Initializing CUDA...
CUDA initialized with 1 GPU
AMReX (19.12-131-gd8a5a7804d17) initialized
Calling Setup()
Calling ReadParameters()
 WARNING: burning_cutoff_density_lo not supplied in the inputs file
 WARNING: setting burning_cutoff_density_lo = base_cutoff_density
reading extern runtime parameters ...
 ERROR: problem in the namelist
Calling VariableSetup()
 Calling set_method_params()
 
 Initializing Helmholtz EOS and using Coulomb corrections.
 
Calling BCSetup()
 Calling init_base_state_geometry()
Calling Init()
Calling InitData()
                                                            
------------------------------------------------------------------------------
 reading initial model
          640 points found in the initial model file
            6  variables found in the initial model file
------------------------------------------------------------------------------
 model file mapping, level:        0
 dr of MAESTRO base state =                                 562500.0000
 dr of input file data =                                    562500.0000
 
 maximum radius (cell-centered) of input model =            359718750.0
  
 setting r_cutoff to           365
 radius at r_cutoff     205593750.0000000     
 
 Maximum HSE Error =     0.6051370840E-04
    (after putting initial model into base state arrays, and
     for density < base_cutoff_density)
------------------------------------------------------------------------------
 

Writing plotfile reacting_bubble-3d_pltInitData after InitData
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
Time to write plotfile: 0.969196636
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
Doing initial projection
Calling nodal solver
MLMG: Initial rhs               = 0
MLMG: Initial residual (resid0) = 0
MLMG: No iterations needed
MLMG: Timers: Solve = 0.017668735 Iter = 0 Bottom = 0
Done calling nodal solver

Writing plotfile reacting_bubble-3d_pltafter_InitProj after InitProj
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
Time to write plotfile: 0.931389065
Call to firstdt for level 0 gives dt_lev = 0.0004741795139
Multiplying dt_lev by init_shrink; dt_lev = 0.0004741795139
Minimum firstdt over all levels = 0.0004741795139
Doing initial divu iteration #1
Calling nodal solver
MLMG: Initial rhs               = 2054.812696
MLMG: Initial residual (resid0) = 2054.812696
MLMG: Final Iter. 8 resid, resid/bnorm = 8.000711205e-11, 3.893645012e-14
MLMG: Timers: Solve = 0.237897707 Iter = 0.224223741 Bottom = 0.124720448
Done calling nodal solver
Call to estdt for level 0 gives dt_lev = 0.1719927642
Minimum estdt over all levels = 0.1719927642
Call to estdt at end of istep_divu_iter = 1 gives dt = 0.1719927642
Multiplying dt by init_shrink; dt = 0.1719927642
Ignoring this new dt since it's larger than the previous dt = 0.0004741795139

Writing plotfile reacting_bubble-3d_pltafter_DivuIter after final DivuIter
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
Time to write plotfile: 0.881973986
Doing initial pressure iteration #1

Timestep 0 starts with TIME = 0 DT = 0.0004741795139

Cell Count:
Level 0, 1327104 cells
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
<<< STEP 1 : react state >>>
<<< STEP 2 : make w0 >>>
<<< STEP 3 : create MAC velocities >>>
MLMG: Initial rhs               = 2728630.345
MLMG: Initial residual (resid0) = 2728630.345
MLMG: Final Iter. 9 resid, resid/bnorm = 1.538777724e-05, 5.639377744e-12
MLMG: Timers: Solve = 0.256182924 Iter = 0.248322181 Bottom = 0.19132911
<<< 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               = 2728626.155
MLMG: Initial residual (resid0) = 8729.505837
MLMG: Final Iter. 5 resid, resid/bnorm = 0.0002248485689, 8.240358193e-11
MLMG: Timers: Solve = 0.132729036 Iter = 0.130351902 Bottom = 0.098942981
<<< 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               = 1.157552621e+10
MLMG: Initial residual (resid0) = 1.157552621e+10
MLMG: Final Iter. 8 resid, resid/bnorm = 0.0005188231589, 4.482069751e-14
MLMG: Timers: Solve = 0.212947489 Iter = 0.210330737 Bottom = 0.121455303
Done calling nodal solver

Timestep 0 ends with TIME = 0.0004741795139 DT = 0.0004741795139
Timing summary:
Advection  :2.557634419 seconds
MAC Proj   :0.544824094 seconds
Nodal Proj :0.254251049 seconds
Reactions  :0.215378898 seconds
Misc       :0.092765884 seconds
Base State :0.003040667 seconds
Time to advance time step: 3.664997619

Writing plotfile 0 after all initialization
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
Time to write plotfile: 0.95350349
Calling Evolve()

Timestep 1 starts with TIME = 0 DT = 0.0004741795139

Cell Count:
Level 0, 1327104 cells
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
<<< STEP 1 : react state >>>
<<< STEP 2 : make w0 >>>
<<< STEP 3 : create MAC velocities >>>
MLMG: Initial rhs               = 1308193.213
MLMG: Initial residual (resid0) = 1308193.213
MLMG: Final Iter. 8 resid, resid/bnorm = 0.0001218256948, 9.312515432e-11
MLMG: Timers: Solve = 0.21752613 Iter = 0.21515485 Bottom = 0.165179704
<<< 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               = 1308193.247
MLMG: Initial residual (resid0) = 0.981974332
MLMG: Final Iter. 4 resid, resid/bnorm = 3.557894888e-05, 2.719701311e-11
MLMG: Timers: Solve = 0.119114655 Iter = 0.116696659 Bottom = 0.091487462
<<< 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               = 5488884.015
MLMG: Initial residual (resid0) = 5488884.015
MLMG: Final Iter. 8 resid, resid/bnorm = 2.465083639e-07, 4.491047056e-14
MLMG: Timers: Solve = 0.214071385 Iter = 0.210947655 Bottom = 0.121782005
Done calling nodal solver

