003979
max(abs(gpx/gpy/p)) = 3474.567414  2698.09599  224.2719535
[Level 0 step 3] Advanced 8192 cells
[Level 1 step 5] ADVANCE at time 0.0008337362947 with dt = 0.0002401954563
Advancing grids at level 1 : starting time = 0.0008337362947 with dt = 0.0002401954563
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.069750517  0.06546891555
max(abs(gpx/gpy/p)) = 44.13592906  65.01872447  70.32751705
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001080921
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.01082906
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.00822874
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.075732667  0.07477254107
max(abs(gpx/gpy/p)) = 44.13592906  65.01872447  70.32751705
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.076748813  0.07484833769
max(abs(gpx/gpy/p)) = 45.28491415  66.66421012  81.91089367
[Level 1 step 5] Advanced 3072 cells
[Level 1 step 6] ADVANCE at time 0.001073931751 with dt = 0.0002401954563
Advancing grids at level 1 : starting time = 0.001073931751 with dt = 0.0002401954563
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.076748813  0.07484833769
max(abs(gpx/gpy/p)) = 45.28491415  66.66421012  81.91089367
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001165607
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.01085581
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008317711
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.088357331  0.08398226372
max(abs(gpx/gpy/p)) = 45.28491415  66.66421012  81.91089367
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.088345849  0.08423249029
max(abs(gpx/gpy/p)) = 45.18692815  63.8589418  81.91089367
[Level 1 step 6] Advanced 3072 cells

mac_sync() on level 0

[STEP 3] Coarse TimeStep time: 0.15333119
[STEP 3] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 3 TIME = 0.001314127207 DT = 0.0004803909127

estTimeStep :: 
LEV = 0 UMAX = 1.144006042  0.334074573  
estimated timestep: dt = 0.001499491401
estTimeStep :: 
LEV = 1 UMAX = 1.087881187  0.08394620989  
estimated timestep: dt = 0.003590695423
Now regridding at level lbase = 0
grid_places() time: 0.000190412 new finest: 1
STEP = 3 TIME = 0.001314127207 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 4] ADVANCE at time 0.001314127207 with dt = 0.0005284300039
Advancing grids at level 0 : starting time = 0.001314127207 with dt = 0.0005284300039
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.144006042  0.334074573
max(abs(gpx/gpy/p)) = 3474.578043  2698.062232  224.3132298
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001429758
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.013313697
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.014148295
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.150097019  0.3591901743
max(abs(gpx/gpy/p)) = 3474.578043  2698.062232  224.3132298
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.143673332  0.3408832689
max(abs(gpx/gpy/p)) = 3294.264899  2557.779024  194.2484459
[Level 0 step 4] Advanced 8192 cells
[Level 1 step 7] ADVANCE at time 0.001314127207 with dt = 0.000264215002
Advancing grids at level 1 : starting time = 0.001314127207 with dt = 0.000264215002
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.087881187  0.08394620989
max(abs(gpx/gpy/p)) = 45.28453768  69.87953438  82.02671273
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001088497
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010969963
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008094435
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.09686421  0.0932915928
max(abs(gpx/gpy/p)) = 45.28453768  69.87953438  82.02671273
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.093823206  0.0917073423
max(abs(gpx/gpy/p)) = 36.60085404  62.35224063  57.79941382
[Level 1 step 7] Advanced 3072 cells
[Level 1 step 8] ADVANCE at time 0.001578342209 with dt = 0.000264215002
Advancing grids at level 1 : starting time = 0.001578342209 with dt = 0.000264215002
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.093823206  0.0917073423
max(abs(gpx/gpy/p)) = 36.60085404  62.35224063  57.79941382
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001127576
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010759059
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008059674
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.105040114  0.09985980135
max(abs(gpx/gpy/p)) = 36.60085404  62.35224063  57.79941382
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.104916477  0.09895146312
max(abs(gpx/gpy/p)) = 33.97201681  60.50892168  57.79941382
[Level 1 step 8] Advanced 3072 cells

mac_sync() on level 0

[STEP 4] Coarse TimeStep time: 0.153764371
[STEP 4] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 4 TIME = 0.001842557211 DT = 0.0005284300039

