MPI initialized with 16 MPI processes
MPI initialized with thread support level 0
AMReX (22.05-4-gef52970b80e3) initialized
Calling Setup()
Calling ReadParameters()
reading extern runtime parameters ...
Calling VariableSetup()
Calling BCSetup()
Calling BaseStateGeometry::Init()
Calling Init()
Calling InitData()
initdata model_File = kepler_new_6.25e8.hybrid.hse.320
model file = kepler_new_6.25e8.hybrid.hse.320


reading initial model
320 points found in the initial model
6 variables found in the initial model
WARNING: variable not found: ash
WARNING: magnesium-24 not provided in inputs file
model file mapping (spherical base state)
dr of MAESTRO base state =                            781250.000000
dr of input file data =                               1562500.000000

maximum radius (cell-centered) of input model =       499218750.000000
 
setting r_cutoff to 239
radius at r_cutoff 187109375

Maximum HSE Error = 0.002311
(after putting initial model into base state arrays, and
for density < base_cutoff_density)


Writing plotfile wdconvect-amr_pltInitData after InitData
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
Time to write plotfile: 0.869486151
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
Doing initial projection
Calling nodal solver
MLMG: Initial rhs               = 268163993.9
MLMG: Initial residual (resid0) = 268163993.9
MLMG: Final Iter. 4 resid, resid/bnorm = 0.02412558719, 8.996579606e-11
MLMG: Timers: Solve = 0.133889187 Iter = 0.127280161 Bottom = 0.00013206
Done calling nodal solver

Writing plotfile wdconvect-amr_pltafter_InitProj after InitProj
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
Time to write plotfile: 0.840831128
Call to firstdt for level 0 gives dt_lev = 0.005789736987
Multiplying dt_lev by init_shrink; dt_lev = 0.0005789736987
Call to firstdt for level 1 gives dt_lev = 0.002885750885
Multiplying dt_lev by init_shrink; dt_lev = 0.0002885750885
Minimum firstdt over all levels = 0.0002885750885
Doing initial divu iteration #1
Calling nodal solver
MLMG: Initial rhs               = 100896162.8
MLMG: Initial residual (resid0) = 100896162.8
MLMG: Final Iter. 2 resid, resid/bnorm = 1.0877371, 1.078075786e-08
MLMG: Timers: Solve = 0.071015918 Iter = 0.064339827 Bottom = 7.6707e-05
Done calling nodal solver
Call to estdt for level 0 gives dt_lev = 21.60061365
Call to estdt for level 1 gives dt_lev = 8.768319833
Minimum estdt over all levels = 8.768319833
Call to estdt at end of istep_divu_iter = 1 gives dt = 8.768319833
Multiplying dt by init_shrink; dt = 0.8768319833
Ignoring this new dt since it's larger than the previous dt = 0.0002885750885
Doing initial divu iteration #2
Calling nodal solver
MLMG: Initial rhs               = 49401163.56
MLMG: Initial residual (resid0) = 49401163.56
MLMG: Final Iter. 2 resid, resid/bnorm = 0.01941315737, 3.929696381e-10
MLMG: Timers: Solve = 0.072135886 Iter = 0.065865745 Bottom = 7.1528e-05
Done calling nodal solver
Call to estdt for level 0 gives dt_lev = 21.60061365
Call to estdt for level 1 gives dt_lev = 8.962173237
Minimum estdt over all levels = 8.962173237
Call to estdt at end of istep_divu_iter = 2 gives dt = 8.962173237
Multiplying dt by init_shrink; dt = 0.8962173237
Ignoring this new dt since it's larger than the previous dt = 0.0002885750885
Doing initial divu iteration #3
Calling nodal solver
MLMG: Initial rhs               = 29021861.06
MLMG: Initial residual (resid0) = 29021861.06
MLMG: Final Iter. 3 resid, resid/bnorm = 0.001475477256, 5.084020122e-11
MLMG: Timers: Solve = 0.105378098 Iter = 0.099000673 Bottom = 0.000108905
Done calling nodal solver
Call to estdt for level 0 gives dt_lev = 21.60061365
Call to estdt for level 1 gives dt_lev = 9.055395363
Minimum estdt over all levels = 9.055395363
Call to estdt at end of istep_divu_iter = 3 gives dt = 9.055395363
Multiplying dt by init_shrink; dt = 0.9055395363
Ignoring this new dt since it's larger than the previous dt = 0.0002885750885