Timestep 1 ends with TIME = 0.0004741795139 DT = 0.0004741795139
Timing summary:
Advection  :2.519668211 seconds
MAC Proj   :0.481757054 seconds
Nodal Proj :0.255517611 seconds
Reactions  :0.214948797 seconds
Misc       :0.083504494 seconds
Base State :0.002892588 seconds
Time to advance time step: 3.555573351

Writing plotfile 1
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
Time to write plotfile: 1.064976825
Call to estdt for level 0 gives dt_lev = 0.2012294724
Minimum estdt over all levels = 0.2012294724

Timestep 2 starts with TIME = 0.0004741795139 DT = 0.0005215974653

Cell Count:
Level 0, 1327104 cells
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
<<< STEP 1 : react state >>>
<<< STEP 2 : make w0 >>>
<<< STEP 3 : create MAC velocities >>>
MLMG: Initial rhs               = 1417785.252
MLMG: Initial residual (resid0) = 1417785.252
MLMG: Final Iter. 8 resid, resid/bnorm = 0.0001351405663, 9.531807873e-11
MLMG: Timers: Solve = 0.212443069 Iter = 0.209937754 Bottom = 0.159971173
<<< 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               = 1417789.529
MLMG: Initial residual (resid0) = 60994.35243
MLMG: Final Iter. 6 resid, resid/bnorm = 3.051961039e-05, 2.152619254e-11
MLMG: Timers: Solve = 0.17006489 Iter = 0.16764605 Bottom = 0.129914638
<<< 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               = 6063790.017
MLMG: Initial residual (resid0) = 6063790.017
MLMG: Final Iter. 8 resid, resid/bnorm = 4.241415744e-07, 6.994661313e-14
MLMG: Timers: Solve = 0.205145004 Iter = 0.202540577 Bottom = 0.113422146
Done calling nodal solver

Timestep 2 ends with TIME = 0.0009957769792 DT = 0.0005215974653
Timing summary:
Advection  :2.502512952 seconds
MAC Proj   :0.526628834 seconds
Nodal Proj :0.244504197 seconds
Reactions  :0.206167963 seconds
Misc       :0.075119273 seconds
Base State :0.002665226 seconds
Time to advance time step: 3.555084832

Writing plotfile 2
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
Time to write plotfile: 0.892915237
Call to estdt for level 0 gives dt_lev = 0.2012849721
Minimum estdt over all levels = 0.2012849721

Timestep 3 starts with TIME = 0.0009957769792 DT = 0.0005737572118

Cell Count:
Level 0, 1327104 cells
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
<<< STEP 1 : react state >>>
<<< STEP 2 : make w0 >>>
<<< STEP 3 : create MAC velocities >>>
MLMG: Initial rhs               = 1588645.934
MLMG: Initial residual (resid0) = 1588645.934
MLMG: Final Iter. 8 resid, resid/bnorm = 0.0001497820485, 9.428283884e-11
MLMG: Timers: Solve = 0.218575856 Iter = 0.216126614 Bottom = 0.165996385
<<< 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               = 1588650.64
MLMG: Initial residual (resid0) = 22571.20547
MLMG: Final Iter. 6 resid, resid/bnorm = 3.305222526e-05, 2.08052195e-11
MLMG: Timers: Solve = 0.149373604 Iter = 0.147018805 Bottom = 0.109492233
<<< 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               = 6670311.018
MLMG: Initial residual (resid0) = 6670311.018
MLMG: Final Iter. 8 resid, resid/bnorm = 4.724146083e-07, 7.08234754e-14
MLMG: Timers: Solve = 0.205460855 Iter = 0.202824044 Bottom = 0.11372582
Done calling nodal solver

Timestep 3 ends with TIME = 0.001569534191 DT = 0.0005737572118
Timing summary:
Advection  :2.507440753 seconds
MAC Proj   :0.516881483 seconds
Nodal Proj :0.245492068 seconds
Reactions  :0.206543817 seconds
Misc       :0.073484734 seconds
Base State :0.003612299 seconds
Time to advance time step: 3.549992392

Writing plotfile 3
inner sponge: r_sp      , r_tp      :   0.186468750000E+09    0.224718750000E+09
 
Time to write plotfile: 0.902804018

Total Time: 59.42536674
Unused ParmParse Variables:
  [TOP]::maestro.v(nvals = 1)  :: [1]
  [TOP]::amr.ref_ratio(nvals = 6)  :: [2, 2, 2, 2, 2, 2]
  [TOP]::system.regtest_reduction(nvals = 1)  :: [1]
  [TOP]::amr.check_file(nvals = 1)  :: [reacting_bubble-3d_chk]
  [TOP]::amr.checkpoint_files_output(nvals = 1)  :: [0]

Total GPU global memory (MB): 12066
Free  GPU global memory (MB): 7947
[The         Arena] space (MB): 9049
[The  Device Arena] space (MB): 8
[The Managed Arena] space (MB): 8
[The  Pinned Arena] space (MB): 8
AMReX (19.12-131-gd8a5a7804d17) finalized