estTimeStep :: 
LEV = 0 UMAX = 1.143600533  0.340902276  
estimated timestep: dt = 0.001539984076
estTimeStep :: 
LEV = 1 UMAX = 1.104885408  0.09906015107  
estimated timestep: dt = 0.003535434508
Now regridding at level lbase = 0
grid_places() time: 0.000205227 new finest: 1
STEP = 4 TIME = 0.001842557211 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 5] ADVANCE at time 0.001842557211 with dt = 0.0005812730043
Advancing grids at level 0 : starting time = 0.001842557211 with dt = 0.0005812730043
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.143600533  0.340902276
max(abs(gpx/gpy/p)) = 3294.257702  2557.80092  194.2156219
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001515151
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.012094227
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.013814995
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.147120648  0.3514949072
max(abs(gpx/gpy/p)) = 3294.257702  2557.80092  194.2156219
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.147069251  0.3427528319
max(abs(gpx/gpy/p)) = 3161.681386  2452.611598  190.1442813
[Level 0 step 5] Advanced 8192 cells
[Level 1 step 9] ADVANCE at time 0.001842557211 with dt = 0.0002906365022
Advancing grids at level 1 : starting time = 0.001842557211 with dt = 0.0002906365022
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.104885408  0.09906015107
max(abs(gpx/gpy/p)) = 33.95065478  60.03249294  57.76295552
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001091546
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.011114718
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.00844569
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.112530217  0.1073749443
max(abs(gpx/gpy/p)) = 33.95065478  60.03249294  57.76295552
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.112378555  0.1070279338
max(abs(gpx/gpy/p)) = 32.50565868  58.49695049  56.45006161
[Level 1 step 9] Advanced 3072 cells
[Level 1 step 10] ADVANCE at time 0.002133193713 with dt = 0.0002906365022
Advancing grids at level 1 : starting time = 0.002133193713 with dt = 0.0002906365022
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.112378555  0.1070279338
max(abs(gpx/gpy/p)) = 32.50565868  58.49695049  56.45006161
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001092835
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010972447
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.007995625
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.121955891  0.1148869061
max(abs(gpx/gpy/p)) = 32.50565868  58.49695049  56.45006161
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.121926195  0.1147385164
max(abs(gpx/gpy/p)) = 31.83917926  56.89958342  56.45006161
[Level 1 step 10] Advanced 3072 cells

mac_sync() on level 0

[STEP 5] Coarse TimeStep time: 0.154877167
[STEP 5] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 5 TIME = 0.002423830216 DT = 0.0005812730043

estTimeStep :: 
LEV = 0 UMAX = 1.147095637  0.3427462408  
estimated timestep: dt = 0.00157193945
estTimeStep :: 
LEV = 1 UMAX = 1.121786134  0.1146183371  
estimated timestep: dt = 0.003482169979
Now regridding at level lbase = 0
grid_places() time: 0.000214562 new finest: 1
STEP = 5 TIME = 0.002423830216 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 6] ADVANCE at time 0.002423830216 with dt = 0.0006394003047
Advancing grids at level 0 : starting time = 0.002423830216 with dt = 0.0006394003047
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.147095637  0.3427462408
max(abs(gpx/gpy/p)) = 3161.683581  2452.604432  190.1522984
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001463588
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.012314172
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.013987989
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.153857178  0.3500078094
max(abs(gpx/gpy/p)) = 3161.683581  2452.604432  190.1522984
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.151324739  0.34413108
max(abs(gpx/gpy/p)) = 3048.734348  2366.83237  179.1989502
[Level 0 step 6] Advanced 8192 cells
[Level 1 step 11] ADVANCE at time 0.002423830216 with dt = 0.0003197001524
Advancing grids at level 1 : starting time = 0.002423830216 with dt = 0.0003197001524
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.121786134  0.1146183371
max(abs(gpx/gpy/p)) = 31.9040694  58.80150127  56.45785195
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001078017
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.011241421
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008259753
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.129915584  0.1226479952
max(abs(gpx/gpy/p)) = 31.9040694  58.80150127  56.45785195
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.128654672  0.1220138938
max(abs(gpx/gpy/p)) = 28.70287076  55.85180289  48.05940122
[Level 1 step 11] Advanced 3072 cells
[Level 1 step 12] ADVANCE at time 0.002743530368 with dt = 0.0003197001524
Advancing grids at level 1 : starting time = 0.002743530368 with dt = 0.0003197001524
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.128654672  0.1220138938
max(abs(gpx/gpy/p)) = 28.70287076  55.85180289  48.05940122
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001093986
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.011108796
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008220503
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.137944628  0.1296327201
max(abs(gpx/gpy/p)) = 28.70287076  55.85180289  48.05940122
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.137889146  0.1292380307
max(abs(gpx/gpy/p)) = 27.60685815  54.64910202  48.05940122
[Level 1 step 12] Advanced 3072 cells

