MPI initialized with 16 MPI processes MPI initialized with thread support level 3 AMReX (22.05-3-gdf9b6944a6d5) initialized Starting run at 13:51:07 UTC on 2022-05-03. Successfully read inputs file ... Castro git describe: 22.05-5-gdd79b4ecf AMReX git describe: 22.05-3-gdf9b6944a Microphysics git describe: 22.05 radiation initialized, nGroups = 1 reading extern runtime parameters ... 1 Species: X 2 Auxiliary Variables: Ye invmu Radiation::nGroups = 1 Successfully read inputs file ... reading initial model 514 points found in the initial model 5 variables found in the initial model file [WARNING] pressure not provided in inputs file [WARNING] X not provided in inputs file Castro::numpts_1d at level 0 is 102400 Setting the gravity type to MonopoleGrav Creating Radiation object processors = 16 do_sync = 1 c = 2.99792458e+10 sigma = 5.670373e-05 reltol = 1e-14 abstol = 0 maxiter = 1000 relInTol = 0.0001 absInTol = 0 maxInIter = 30 delta_e_rat_dt_tol = 100 delta_T_rat_dt_tol = 100 limiter = 2 closure = 3 update_limiter = -1000 update_planck = 1000 update_rosseland = 1000 delta_temp = 1 underfac = 1 do_multigroup = 0 accelerate = 1 verbose = 2 SolverType = 5: SGFLDSolver rad_hydro_combined = 1 comoving = 1 dimension 0 rad boundary conditions = 102, 105 Regridding radiation object at level 0... done habec.verbose = 2 habec.verbose_threshold = 0 Initializing the data at level 0 Done initializing the level 0 data ...estimated hydro-limited timestep at level 0: 0.7495128758 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7495128758 Integrated Fluid Mass is 3.0740189765079475018e+34 Integrated Fluid Energy is 1.6663534745013364571e+51 Integrated Radiant Energy is 7.224537638575664414e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3888072383589029816e+51 TIME= 0 MASS = 3.074018977e+34 TIME= 0 XMOM = 9.459713812e+42 TIME= 0 YMOM = 0 TIME= 0 ZMOM = 0 TIME= 0 ANG MOM X = 0 TIME= 0 ANG MOM Y = 0 TIME= 0 ANG MOM Z = 0 TIME= 0 RHO*e = 4.859599249e+49 TIME= 0 RHO*K = 1.617757482e+51 TIME= 0 RHO*E = 1.666353475e+51 TIME= 0 RHO*PHI = 0 TIME= 0 TOTAL ENERGY= 1.666353475e+51 INITIAL GRIDS Level 0 1600 grids 102400 cells 100 % of domain smallest grid: 64 biggest grid: 64 PLOTFILE: file = rad-breakout_plt00000 Write plotfile time = 0.23186725 seconds ...estimated hydro-limited timestep at level 0: 0.7495128758 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7495128758 [Level 0 step 1] ADVANCE with dt = 0.007495128758 Radiation flux initialization at level 0... done  Beginning subcycle 1 starting at time 0 with dt = 0.007495128758 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.0008079210002 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.010769466 Castro::do_new_sources() time = 0.001387076 ...estimated hydro-limited timestep at level 0: 0.7495119751 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7495119751  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.2082407008546473772e-16 Radiation Update: Iteration 1, Relative = 0.014259411811041251134 Absolute = 84051175491.34375 1 Hypre Multigrid Iterations, Relative Residual 1.1742433323566759717e-16 Radiation Update: Iteration 2, Relative = 0.0002968527522951888817 Absolute = 1430710288.03125 1 Hypre Multigrid Iterations, Relative Residual 1.1965042711092636025e-16 Radiation Update: Iteration 3, Relative = 1.2280553785157421774e-07 Absolute = 591697.359375 1 Hypre Multigrid Iterations, Relative Residual 1.2141445878584696918e-16 Radiation Update: Iteration 4, Relative = 4.621184033011546505e-14 Absolute = 0.22265625 1 Hypre Multigrid Iterations, Relative Residual 1.2130221063949858823e-16 Radiation Update: Iteration 5, Relative = 5.2896569182723218586e-16 Absolute = 0.0078125 done Zones advanced per microsecond at this level: 0.587685163 [Level 0 step 1] Advanced 102400 cells TIME= 0.007495128758 MASS = 3.074039623e+34 TIME= 0.007495128758 XMOM = 9.459767607e+42 TIME= 0.007495128758 YMOM = 0 TIME= 0.007495128758 ZMOM = 0 TIME= 0.007495128758 ANG MOM X = 0 TIME= 0.007495128758 ANG MOM Y = 0 TIME= 0.007495128758 ANG MOM Z = 0 TIME= 0.007495128758 RHO*e = 4.859824418e+49 TIME= 0.007495128758 RHO*K = 1.617732946e+51 TIME= 0.007495128758 RHO*E = 1.66633119e+51 TIME= 0.007495128758 RHO*PHI = 0 TIME= 0.007495128758 TOTAL ENERGY= 1.66633119e+51 Integrated Fluid Mass is 3.0740396233079208705e+34 Integrated Fluid Energy is 1.6663311900035592261e+51 Integrated Radiant Energy is 7.2245059474548269844e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3887817847490420076e+51 [STEP 1] Coarse TimeStep time: 0.177428524 [STEP 1] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 1 TIME = 0.007495128758 DT = 0.007495128758 ...estimated hydro-limited timestep at level 0: 0.7508050328 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7508050328 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.7508050328 ... but limiting to: 0.007869885196 = 1.05 * 0.007495128758 [Level 0 step 2] ADVANCE with dt = 0.007869885196  Beginning subcycle 1 starting at time 0.007495128758 with dt = 0.007869885196 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.001227251 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.010753983 Castro::do_new_sources() time = 0.001242305 ...estimated hydro-limited timestep at level 0: 