Writing plotfile wdconvect-amr_pltafter_DivuIter after final DivuIter
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
Time to write plotfile: 0.858533593
Doing initial pressure iteration #1

Timestep 0 starts with TIME = 0 DT = 0.0002885750885

Cell Count:
Level 0, 262144 cells
Level 1, 304128 cells
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
<<< STEP 1 : react state >>>
<<< STEP 2 : make w0 >>>
<<< STEP 3 : create MAC velocities >>>
MLMG: Initial rhs               = 264654273.2
MLMG: Initial residual (resid0) = 264654273.2
MLMG: Final Iter. 18 resid, resid/bnorm = 0.2302265465, 8.699143367e-10
MLMG: Timers: Solve = 0.20076532 Iter = 0.192109213 Bottom = 0.000793819
<<< STEP 4 : advect base >>>
            :  density_advance >>>
            :   tracer_advance >>>
            : enthalpy_advance >>>
<<< STEP 4a: thermal conduct >>>
<<< STEP 5 : react state >>>
<<< STEP 6 : make new S and new w0 >>>
<<< STEP 7 : create MAC velocities >>>
MLMG: Initial rhs               = 264654273.6
MLMG: Initial residual (resid0) = 4905.658146
MLMG: Final Iter. 2 resid, resid/bnorm = 0.1966268085, 7.429572394e-10
MLMG: Timers: Solve = 0.029725045 Iter = 0.022845595 Bottom = 9.4691e-05
<<< STEP 8 : advect base >>>
            :  density_advance >>>
            :   tracer_advance >>>
            : enthalpy_advance >>>
<<< STEP 8a: thermal conduct >>>
<<< STEP 9 : react state >>>
<<< STEP 10: make new S >>>
<<< STEP 11: update and project new velocity >>>
Calling nodal solver
MLMG: Initial rhs               = 14853656.22
MLMG: Initial residual (resid0) = 14853656.22
MLMG: Final Iter. 12 resid, resid/bnorm = 0.001020116484, 6.867780353e-11
MLMG: Timers: Solve = 0.392668763 Iter = 0.38648797 Bottom = 0.000400371
Done calling nodal solver

Timestep 0 ends with TIME = 0.0002885750885 DT = 0.0002885750885
Timing summary:
Advection  :1.279830575 seconds
MAC Proj   :0.264802196 seconds
Nodal Proj :0.450802332 seconds
Reactions  :1.077138327 seconds
Misc       :0.259289556 seconds
Base State :0.007755019 seconds
Time to advance time step: 3.363351278

Writing plotfile 0 after all initialization
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
Time to write plotfile: 0.860134673
Calling Evolve()