mac_sync() on level 0

[STEP 6] Coarse TimeStep time: 0.152897788
[STEP 6] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 6 TIME = 0.00306323052 DT = 0.0006394003047

estTimeStep :: 
LEV = 0 UMAX = 1.151299332  0.344139048  
estimated timestep: dt = 0.001600793654
estTimeStep :: 
LEV = 1 UMAX = 1.137845295  0.1292488811  
estimated timestep: dt = 0.003433023818
Now regridding at level lbase = 0
grid_places() time: 0.000215018 new finest: 1
STEP = 6 TIME = 0.00306323052 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 7] ADVANCE at time 0.00306323052 with dt = 0.0007033403352
Advancing grids at level 0 : starting time = 0.00306323052 with dt = 0.0007033403352
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.151299332  0.344139048
max(abs(gpx/gpy/p)) = 3048.732514  2366.837993  179.1898631
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001502745
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.012200058
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.014127804
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.158266034  0.3519427558
max(abs(gpx/gpy/p)) = 3048.732514  2366.837993  179.1898631
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.15758392  0.3484091446
max(abs(gpx/gpy/p)) = 2954.331798  2293.897613  174.9863654
[Level 0 step 7] Advanced 8192 cells
[Level 1 step 13] ADVANCE at time 0.00306323052 with dt = 0.0003516701676
Advancing grids at level 1 : starting time = 0.00306323052 with dt = 0.0003516701676
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.137845295  0.1292488811
max(abs(gpx/gpy/p)) = 27.62526931  55.46001662  48.05038084
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001109486
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.01090255
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008438944
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.145196958  0.1370232571
max(abs(gpx/gpy/p)) = 27.62526931  55.46001662  48.05038084
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.144824815  0.136744425
max(abs(gpx/gpy/p)) = 26.41802193  54.18322499  45.67713377
[Level 1 step 13] Advanced 3072 cells
[Level 1 step 14] ADVANCE at time 0.003414900688 with dt = 0.0003516701676
Advancing grids at level 1 : starting time = 0.003414900688 with dt = 0.0003516701676
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.144824815  0.136744425
max(abs(gpx/gpy/p)) = 26.41802193  54.18322499  45.67713377
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001109919
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.011083777
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008304051
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.153090201  0.1440180366
max(abs(gpx/gpy/p)) = 26.41802193  54.18322499  45.67713377
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.153062502  0.143885279
max(abs(gpx/gpy/p)) = 25.91413727  53.29179778  45.67713377
[Level 1 step 14] Advanced 3072 cells

mac_sync() on level 0

[STEP 7] Coarse TimeStep time: 0.154702201
[STEP 7] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 7 TIME = 0.003766570856 DT = 0.0007033403352