0.7508075115 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7508075115  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.2082656463924144434e-16 Radiation Update: Iteration 1, Relative = 0.013713445717232802118 Absolute = 80451595545.8046875 1 Hypre Multigrid Iterations, Relative Residual 1.0949604411117857437e-16 Radiation Update: Iteration 2, Relative = 0.0002740185331275877623 Absolute = 1329809221.2294921875 1 Hypre Multigrid Iterations, Relative Residual 1.1438178215594193646e-16 Radiation Update: Iteration 3, Relative = 1.0462477092325043923e-07 Absolute = 507603.84375 1 Hypre Multigrid Iterations, Relative Residual 1.13024380518193618e-16 Radiation Update: Iteration 4, Relative = 3.643244196091480537e-14 Absolute = 0.1767578125 1 Hypre Multigrid Iterations, Relative Residual 1.1364641728116506627e-16 Radiation Update: Iteration 5, Relative = 5.6669519218008909195e-16 Absolute = 0.01171875 done Zones advanced per microsecond at this level: 0.6082688784 [Level 0 step 2] Advanced 102400 cells TIME= 0.01536501395 MASS = 3.07406027e+34 TIME= 0.01536501395 XMOM = 9.459821661e+42 TIME= 0.01536501395 YMOM = 0 TIME= 0.01536501395 ZMOM = 0 TIME= 0.01536501395 ANG MOM X = 0 TIME= 0.01536501395 ANG MOM Y = 0 TIME= 0.01536501395 ANG MOM Z = 0 TIME= 0.01536501395 RHO*e = 4.859995749e+49 TIME= 0.01536501395 RHO*K = 1.617709491e+51 TIME= 0.01536501395 RHO*E = 1.666309449e+51 TIME= 0.01536501395 RHO*PHI = 0 TIME= 0.01536501395 TOTAL ENERGY= 1.666309449e+51 Integrated Fluid Mass is 3.0740602699514082034e+34 Integrated Fluid Energy is 1.6663094485755660691e+51 Integrated Radiant Energy is 7.2244719371304632701e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3887566422886123961e+51 [STEP 2] Coarse TimeStep time: 0.171711085 [STEP 2] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 2 TIME = 0.01536501395 DT = 0.007869885196 ...estimated hydro-limited timestep at level 0: 0.7515947191 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7515947191 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.7515947191 ... but limiting to: 0.008263379456 = 1.05 * 0.007869885196 [Level 0 step 3] ADVANCE with dt = 0.008263379456  Beginning subcycle 1 starting at time 0.01536501395 with dt = 0.008263379456 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.0008529039997 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.010876526 Castro::do_new_sources() time = 0.001183276 ...estimated hydro-limited timestep at level 0: 0.7515919433 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7515919433  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.0522196064123282612e-16 Radiation Update: Iteration 1, Relative = 0.013177653028922388032 Absolute = 77567282389.015625 1 Hypre Multigrid Iterations, Relative Residual 1.1006144928938404394e-16 Radiation Update: Iteration 2, Relative = 0.00025244835933483522226 Absolute = 1239543985.69140625 1 Hypre Multigrid Iterations, Relative Residual 1.0774331643376938399e-16 Radiation Update: Iteration 3, Relative = 8.8758021823126557196e-08 Absolute = 435699.79296875 1 Hypre Multigrid Iterations, Relative Residual 1.0654944863711539874e-16 Radiation Update: Iteration 4, Relative = 2.92440607557804631e-14 Absolute = 0.1435546875 1 Hypre Multigrid Iterations, Relative Residual 1.0619224152542581441e-16 Radiation Update: Iteration 5, Relative = 6.5069645980301211266e-16 Absolute = 0.01171875 done Zones advanced per microsecond at this level: 0.6038026856 [Level 0 step 3] Advanced 102400 cells TIME= 0.02362839341 MASS = 3.074080916e+34 TIME= 0.02362839341 XMOM = 9.459875987e+42 TIME= 0.02362839341 YMOM = 0 TIME= 0.02362839341 ZMOM = 0 TIME= 0.02362839341 ANG MOM X = 0 TIME= 0.02362839341 ANG MOM Y = 0 TIME= 0.02362839341 ANG MOM Z = 0 TIME= 0.02362839341 RHO*e = 4.860149014e+49 TIME= 0.02362839341 RHO*K = 1.617686761e+51 TIME= 0.02362839341 RHO*E = 1.666288252e+51 TIME= 0.02362839341 RHO*PHI = 0 TIME= 0.02362839341 TOTAL ENERGY= 1.666288252e+51 Integrated Fluid Mass is 3.0740809164306009936e+34 Integrated Fluid Energy is 1.6662882515063502473e+51 Integrated Radiant Energy is 7.224436033114556606e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3887318548178058249e+51 [STEP 3] Coarse TimeStep time: 0.17284058 [STEP 3] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 3 TIME = 0.02362839341 DT = 0.008263379456 ...estimated hydro-limited timestep at level 0: 0.7522052325 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7522052325 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.7522052325 ... but limiting to: 0.008676548428 = 1.05 * 0.008263379456 [Level 0 step 4] ADVANCE with dt = 0.008676548428  Beginning subcycle 1 starting at time 0.02362839341 with dt = 0.008676548428 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.0008178600001 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.010835023 Castro::do_new_sources() time = 0.001034818 ...estimated hydro-limited timestep at level 0: 0.7522031422 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7522031422  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.1020740990041244216e-16 Radiation Update: Iteration 1, Relative = 0.01266325287639999235 Absolute = 75028161552.79296875 1 Hypre Multigrid Iterations, Relative Residual 1.0886921402211294762e-16 Radiation