Timestep 1 starts with TIME = 0 DT = 0.0002885750885

Cell Count:
Level 0, 262144 cells
Level 1, 304128 cells
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
<<< STEP 1 : react state >>>
<<< STEP 2 : make w0 >>>
<<< STEP 3 : create MAC velocities >>>
MLMG: Initial rhs               = 264654210.1
MLMG: Initial residual (resid0) = 264654210.1
MLMG: Final Iter. 18 resid, resid/bnorm = 0.2303603739, 8.704202126e-10
MLMG: Timers: Solve = 0.197678111 Iter = 0.190930326 Bottom = 0.000798682
<<< STEP 4 : advect base >>>
            :  density_advance >>>
            :   tracer_advance >>>
            : enthalpy_advance >>>
<<< STEP 4a: thermal conduct >>>
<<< STEP 5 : react state >>>
<<< STEP 6 : make new S and new w0 >>>
<<< STEP 7 : create MAC velocities >>>
MLMG: Initial rhs               = 264654209.9
MLMG: Initial residual (resid0) = 7.118484562
MLMG: Final Iter. 2 resid, resid/bnorm = 0.224353889, 8.477246179e-10
MLMG: Timers: Solve = 0.029232728 Iter = 0.022609264 Bottom = 9.286e-05
<<< STEP 8 : advect base >>>
            :  density_advance >>>
            :   tracer_advance >>>
            : enthalpy_advance >>>
<<< STEP 8a: thermal conduct >>>
<<< STEP 9 : react state >>>
<<< STEP 10: make new S >>>
<<< STEP 11: update and project new velocity >>>
Calling nodal solver
MLMG: Initial rhs               = 19692713.44
MLMG: Initial residual (resid0) = 19692713.44
MLMG: Final Iter. 5 resid, resid/bnorm = 0.001148470805, 5.831958146e-11
MLMG: Timers: Solve = 0.166730291 Iter = 0.160188977 Bottom = 0.000166599
Done calling nodal solver

Timestep 1 ends with TIME = 0.0002885750885 DT = 0.0002885750885
Timing summary:
Advection  :1.26341448 seconds
MAC Proj   :0.260866667 seconds
Nodal Proj :0.224817611 seconds
Reactions  :1.060425168 seconds
Misc       :0.257149293 seconds
Base State :0.006438928 seconds
Time to advance time step: 3.098833456

Writing plotfile 1
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
Time to write plotfile: 0.856352453
Call to estdt for level 0 gives dt_lev = 3.005532368
Call to estdt for level 1 gives dt_lev = 0.6541868509
Minimum estdt over all levels = 0.6541868509
Call to estdt at beginning of step 2 gives dt =0.6541868509
dt_growth factor limits the new dt = 0.0003174325974

Timestep 2 starts with TIME = 0.0002885750885 DT = 0.0003174325974

Cell Count:
Level 0, 262144 cells
Level 1, 304128 cells
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
<<< STEP 1 : react state >>>
<<< STEP 2 : make w0 >>>
<<< STEP 3 : create MAC velocities >>>
MLMG: Initial rhs               = 263576941.2
MLMG: Initial residual (resid0) = 263576941.2
MLMG: Final Iter. 5 resid, resid/bnorm = 0.1795081068, 6.810463237e-10
MLMG: Timers: Solve = 0.060914407 Iter = 0.054231516 Bottom = 0.000237976
<<< STEP 4 : advect base >>>
            :  density_advance >>>
            :   tracer_advance >>>
            : enthalpy_advance >>>
<<< STEP 4a: thermal conduct >>>
<<< STEP 5 : react state >>>
<<< STEP 6 : make new S and new w0 >>>
<<< STEP 7 : create MAC velocities >>>
MLMG: Initial rhs               = 263576941
MLMG: Initial residual (resid0) = 2.058338182
MLMG: Final Iter. 1 resid, resid/bnorm = 0.01911453744, 7.251976357e-11
MLMG: Timers: Solve = 0.018989128 Iter = 0.012281967 Bottom = 4.7028e-05
<<< STEP 8 : advect base >>>
            :  density_advance >>>
            :   tracer_advance >>>
            : enthalpy_advance >>>
<<< STEP 8a: thermal conduct >>>
<<< STEP 9 : react state >>>
<<< STEP 10: make new S >>>
<<< STEP 11: update and project new velocity >>>
Calling nodal solver
MLMG: Initial rhs               = 14829531.17
MLMG: Initial residual (resid0) = 14829531.17
MLMG: Final Iter. 6 resid, resid/bnorm = 0.000886509195, 5.977998796e-11
MLMG: Timers: Solve = 0.197525154 Iter = 0.191062023 Bottom = 0.000200374
Done calling nodal solver