estTimeStep :: 
LEV = 0 UMAX = 1.15757859  0.3484038347  
estimated timestep: dt = 0.001626167582
estTimeStep :: 
LEV = 1 UMAX = 1.153028887  0.1438134365  
estimated timestep: dt = 0.00338781625
Now regridding at level lbase = 0
grid_places() time: 0.000233329 new finest: 1
STEP = 7 TIME = 0.003766570856 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 8] ADVANCE at time 0.003766570856 with dt = 0.0007736743687
Advancing grids at level 0 : starting time = 0.003766570856 with dt = 0.0007736743687
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.15757859  0.3484038347
max(abs(gpx/gpy/p)) = 2954.33291  2293.894016  174.9896554
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001478778
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.012325789
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.014072708
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.17343575  0.3546929166
max(abs(gpx/gpy/p)) = 2954.33291  2293.894016  174.9896554
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.171690166  0.3524138799
max(abs(gpx/gpy/p)) = 2869.072714  2229.173497  169.0767357
[Level 0 step 8] Advanced 8192 cells
[Level 1 step 15] ADVANCE at time 0.003766570856 with dt = 0.0003868371844
Advancing grids at level 1 : starting time = 0.003766570856 with dt = 0.0003868371844
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.153028887  0.1438134365
max(abs(gpx/gpy/p)) = 25.96210716  54.60228977  45.67831802
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001066786
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.011125988
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008024075
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.159834484  0.1513450554
max(abs(gpx/gpy/p)) = 25.96210716  54.60228977  45.67831802
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.159083914  0.1510170703
max(abs(gpx/gpy/p)) = 24.36243542  53.30178107  41.50500958
[Level 1 step 15] Advanced 3072 cells
[Level 1 step 16] ADVANCE at time 0.00415340804 with dt = 0.0003868371844
Advancing grids at level 1 : starting time = 0.00415340804 with dt = 0.0003868371844
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.159083914  0.1510170703
max(abs(gpx/gpy/p)) = 24.36243542  53.30178107  41.50500958
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001168781
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010943269
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008375349
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.166505701  0.1581632969
max(abs(gpx/gpy/p)) = 24.36243542  53.30178107  41.50500958
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.166466987  0.1579638578
max(abs(gpx/gpy/p)) = 23.77052255  52.66411814  41.50500958
[Level 1 step 16] Advanced 3072 cells

mac_sync() on level 0

[STEP 8] Coarse TimeStep time: 0.153689571
[STEP 8] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 8 TIME = 0.004540245224 DT = 0.0007736743687

estTimeStep :: 
LEV = 0 UMAX = 1.171690162  0.3524144988  
estimated timestep: dt = 0.001650153117
estTimeStep :: 
LEV = 1 UMAX = 1.166499137  0.1579579272  
estimated timestep: dt = 0.003348695147
Now regridding at level lbase = 0
grid_places() time: 0.000217465 new finest: 1
STEP = 8 TIME = 0.004540245224 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 9] ADVANCE at time 0.004540245224 with dt = 0.0008510418056
Advancing grids at level 0 : starting time = 0.004540245224 with dt = 0.0008510418056
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.171690162  0.3524144988
max(abs(gpx/gpy/p)) = 2869.072627  2229.173797  169.0748589
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001698173
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.010867593
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.014092286
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.190427753  0.3573103665
max(abs(gpx/gpy/p)) = 2869.072627  2229.173797  169.0748589
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.189466867  0.354831381
max(abs(gpx/gpy/p)) = 2792.656347  2170.307122  165.546593
[Level 0 step 9] Advanced 8192 cells
[Level 1 step 17] ADVANCE at time 0.004540245224 with dt = 0.0004255209028
Advancing grids at level 1 : starting time = 0.004540245224 with dt = 0.0004255209028
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.166499137  0.1579579272
max(abs(gpx/gpy/p)) = 23.80633741  53.63944038  41.50237753
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001067667
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010085711
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008145484
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.172556388  0.165276305
max(abs(gpx/gpy/p)) = 23.80633741  53.63944038  41.50237753
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.172165064  0.1651042864
max(abs(gpx/gpy/p)) = 22.93966551  52.99059162  39.44928088
[Level 1 step 17] Advanced 3072 cells
[Level 1 step 18] ADVANCE at time 0.004965766127 with dt = 0.0004255209028
Advancing grids at level 1 : starting time = 0.004965766127 with dt = 0.0004255209028
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.172165064  0.1651042864
max(abs(gpx/gpy/p)) = 22.93966551  52.99059162  39.44928088
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001151006
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.009756184
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008409733
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.178625121  0.1719076254
max(abs(gpx/gpy/p)) = 22.93966551  52.99059162  39.44928088
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.178515235  0.1718344392
max(abs(gpx/gpy/p)) = 22.70071667  52.54095049  39.44928088
[Level 1 step 18] Advanced 3072 cells