Update: Iteration 2, Relative = 0.00023260848143477117866 Absolute = 1155394635.853515625 1 Hypre Multigrid Iterations, Relative Residual 1.0403969919871527777e-16 Radiation Update: Iteration 3, Relative = 7.5318614961274468278e-08 Absolute = 374029.7041015625 1 Hypre Multigrid Iterations, Relative Residual 1.0419212724099349323e-16 Radiation Update: Iteration 4, Relative = 2.3204825925493309014e-14 Absolute = 0.115234375 1 Hypre Multigrid Iterations, Relative Residual 1.0420507452125892435e-16 Radiation Update: Iteration 5, Relative = 5.5992483244049006139e-16 Absolute = 0.01171875 done Zones advanced per microsecond at this level: 0.6070214791 [Level 0 step 4] Advanced 102400 cells TIME= 0.03230494184 MASS = 3.074101563e+34 TIME= 0.03230494184 XMOM = 9.459930598e+42 TIME= 0.03230494184 YMOM = 0 TIME= 0.03230494184 ZMOM = 0 TIME= 0.03230494184 ANG MOM X = 0 TIME= 0.03230494184 ANG MOM Y = 0 TIME= 0.03230494184 ANG MOM Z = 0 TIME= 0.03230494184 RHO*e = 4.860290539e+49 TIME= 0.03230494184 RHO*K = 1.617664618e+51 TIME= 0.03230494184 RHO*E = 1.666267523e+51 TIME= 0.03230494184 RHO*PHI = 0 TIME= 0.03230494184 TOTAL ENERGY= 1.666267523e+51 Integrated Fluid Mass is 3.0741015627372802945e+34 Integrated Fluid Energy is 1.6662675233419625746e+51 Integrated Radiant Energy is 7.224398353999639117e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3887073587419263202e+51 [STEP 4] Coarse TimeStep time: 0.171860993 [STEP 4] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 4 TIME = 0.03230494184 DT = 0.008676548428 ...estimated hydro-limited timestep at level 0: 0.7527528465 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7527528465 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.7527528465 ... but limiting to: 0.00911037585 = 1.05 * 0.008676548428 [Level 0 step 5] ADVANCE with dt = 0.00911037585  Beginning subcycle 1 starting at time 0.03230494184 with dt = 0.00911037585 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.001028616 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.010691442 Castro::do_new_sources() time = 0.001288943 ...estimated hydro-limited timestep at level 0: 0.7527511622 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7527511622  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.0853845374782669257e-16 Radiation Update: Iteration 1, Relative = 0.012170383236619135639 Absolute = 72707873225.23046875 1 Hypre Multigrid Iterations, Relative Residual 1.0810404478285344641e-16 Radiation Update: Iteration 2, Relative = 0.00021441072923467416724 Absolute = 1076005526.544921875 1 Hypre Multigrid Iterations, Relative Residual 1.1506431210184797543e-16 Radiation Update: Iteration 3, Relative = 6.396902583084254109e-08 Absolute = 320955.333984375 1 Hypre Multigrid Iterations, Relative Residual 1.1118372341101856486e-16 Radiation Update: Iteration 4, Relative = 1.868514375761042106e-14 Absolute = 0.09375 1 Hypre Multigrid Iterations, Relative Residual 1.1477268434930593666e-16 Radiation Update: Iteration 5, Relative = 5.3640471692953369603e-16 Absolute = 0.0078125 done Zones advanced per microsecond at this level: 0.6102709301 [Level 0 step 5] Advanced 102400 cells TIME= 0.04141531769 MASS = 3.074122209e+34 TIME= 0.04141531769 XMOM = 9.459985508e+42 TIME= 0.04141531769 YMOM = 0 TIME= 0.04141531769 ZMOM = 0 TIME= 0.04141531769 ANG MOM X = 0 TIME= 0.04141531769 ANG MOM Y = 0 TIME= 0.04141531769 ANG MOM Z = 0 TIME= 0.04141531769 RHO*e = 4.860422916e+49 TIME= 0.04141531769 RHO*K = 1.617642986e+51 TIME= 0.04141531769 RHO*E = 1.666247215e+51 TIME= 0.04141531769 RHO*PHI = 0 TIME= 0.04141531769 TOTAL ENERGY= 1.666247215e+51 Integrated Fluid Mass is 3.0741222088628056511e+34 Integrated Fluid Energy is 1.6662472147883387281e+51 Integrated Radiant Energy is 7.2243589135238794612e+50 Flux Register Energy is 0 Integrated Total Energy is 2.388683106140726508e+51 [STEP 5] Coarse TimeStep time: 0.170892125 [STEP 5] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 5 TIME = 0.04141531769 DT = 0.00911037585 ...estimated hydro-limited timestep at level 0: 0.7531361753 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7531361753 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.7531361753 ... but limiting to: 0.009565894642 = 1.05 * 0.00911037585 [Level 0 step 6] ADVANCE with dt = 0.009565894642  Beginning subcycle 1 starting at time 0.04141531769 with dt = 0.009565894642 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.001080161 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.010729052 Castro::do_new_sources() time = 0.001696819 ...estimated hydro-limited timestep at level 0: 0.7531320785 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7531320785  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.1204668450906703097e-16 Radiation Update: Iteration 1, Relative = 0.011698770876980596478 Absolute = 70548210851.51953125 1 Hypre Multigrid Iterations, Relative Residual 1.0140496688097417831e-16 Radiation Update: Iteration 2, Relative = 0.00019773726460415899891 Absolute = 1001234439.81640625 1 Hypre Multigrid Iterations, Relative Residual 1.0235073433767023177e-16 Radiation Update: Iteration 3, Relative = 5.4389856722156527332e-08 Absolute = 275346.3271484375 1 Hypre Multigrid Iterations, Relative Residual 1.0671428892718589202e-16 