Timestep 2 ends with TIME = 0.0006060076859 DT = 0.0003174325974
Timing summary:
Advection  :1.268609225 seconds
MAC Proj   :0.114242472 seconds
Nodal Proj :0.255507629 seconds
Reactions  :1.057656617 seconds
Misc       :0.254373053 seconds
Base State :0.006386087 seconds
Time to advance time step: 2.950898519

Writing plotfile 2
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
Time to write plotfile: 0.861210002
Time to regrid: 0.143270438
Call to estdt for level 0 gives dt_lev = 4.022395535
Call to estdt for level 1 gives dt_lev = 0.8210386917
Minimum estdt over all levels = 0.8210386917
Call to estdt at beginning of step 3 gives dt =0.8210386917
dt_growth factor limits the new dt = 0.0003491758571

Timestep 3 starts with TIME = 0.0006060076859 DT = 0.0003491758571

Cell Count:
Level 0, 262144 cells
Level 1, 304128 cells
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
<<< STEP 1 : react state >>>
<<< STEP 2 : make w0 >>>
<<< STEP 3 : create MAC velocities >>>
MLMG: Initial rhs               = 263106341.3
MLMG: Initial residual (resid0) = 263106341.3
MLMG: Final Iter. 5 resid, resid/bnorm = 0.1839967463, 6.993246359e-10
MLMG: Timers: Solve = 0.062404888 Iter = 0.055604916 Bottom = 0.000235029
<<< STEP 4 : advect base >>>
            :  density_advance >>>
            :   tracer_advance >>>
            : enthalpy_advance >>>
<<< STEP 4a: thermal conduct >>>
<<< STEP 5 : react state >>>
<<< STEP 6 : make new S and new w0 >>>
<<< STEP 7 : create MAC velocities >>>
MLMG: Initial rhs               = 263106341.1
MLMG: Initial residual (resid0) = 0.2658861283
MLMG: Final Iter. 1 resid, resid/bnorm = 0.01665997318, 6.33203028e-11
MLMG: Timers: Solve = 0.018998216 Iter = 0.012230532 Bottom = 4.4853e-05
<<< STEP 8 : advect base >>>
            :  density_advance >>>
            :   tracer_advance >>>
            : enthalpy_advance >>>
<<< STEP 8a: thermal conduct >>>
<<< STEP 9 : react state >>>
<<< STEP 10: make new S >>>
<<< STEP 11: update and project new velocity >>>
Calling nodal solver
MLMG: Initial rhs               = 12313408.17
MLMG: Initial residual (resid0) = 12313408.17
MLMG: Final Iter. 6 resid, resid/bnorm = 0.0005823621752, 4.729496229e-11
MLMG: Timers: Solve = 0.203030145 Iter = 0.196593536 Bottom = 0.000193737
Done calling nodal solver

Timestep 3 ends with TIME = 0.0009551835431 DT = 0.0003491758571
Timing summary:
Advection  :1.278450376 seconds
MAC Proj   :0.115635205 seconds
Nodal Proj :0.262026775 seconds
Reactions  :1.059443101 seconds
Misc       :0.255855237 seconds
Base State :0.006071101 seconds
Time to advance time step: 2.9719453

Writing plotfile 3
inner sponge: r_sp      , r_tp      : 151953125, 183203125
outer sponge: r_sp_outer, r_tp_outer: 183203125, 198828125
Time to write plotfile: 0.865422484

Total Time: 22.1956208
Unused ParmParse Variables:
  [TOP]::maestro.v(nvals = 1)  :: [1]
  [TOP]::amr.check_file(nvals = 1)  :: [wdconvect-amr_chk]
  [TOP]::amr.checkpoint_files_output(nvals = 1)  :: [0]

AMReX (22.05-4-gef52970b80e3) finalized