mac_sync() on level 0

[STEP 9] Coarse TimeStep time: 0.151960353
[STEP 9] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 9 TIME = 0.00539128703 DT = 0.0008510418056

estTimeStep :: 
LEV = 0 UMAX = 1.189466862  0.3548225811  
estimated timestep: dt = 0.001672577226
estTimeStep :: 
LEV = 1 UMAX = 1.178613707  0.1717992687  
estimated timestep: dt = 0.003314275047
Now regridding at level lbase = 0
grid_places() time: 0.000217723 new finest: 1
STEP = 9 TIME = 0.00539128703 : REGRID  with lbase = 0
  Level 1   2 grids  3072 cells  9.375 % of domain
            smallest grid: 48 x 32  biggest grid: 48 x 32

[Level 0 step 10] ADVANCE at time 0.00539128703 with dt = 0.0009361459862
Advancing grids at level 0 : starting time = 0.00539128703 with dt = 0.0009361459862
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.189466862  0.3548225811
max(abs(gpx/gpy/p)) = 2792.657477  2170.303574  165.5497216
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 0, time: 0.001465329
... mac_projection
NavierStokesBase:mac_project(): lev: 0, time: 0.011992665
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 0, time: 0.014111911
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.209002787  0.3596335164
max(abs(gpx/gpy/p)) = 2792.657477  2170.303574  165.5497216
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.207692998  0.3568517127
max(abs(gpx/gpy/p)) = 2721.263173  2115.417891  161.5657736
[Level 0 step 10] Advanced 8192 cells
[Level 1 step 19] ADVANCE at time 0.00539128703 with dt = 0.0004680729931
Advancing grids at level 1 : starting time = 0.00539128703 with dt = 0.0004680729931
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.178613707  0.1717992687
max(abs(gpx/gpy/p)) = 22.73045148  53.63347818  39.45191643
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.0010728
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010992882
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.009240855
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.184892499  0.1787584548
max(abs(gpx/gpy/p)) = 22.73045148  53.63347818  39.45191643
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.184403139  0.1785867799
max(abs(gpx/gpy/p)) = 21.64496094  53.11103457  36.89389252
[Level 1 step 19] Advanced 3072 cells
[Level 1 step 20] ADVANCE at time 0.005859360023 with dt = 0.0004680729931
Advancing grids at level 1 : starting time = 0.005859360023 with dt = 0.0004680729931
NavierStokes::advance(): before velocity update:
max(abs(u/v))  = 1.184403139  0.1785867799
max(abs(gpx/gpy/p)) = 21.64496094  53.11103457  36.89389252
... predict edge velocities
NavierStokesBase::predict_velocity(): lev: 1, time: 0.001104709
... mac_projection
NavierStokesBase:mac_project(): lev: 1, time: 0.010887557
... advect scalars
... update scalars
... advect momenta
... update scalars
... update momenta 
NavierStokes:velocity_diffusion_update(): lev: 1, time: 0.008997956
NavierStokes::advance(): before nodal projection 
max(abs(u/v))  = 1.190728116  0.1850487316
max(abs(gpx/gpy/p)) = 21.64496094  53.11103457  36.89389252
NavierStokes::advance(): exiting.
max(abs(u/v))  = 1.190552334  0.1849574071
max(abs(gpx/gpy/p)) = 21.55734265  52.73663764  36.89389252
[Level 1 step 20] Advanced 3072 cells

mac_sync() on level 0

[STEP 10] Coarse TimeStep time: 0.154686761
[STEP 10] FAB kilobyte spread across MPI nodes: [4862 ... 4864]

STEP = 10 TIME = 0.006327433016 DT = 0.0009361459862

PLOTFILE: file = Poiseuille_2d_plt00010
Write plotfile time = 0.005719303  seconds

Run time = 1.715314849
AMReX (26.05-3-g4ceb814db7d7) finalized