Radiation Update: Iteration 4, Relative = 1.5046424028058747142e-14 Absolute = 0.076171875 1 Hypre Multigrid Iterations, Relative Residual 1.0695432218039188573e-16 Radiation Update: Iteration 5, Relative = 5.6466068108577105608e-16 Absolute = 0.01171875 done Zones advanced per microsecond at this level: 0.7551264458 [Level 0 step 6] Advanced 102400 cells TIME= 0.05098121233 MASS = 3.074142855e+34 TIME= 0.05098121233 XMOM = 9.460040733e+42 TIME= 0.05098121233 YMOM = 0 TIME= 0.05098121233 ZMOM = 0 TIME= 0.05098121233 ANG MOM X = 0 TIME= 0.05098121233 ANG MOM Y = 0 TIME= 0.05098121233 ANG MOM Z = 0 TIME= 0.05098121233 RHO*e = 4.860547507e+49 TIME= 0.05098121233 RHO*K = 1.617621819e+51 TIME= 0.05098121233 RHO*E = 1.666227294e+51 TIME= 0.05098121233 RHO*PHI = 0 TIME= 0.05098121233 TOTAL ENERGY= 1.666227294e+51 Integrated Fluid Mass is 3.0741428547981132556e+34 Integrated Fluid Energy is 1.666227293589834674e+51 Integrated Radiant Energy is 7.2243176804357641683e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3886590616334110908e+51 [STEP 6] Coarse TimeStep time: 0.13797955 [STEP 6] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 6 TIME = 0.05098121233 DT = 0.009565894642 ...estimated hydro-limited timestep at level 0: 0.7534493826 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7534493826 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.7534493826 ... but limiting to: 0.01004418937 = 1.05 * 0.009565894642 [Level 0 step 7] ADVANCE with dt = 0.01004418937  Beginning subcycle 1 starting at time 0.05098121233 with dt = 0.01004418937 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.001345457 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.006166796 Castro::do_new_sources() time = 0.001803383 ...estimated hydro-limited timestep at level 0: 0.7534456555 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7534456555  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.19608289774770496e-16 Radiation Update: Iteration 1, Relative = 0.011247918753262066416 Absolute = 68516452945.42578125 1 Hypre Multigrid Iterations, Relative Residual 1.0995853561920437045e-16 Radiation Update: Iteration 2, Relative = 0.00018246668095608380871 Absolute = 931120239.8310546875 1 Hypre Multigrid Iterations, Relative Residual 1.0744652592632936962e-16 Radiation Update: Iteration 3, Relative = 4.6302695644667676991e-08 Absolute = 236237.70703125 1 Hypre Multigrid Iterations, Relative Residual 1.1713583254674242673e-16 Radiation Update: Iteration 4, Relative = 1.2441435057225452126e-14 Absolute = 0.0634765625 1 Hypre Multigrid Iterations, Relative Residual 1.1390187055128141225e-16 Radiation Update: Iteration 5, Relative = 4.8340199990977192444e-16 Absolute = 0.0078125 done Zones advanced per microsecond at this level: 0.8437213782 [Level 0 step 7] Advanced 102400 cells TIME= 0.0610254017 MASS = 3.074163501e+34 TIME= 0.0610254017 XMOM = 9.460096288e+42 TIME= 0.0610254017 YMOM = 0 TIME= 0.0610254017 ZMOM = 0 TIME= 0.0610254017 ANG MOM X = 0 TIME= 0.0610254017 ANG MOM Y = 0 TIME= 0.0610254017 ANG MOM Z = 0 TIME= 0.0610254017 RHO*e = 4.860665176e+49 TIME= 0.0610254017 RHO*K = 1.617601087e+51 TIME= 0.0610254017 RHO*E = 1.666207739e+51 TIME= 0.0610254017 RHO*PHI = 0 TIME= 0.0610254017 TOTAL ENERGY= 1.666207739e+51 Integrated Fluid Mass is 3.0741635005337293215e+34 Integrated Fluid Energy is 1.6662077388157388475e+51 Integrated Radiant Energy is 7.2242745998690965172e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3886351988026486654e+51 [STEP 7] Coarse TimeStep time: 0.123519047 [STEP 7] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 7 TIME = 0.0610254017 DT = 0.01004418937 ...estimated hydro-limited timestep at level 0: 0.753692981 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.753692981 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.753692981 ... but limiting to: 0.01054639884 = 1.05 * 0.01004418937 [Level 0 step 8] ADVANCE with dt = 0.01054639884  Beginning subcycle 1 starting at time 0.0610254017 with dt = 0.01054639884 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.001509148 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.006276933 Castro::do_new_sources() time = 0.002006678 ...estimated hydro-limited timestep at level 0: 0.753687557 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.753687557  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.2342579013570410256e-16 Radiation Update: Iteration 1, Relative = 0.01081720674662764968 Absolute = 66591571246.96875 1 Hypre Multigrid Iterations, Relative Residual 1.136244391322437348e-16 Radiation Update: Iteration 2, Relative = 0.00016848243066888514744 Absolute = 865644741.154296875 1 Hypre Multigrid Iterations, Relative Residual 1.1651412727880630157e-16 Radiation Update: Iteration 3, Relative = 3.9470727412500670056e-08 Absolute = 202762.2158203125 1 Hypre Multigrid Iterations, Relative Residual 1.1976770011121345423e-16 Radiation Update: Iteration 4, Relative = 1.0265542890373059651e-14 Absolute = 0.052734375 1 Hypre Multigrid Iterations, Relative Residual 1.2040543766482447551e-16 Radiation Update: Iteration 5, Relative = 6.1340792801481587333e-16 Absolute = 0.0078125 done Zones advanced per microsecond at this level: 0.8548305477 [Level 0 step 8] Advanced 102400 cells TIME= 0.07157180055 MASS = 3.074184146e+34 TIME= 0.07157180055 XMOM = 9.460152189e+42 TIME= 0.07157180055 YMOM = 0 TIME= 0.07157180055 ZMOM = 0 TIME= 0.07157180055 ANG MOM X = 0 TIME= 0.07157180055 ANG MOM Y = 0 TIME= 0.07157180055 ANG MOM Z = 0 TIME= 0.07157180055 RHO*e = 4.860776547e+49 TIME= 0.07157180055 RHO*K = 1.617580772e+51 TIME= 0.07157180055 RHO*E = 1.666188537e+51 TIME= 0.07157180055 RHO*PHI = 0 TIME= 0.07157180055 TOTAL ENERGY= 1.666188537e+51 Integrated Fluid Mass is 3.0741841460596344997e+34 Integrated Fluid Energy is 1.6661885372991972445e+51 Integrated Radiant Energy is 7.2242296021692648273e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3886114975161238103e+51 [STEP 8] Coarse TimeStep time: 0.122101628 [STEP 8] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 8 TIME = 0.07157180055 DT = 0.01054639884 ...estimated hydro-limited timestep at level 0: 0.7538364863 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7538364863 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.7538364863 ... but limiting to: 0.01107371879 = 1.05 * 0.01054639884 [Level 0 step 9] ADVANCE with dt = 0.01107371879  Beginning subcycle 1 starting at time 0.07157180055 with dt = 0.01107371879 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.001722467 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.007317215 Castro::do_new_sources() time = 0.002321554 ...estimated hydro-limited timestep at level 0: 0.7538314189 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7538314189  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.1593042714702077548e-16 Radiation Update: Iteration 1, Relative = 0.010405946033312065899 Absolute = 64758751736.19921875 1 Hypre Multigrid Iterations, Relative Residual 1.1443192366240021742e-16 Radiation Update: Iteration 2, Relative = 0.00015567543473588835016 Absolute = 804703063.5224609375 1 Hypre Multigrid Iterations, Relative Residual 1.1703267595941501145e-16 Radiation Update: Iteration 3, Relative = 3.3694147402657110419e-08 Absolute = 174141.5576171875 1 Hypre Multigrid Iterations, Relative Residual 1.1907426316620237937e-16 Radiation Update: Iteration 4, Relative = 8.313899707804502002e-15 Absolute = 0.04296875 done Zones advanced per microsecond at this level: 0.9596824291 [Level 0 step 9] Advanced 102400 cells TIME= 0.08264551933 MASS = 3.074204791e+34 TIME= 0.08264551933 XMOM = 9.460208454e+42 TIME= 0.08264551933 YMOM = 0 TIME= 0.08264551933 ZMOM = 0 TIME= 0.08264551933 ANG MOM X = 0 TIME= 0.08264551933 ANG MOM Y = 0 TIME= 0.08264551933 ANG MOM Z = 0 TIME= 0.08264551933 RHO*e = 4.8608821e+49 TIME= 0.08264551933 RHO*K = 1.61756086e+51 TIME= 0.08264551933 RHO*E = 1.666169681e+51 TIME= 0.08264551933 RHO*PHI = 0 TIME= 0.08264551933 TOTAL ENERGY= 1.666169681e+51 Integrated Fluid Mass is 3.0742047913653478115e+34 Integrated Fluid Energy is 1.6661696813641285397e+51 Integrated Radiant Energy is 7.2241826069584694538e+50 Flux Register Energy is 0 Integrated Total Energy is 2.3885879420599753189e+51 [STEP 9] Coarse TimeStep time: 0.108873479 [STEP 9] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 9 TIME = 0.08264551933 DT = 0.01107371879 ...estimated hydro-limited timestep at level 0: 0.753898293 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.753898293 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.753898293 ... but limiting to: 0.01162740472 = 1.05 * 0.01107371879 [Level 0 step 10] ADVANCE with dt = 0.01162740472  Beginning subcycle 1 starting at time 0.08264551933 with dt = 0.01162740472 Estimated number of subcycles remaining: 1 Castro::do_old_sources() time = 0.001609947 ... Entering construct_ctu_hydro_source() Radiation f-space advection on level 0 takes as many as 1 substep. ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.006255869 Castro::do_new_sources() time = 0.00204844 ...estimated hydro-limited timestep at level 0: 0.7538918182 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.7538918182  Subcycle completed Subcycling complete Radiation implicit update, level 0... 1 Hypre Multigrid Iterations, Relative Residual 1.1586771720163743681e-16 Radiation Update: Iteration 1, Relative = 0.010013410926948775048 Absolute = 63006867918.9609375 1 Hypre Multigrid Iterations, Relative Residual 1.1965981232301108357e-16 Radiation Update: Iteration 2, Relative = 0.00014394469247111269395 Absolute = 748122471.3828125 1 Hypre Multigrid Iterations, Relative Residual 1.1469076929485989721e-16 Radiation Update: Iteration 3, Relative = 2.905044764888090072e-08 Absolute = 149687.8583984375 1 Hypre Multigrid Iterations, Relative Residual 1.1454156933878400912e-16 Radiation Update: Iteration 4, Relative = 7.1411659856936824399e-15 Absolute = 0.037109375 done Zones advanced per microsecond at this level: 0.952654495 [Level 0 step 10] Advanced 102400 cells TIME= 0.09427292406 MASS = 3.074225436e+34 TIME= 0.09427292406 XMOM = 9.460265101e+42 TIME= 0.09427292406 YMOM = 0 TIME= 0.09427292406 ZMOM = 0 TIME= 0.09427292406 ANG MOM X = 0 TIME= 0.09427292406 ANG MOM Y = 0 TIME= 0.09427292406 ANG MOM Z = 0 TIME= 0.09427292406 RHO*e = 4.860982219e+49 TIME= 0.09427292406 RHO*K = 1.617541345e+51 TIME= 0.09427292406 RHO*E = 1.666151167e+51 TIME= 0.09427292406 RHO*PHI = 0 TIME= 0.09427292406 TOTAL ENERGY= 1.666151167e+51 Integrated Fluid Mass is 3.0742254364398431767e+34 Integrated Fluid Energy is 1.6661511673468417558e+51 Integrated Radiant Energy is 7.2241335251623094821e+50 Flux Register Energy is 0 Integrated Total Energy is 2.388564519863072621e+51 [STEP 10] Coarse TimeStep time: 0.109858592 [STEP 10] FAB kilobyte spread across MPI nodes: [6946 ... 6946] STEP = 10 TIME = 0.09427292406 DT = 0.01162740472 PLOTFILE: file = rad-breakout_plt00010 Write plotfile time = 0.134403301 seconds Ending run at 13:51:09 UTC on 2022-05-03. Deleting radiation in variableCleanUp... done Run time = 1.940079708 Run time without initialization = 1.612647262 Average number of zones advanced per microsecond: 0.635 Average number of zones advanced per microsecond per rank: 0.040 TinyProfiler total time across processes [min...avg...max]: 1.931 ... 1.938 ... 1.94 ----------------------------------------------------------------------------------------------- Name NCalls Excl. Min Excl. Avg Excl. Max Max % ----------------------------------------------------------------------------------------------- HypreABec::setupSolver 48 0.6158 0.6405 0.6663 34.34% VisMF::Write(FabArray) 2 0.01952 0.04084 0.3332 17.18% Amr::writePlotFile() 2 0.01788 0.3091 0.3291 16.96% HypreABec::solve 48 0.1627 0.2061 0.234 12.06% Gravity::make_radial_gravity() 21 0.1564 0.2078 0.2292 11.81% FabArray::ParallelCopy_finish() 294 0.002901 0.03128 0.09715 5.01% Castro::construct_ctu_hydro_source() 10 0.05126 0.06978 0.08703 4.49% Castro::estTimeStep() 21 0.009883 0.03308 0.05476 2.82% Castro::do_advance_ctu() 10 0.004382 0.02248 0.04036 2.08% Castro::initData() 1 0.007776 0.01494 0.03711 1.91% RadSolve::levelRhs 48 0.02455 0.02919 0.03531 1.82% Radiation::single_group_update 10 0.0187 0.02386 0.03208 1.65% Castro::initMFs() 1 0.02809 0.02831 0.02846 1.47% RadSolve::levelACoeffs 48 0.01891 0.02251 0.02767 1.43% Radiation::compute_eta 48 0.01761 0.0209 0.02586 1.33% FabArray::setVal() 420 0.01871 0.02195 0.02394 1.23% FillPatchIterator::Initialize 274 0.01521 0.01868 0.0205 1.06% Castro::derive() 135 0.01382 0.0168 0.01883 0.97% FillBoundary_finish() 116 0.000409 0.006488 0.01873 0.97% Radiation::internal_energy_update 48 0.006968 0.01207 0.01869 0.96% HypreABec::clearSolver 48 0.01104 0.01451 0.01748 0.90% Castro::do_new_sources() 10 0.0001124 0.002959 0.01747 0.90% FabArray::ParallelCopy_nowait() 294 0.01161 0.01375 0.0167 0.86% Castro::do_old_sources() 10 0.0001211 0.00309 0.01641 0.85% Castro::sum_integrated_quantities() 11 0.003922 0.008164 0.01224 0.63% Radiation::compute_exchange 48 0.007753 0.009169 0.01103 0.57% main() 1 0.0009805 0.007804 0.01055 0.54% Castro::reset_internal_energy(Fab) 8300 0.006025 0.007322 0.009282 0.48% Radiation::get_planck_and_temp 48 0.006254 0.007286 0.008335 0.43% Castro::construct_new_gravity_source() 10 0.005685 0.006243 0.007547 0.39% Castro::volWgtSum() 154 0.002907 0.004105 0.006517 0.34% HypreABec::getAbsoluteResidual 48 0.00132 0.005122 0.006463 0.33% Castro::initialize_do_advance() 10 0.002886 0.004783 0.005774 0.30% Castro::expand_state() 20 0.002054 0.003625 0.005176 0.27% RadSolve::levelFlux 48 0.003085 0.004137 0.005102 0.26% Castro::Castro() 1 0.00377 0.004224 0.005067 0.26% Castro::normalize_species() 72 0.003154 0.003905 0.005015 0.26% Gravity::interpolate_monopole_grav() 21 0.003555 0.004132 0.004851 0.25% Castro::computeTemp() 83 0.002417 0.003141 0.004603 0.24% RadSolve::levelBCoeffs 48 0.002727 0.003578 0.004425 0.23% MultiFab::Saxpy() 20 0.00278 0.003238 0.004387 0.23% Castro::advance() 10 0.002547 0.003044 0.00381 0.20% FillBoundary_nowait() 116 0.00296 0.003367 0.003734 0.19% Castro::enforce_min_density() 72 0.001678 0.002229 0.003375 0.17% Castro::construct_old_gravity_source() 10 0.001787 0.002084 0.002807 0.14% MultiFab::contains_nan() 20 0.001012 0.001914 0.002705 0.14% HypreABec::boundaryFlux 48 0.0009194 0.001645 0.002344 0.12% Amr::FinalizeInit() 1 2.88e-06 0.0001421 0.002219 0.11% Castro::initialize_advance() 10 0.001315 0.001875 0.0022 0.11% Gravity::get_old_grav_vector() 10 0.001314 0.001576 0.002009 0.10% Gravity::get_new_grav_vector() 11 0.00126 0.001372 0.001874 0.10% Radiation::get_c_v 4800 0.001311 0.00153 0.001856 0.10% Castro::reset_internal_energy(MultiFab) 83 0.001169 0.001414 0.001786 0.09% Castro::buildMetrics() 1 0.001086 0.001493 0.001643 0.08% Castro::finalize_advance() 10 0.001041 0.001292 0.001487 0.08% StateData::define() 5 0.0008159 0.001112 0.001297 0.07% Castro::subcycle_advance_ctu() 10 6.409e-05 0.0001671 0.001261 0.07% Castro::swap_state_time_levels() 10 0.0006326 0.0008858 0.001103 0.06% Radiation::scaledGradient 10 0.0006645 0.0007856 0.0009764 0.05% FabArrayBase::CPC::define() 5 0.0005536 0.0007619 0.0009337 0.05% update_rosseland_from_temp 38 0.0005652 0.0007652 0.0009229 0.05% Radiation::get_rosseland 10 0.0005138 0.0006353 0.0008117 0.04% Amr::InitAmr() 1 0.0006932 0.0007195 0.0007406 0.04% Castro::post_timestep() 10 0.0002123 0.0002816 0.0007014 0.04% Radiation::SGFLD_compute_rosseland (FArrayBox) 2100 0.0004804 0.0005556 0.0006599 0.03% Radiation::SGFLD_compute_rosseland (MultiFab) 10 0.0003309 0.0005011 0.0006189 0.03% FabArray::setDomainBndry() 274 0.0003764 0.0004685 0.0006178 0.03% StateDataPhysBCFunct::() 274 0.0003354 0.0004065 0.0005285 0.03% Amr::coarseTimeStep() 10 0.0002531 0.0003322 0.0004656 0.02% Castro::finalize_do_advance() 10 0.000314 0.0003537 0.0004141 0.02% Radiation::Regrid 1 0.0001501 0.0002411 0.0003044 0.02% StateData::FillBoundary(geom) 9 0 3.315e-05 0.0002988 0.02% FabArray::ParallelCopy() 294 0.0002005 0.0002355 0.0002803 0.01% FillPatchSingleLevel 274 0.0001911 0.0002177 0.0002554 0.01% FabArrayBase::FB::FB() 3 0.0001049 0.0001977 0.0002414 0.01% RadSolve::levelSolve 48 0.0001303 0.0001838 0.0002367 0.01% Radiation:fluxLimiter 10 0.0001202 0.00015 0.0002095 0.01% Amr::writeSmallPlotFile() 1 3.006e-05 0.0001232 0.0002059 0.01% Castro::clean_state() 72 0.0001292 0.0001523 0.0001838 0.01% Radiation::getBndryData 10 0.0001182 0.000138 0.0001796 0.01% Castro::computeNewDt() 9 7.722e-06 1.933e-05 0.0001754 0.01% FabArrayBase::getCPC() 93 0.000115 0.0001367 0.0001643 0.01% FabArrayBase::getFB() 116 9.888e-05 0.0001193 0.0001468 0.01% DistributionMapping::LeastUsedCPUs() 1 9.429e-06 6.179e-05 0.0001432 0.01% FabArray::FillBoundary() 116 9.973e-05 0.0001234 0.0001429 0.01% Castro::construct_new_source() 50 6.163e-05 8.142e-05 0.0001285 0.01% Castro::post_init() 1 2.854e-05 4.407e-05 0.0001189 0.01% Amr::timeStep() 10 7.568e-05 8.556e-05 0.0001184 0.01% Castro::construct_old_gravity() 10 3.848e-05 6.256e-05 9.633e-05 0.00% Castro::construct_old_source() 50 4.854e-05 6.003e-05 9.063e-05 0.00% Castro::apply_source_to_state() 20 4.112e-05 5.441e-05 7.825e-05 0.00% DistributionMapping::SFCProcessorMapDoIt() 1 4.243e-05 6.307e-05 7.802e-05 0.00% Castro::construct_new_gravity() 10 3.654e-05 5.193e-05 7.413e-05 0.00% Amr::defBaseLevel() 1 3.804e-05 5.897e-05 7.109e-05 0.00% Castro::enforce_speed_limit() 72 2.691e-05 3.532e-05 4.658e-05 0.00% Castro::enforce_consistent_e() 1 1.481e-05 2.692e-05 3.961e-05 0.00% RadSolve::levelFluxReg 48 1.795e-05 2.496e-05 3e-05 0.00% Castro::check_for_nan() 20 1.295e-05 1.917e-05 2.495e-05 0.00% DistributionMapping::Distribute() 1 1.288e-05 1.893e-05 2.338e-05 0.00% Amr::initSubcycle() 1 9.977e-06 1.637e-05 2.039e-05 0.00% Radiation::pre_timestep 10 5.679e-06 9.205e-06 1.874e-05 0.00% AmrLevel::AmrLevel(dm) 1 7.825e-06 1.145e-05 1.787e-05 0.00% Castro::create_source_corrector() 10 5.148e-06 8.442e-06 1.683e-05 0.00% Castro::FluxRegCrseInit 10 1.034e-05 1.288e-05 1.61e-05 0.00% Gravity::swapTimeLevels() 10 6.109e-06 1.042e-05 1.591e-05 0.00% Castro::retry_advance_ctu() 10 6.069e-06 7.643e-06 1.302e-05 0.00% Radiation::init_flux 1 8.36e-07 2.667e-06 1.274e-05 0.00% Amr::init() 1 1.898e-06 4.511e-06 1.19e-05 0.00% Gravity::set_mass_offset() 10 8.066e-06 9.417e-06 1.081e-05 0.00% Amr::InitializeInit() 1 2.293e-06 3.294e-06 8.809e-06 0.00% RadSolve::levelBndry 10 3.706e-06 5.437e-06 7.48e-06 0.00% Castro::computeInitialDt() 2 2.895e-06 3.739e-06 4.767e-06 0.00% Castro::post_regrid() 1 2.192e-06 2.995e-06 4.241e-06 0.00% Castro::FluxRegFineAdd() 10 2.435e-06 3.306e-06 4.109e-06 0.00% Amr::initialInit() 1 1.346e-06 1.848e-06 2.563e-06 0.00% ----------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------- Name NCalls Incl. Min Incl. Avg Incl. Max Max % ----------------------------------------------------------------------------------------------- main() 1 1.931 1.937 1.94 100.00% Amr::coarseTimeStep() 10 1.467 1.467 1.467 75.63% Amr::timeStep() 10 1.462 1.462 1.463 75.39% Castro::advance() 10 1.437 1.439 1.44 74.22% Radiation::single_group_update 10 1.019 1.02 1.021 52.62% RadSolve::levelSolve 48 0.849 0.8663 0.8828 45.50% HypreABec::setupSolver 48 0.6158 0.6405 0.6663 34.34% Castro::subcycle_advance_ctu() 10 0.3839 0.3883 0.3941 20.31% Castro::do_advance_ctu() 10 0.3831 0.3881 0.394 20.31% Amr::writePlotFile() 2 0.3671 0.3693 0.3694 19.04% VisMF::Write(FabArray) 2 0.01952 0.04084 0.3332 17.18% Amr::init() 1 0.3265 0.3265 0.3266 16.83% HypreABec::solve 48 0.1627 0.2061 0.234 12.06% Gravity::make_radial_gravity() 21 0.1564 0.2078 0.2292 11.81% Gravity::get_new_grav_vector() 11 0.08153 0.1132 0.1282 6.61% FillPatchIterator::Initialize 274 0.03535 0.0634 0.1242 6.40% Castro::construct_new_gravity() 10 0.06806 0.1004 0.1149 5.92% FabArray::ParallelCopy() 294 0.01659 0.04617 0.111 5.72% Castro::construct_old_gravity() 10 0.08453 0.1032 0.1097 5.65% Gravity::get_old_grav_vector() 10 0.08419 0.1028 0.1093 5.63% FillPatchSingleLevel 274 0.01623 0.04425 0.1086 5.59% FabArray::ParallelCopy_finish() 294 0.002901 0.03128 0.09715 5.01% Amr::initialInit() 1 0.09214 0.09232 0.09444 4.87% Castro::construct_ctu_hydro_source() 10 0.05515 0.07569 0.08955 4.62% Amr::InitializeInit() 1 0.04817 0.05517 0.0751 3.87% Amr::defBaseLevel() 1 0.04817 0.05517 0.0751 3.87% Castro::expand_state() 20 0.01389 0.02624 0.05994 3.09% Castro::estTimeStep() 21 0.01044 0.03364 0.05524 2.85% Amr::FinalizeInit() 1 0.01707 0.03714 0.04404 2.27% Castro::initData() 1 0.0123 0.0192 0.03903 2.01% RadSolve::levelRhs 48 0.02473 0.0294 0.03556 1.83% Castro::derive() 135 0.02863 0.03143 0.03491 1.80% Castro::Castro() 1 0.0345 0.03464 0.03485 1.80% Castro::do_new_sources() 10 0.01101 0.0145 0.02916 1.50% Castro::initMFs() 1 0.02809 0.02831 0.02846 1.47% Castro::computeInitialDt() 2 0.0009367 0.02087 0.0279 1.44% RadSolve::levelACoeffs 48 0.01891 0.02251 0.02767 1.43% Radiation::compute_eta 48 0.01892 0.02243 0.02767 1.43% Castro::post_timestep() 10 0.0224 0.02382 0.02543 1.31% Castro::initialize_advance() 10 0.01471 0.02051 0.02493 1.28% Castro::do_old_sources() 10 0.007433 0.0111 0.02474 1.28% FabArray::setVal() 420 0.01871 0.02195 0.02394 1.23% Castro::clean_state() 72 0.01353 0.01678 0.02229 1.15% FabArray::FillBoundary() 116 0.004647 0.0103 0.02212 1.14% Castro::sum_integrated_quantities() 11 0.01801 0.02005 0.02211 1.14% Castro::initialize_do_advance() 10 0.01558 0.01943 0.0215 1.11% FillBoundary_finish() 116 0.000409 0.006488 0.01873 0.97% Radiation::internal_energy_update 48 0.006968 0.01207 0.01869 0.96% FabArray::ParallelCopy_nowait() 294 0.0123 0.01465 0.01769 0.91% HypreABec::clearSolver 48 0.01104 0.01451 0.01748 0.90% Castro::post_init() 1 0.01633 0.01638 0.01648 0.85% Castro::computeTemp() 83 0.009699 0.01188 0.01538 0.79% RadSolve::levelFlux 48 0.007152 0.00933 0.01282 0.66% Castro::reset_internal_energy(MultiFab) 83 0.007223 0.008736 0.01107 0.57% Radiation::compute_exchange 48 0.007753 0.009169 0.01103 0.57% update_rosseland_from_temp 38 0.002279 0.004543 0.01012 0.52% Castro::reset_internal_energy(Fab) 8300 0.006025 0.007322 0.009282 0.48% Radiation::get_planck_and_temp 48 0.006254 0.007286 0.008335 0.43% Castro::construct_new_source() 50 0.00575 0.006324 0.007663 0.39% Castro::construct_new_gravity_source() 10 0.005685 0.006243 0.007547 0.39% Castro::volWgtSum() 154 0.002907 0.004105 0.006517 0.34% HypreABec::getAbsoluteResidual 48 0.00132 0.005122 0.006463 0.33% Radiation::getBndryData 10 0.0006113 0.002709 0.006207 0.32% Castro::normalize_species() 72 0.003154 0.003905 0.005015 0.26% Gravity::interpolate_monopole_grav() 21 0.003555 0.004132 0.004851 0.25% Castro::apply_source_to_state() 20 0.002824 0.003293 0.004466 0.23% RadSolve::levelBCoeffs 48 0.002727 0.003578 0.004425 0.23% MultiFab::Saxpy() 20 0.00278 0.003238 0.004387 0.23% Radiation::get_rosseland 10 0.002339 0.003454 0.004355 0.22% FillBoundary_nowait() 116 0.003249 0.003684 0.004097 0.21% Castro::computeNewDt() 9 0.003656 0.003883 0.003977 0.20% Radiation::scaledGradient 10 0.001395 0.002044 0.003468 0.18% Castro::enforce_min_density() 72 0.001678 0.002229 0.003375 0.17% Castro::construct_old_source() 50 0.001839 0.002144 0.002855 0.15% Castro::construct_old_gravity_source() 10 0.001787 0.002084 0.002807 0.14% Castro::check_for_nan() 20 0.001031 0.001933 0.002729 0.14% MultiFab::contains_nan() 20 0.001012 0.001914 0.002705 0.14% HypreABec::boundaryFlux 48 0.0009194 0.001645 0.002344 0.12% Radiation::get_c_v 4800 0.001311 0.00153 0.001856 0.10% Castro::buildMetrics() 1 0.001099 0.001511 0.001662 0.09% Castro::finalize_advance() 10 0.001055 0.001308 0.001507 0.08% AmrLevel::AmrLevel(dm) 1 0.0008247 0.001124 0.00131 0.07% StateData::define() 5 0.0008159 0.001112 0.001297 0.07% Castro::swap_state_time_levels() 10 0.0006326 0.0008858 0.001103 0.06% FabArrayBase::getCPC() 93 0.0006823 0.0008986 0.00106 0.05% FabArrayBase::CPC::define() 5 0.0005536 0.0007619 0.0009337 0.05% StateDataPhysBCFunct::() 274 0.0003354 0.0004396 0.0008273 0.04% Amr::InitAmr() 1 0.0007043 0.0007359 0.0007575 0.04% Radiation::SGFLD_compute_rosseland (FArrayBox) 2100 0.0004804 0.0005556 0.0006599 0.03% Radiation::SGFLD_compute_rosseland (MultiFab) 10 0.0003309 0.0005011 0.0006189 0.03% FabArray::setDomainBndry() 274 0.0003764 0.0004685 0.0006178 0.03% Castro::finalize_do_advance() 10 0.000314 0.0003537 0.0004141 0.02% FabArrayBase::getFB() 116 0.0002038 0.000317 0.0003882 0.02% Radiation::Regrid 1 0.0001592 0.0002552 0.0003269 0.02% Castro::post_regrid() 1 0.0001586 0.0002592 0.0003012 0.02% StateData::FillBoundary(geom) 9 0 3.315e-05 0.0002988 0.02% FabArrayBase::FB::FB() 3 0.0001049 0.0001977 0.0002414 0.01% Radiation:fluxLimiter 10 0.0001202 0.00015 0.0002095 0.01% Amr::writeSmallPlotFile() 1 3.006e-05 0.0001232 0.0002059 0.01% DistributionMapping::SFCProcessorMapDoIt() 1 0.0001044 0.0001438 0.0002017 0.01% DistributionMapping::LeastUsedCPUs() 1 9.429e-06 6.179e-05 0.0001432 0.01% Castro::enforce_speed_limit() 72 2.691e-05 3.532e-05 4.658e-05 0.00% Radiation::pre_timestep 10 2.022e-05 3.323e-05 4.461e-05 0.00% Castro::enforce_consistent_e() 1 1.481e-05 2.692e-05 3.961e-05 0.00% Radiation::init_flux 1 1.4e-05 2.402e-05 3.375e-05 0.00% RadSolve::levelFluxReg 48 1.795e-05 2.496e-05 3e-05 0.00% DistributionMapping::Distribute() 1 1.288e-05 1.893e-05 2.338e-05 0.00% Amr::initSubcycle() 1 9.977e-06 1.637e-05 2.039e-05 0.00% Castro::create_source_corrector() 10 5.148e-06 8.442e-06 1.683e-05 0.00% Castro::FluxRegCrseInit 10 1.034e-05 1.288e-05 1.61e-05 0.00% Gravity::swapTimeLevels() 10 6.109e-06 1.042e-05 1.591e-05 0.00% Castro::retry_advance_ctu() 10 6.069e-06 7.643e-06 1.302e-05 0.00% Gravity::set_mass_offset() 10 8.066e-06 9.417e-06 1.081e-05 0.00% RadSolve::levelBndry 10 3.706e-06 5.437e-06 7.48e-06 0.00% Castro::FluxRegFineAdd() 10 2.435e-06 3.306e-06 4.109e-06 0.00% ----------------------------------------------------------------------------------------------- Unused ParmParse Variables: [TOP]::amr.ref_ratio(nvals = 4) :: [2, 2, 2, 2] [TOP]::amr.regrid_int(nvals = 4) :: [2, 2, 2, 2] [TOP]::radiation.use_opacity_table_module(nvals = 1) :: [1] [TOP]::hmabec.verbose(nvals = 1) :: [2] AMReX (22.05-3-gdf9b6944a6d5) finalized