Initializing AMReX (25.01-26-g4b34f9c89476)... MPI initialized with 8 MPI processes MPI initialized with thread support level 3 AMReX (25.01-26-g4b34f9c89476) initialized Starting run at 06:19:11 UTC on 2025-01-28. Successfully read inputs file ... Castro git describe: 25.01-9-g9fdc8cb81 AMReX git describe: 25.01-26-g4b34f9c89 Microphysics git describe: 25.01-34-gffe16830 reading extern runtime parameters ... 3 Species: C12 O16 Mg24 Successfully read inputs file ... grid_places() time: 0.000672317 new finest: 1 Now regridding at level lbase = 0 grid_places() time: 0.005475586 new finest: 2 STEP = 0 TIME = 0 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 Now regridding at level lbase = 0 grid_places() time: 0.006891066 new finest: 2 STEP = 0 TIME = 0 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 grid_places() time: 0.008582574 new finest: 2 INITIAL GRIDS Level 0 16 grids 65536 cells 100 % of domain smallest grid: 64 x 64 biggest grid: 64 x 64 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 PLOTFILE: file = dustcollapse-2d-poissonn_plt00000 Write plotfile time = 0.011869742 seconds [Level 0 step 1] ADVANCE at time 0 with dt = 1.135435554e-05 [Level 0 step 1] Advanced 65536 cells [Level 1 step 1] ADVANCE at time 0 with dt = 5.677177769e-06 [Level 1 step 1] Advanced 36800 cells [Level 2 step 1] ADVANCE at time 0 with dt = 2.838588884e-06 [Level 2 step 1] Advanced 75392 cells [Level 2 step 2] ADVANCE at time 2.838588884e-06 with dt = 2.838588884e-06 [Level 2 step 2] Advanced 75392 cells [Level 1 step 2] ADVANCE at time 5.677177769e-06 with dt = 5.677177769e-06 [Level 1 step 2] Advanced 36800 cells [Level 2 step 3] ADVANCE at time 5.677177769e-06 with dt = 2.838588884e-06 [Level 2 step 3] Advanced 75392 cells [Level 2 step 4] ADVANCE at time 8.515766653e-06 with dt = 2.838588884e-06 [Level 2 step 4] Advanced 75392 cells STEP = 1 TIME = 1.135435554e-05 DT = 1.135435554e-05 [STEP 1] Coarse TimeStep time: 0.55812771 [STEP 1] FAB kilobyte spread across MPI nodes: [18263 ... 21716] Now regridding at level lbase = 1 TIME = 1.135435554e-05 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 2] ADVANCE at time 1.135435554e-05 with dt = 1.192207331e-05 grid_places() time: 0.00061929 new finest: 2 [Level 0 step 2] Advanced 65536 cells [Level 1 step 3] ADVANCE at time 1.135435554e-05 with dt = 5.961036657e-06 [Level 1 step 3] Advanced 36800 cells [Level 2 step 5] ADVANCE at time 1.135435554e-05 with dt = 2.980518328e-06 [Level 2 step 5] Advanced 75392 cells [Level 2 step 6] ADVANCE at time 1.433487387e-05 with dt = 2.980518328e-06 [Level 2 step 6] Advanced 75392 cells [Level 1 step 4] ADVANCE at time 1.731539219e-05 with dt = 5.961036657e-06 [Level 1 step 4] Advanced 36800 cells [Level 2 step 7] ADVANCE at time 1.731539219e-05 with dt = 2.980518328e-06 [Level 2 step 7] Advanced 75392 cells [Level 2 step 8] ADVANCE at time 2.029591052e-05 with dt = 2.980518328e-06 [Level 2 step 8] Advanced 75392 cells STEP = 2 TIME = 2.327642885e-05 DT = 1.192207331e-05 [STEP 2] Coarse TimeStep time: 0.582925497 [STEP 2] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.000915839 new finest: 2 STEP = 2 TIME = 2.327642885e-05 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 3] ADVANCE at time 2.327642885e-05 with dt = 1.251817698e-05 [Level 0 step 3] Advanced 65536 cells [Level 1 step 5] ADVANCE at time 2.327642885e-05 with dt = 6.25908849e-06 [Level 1 step 5] Advanced 36800 cells [Level 2 step 9] ADVANCE at time 2.327642885e-05 with dt = 3.129544245e-06 [Level 2 step 9] Advanced 75392 cells [Level 2 step 10] ADVANCE at time 2.64059731e-05 with dt = 3.129544245e-06 [Level 2 step 10] Advanced 75392 cells [Level 1 step 6] ADVANCE at time 2.953551734e-05 with dt = 6.25908849e-06 [Level 1 step 6] Advanced 36800 cells [Level 2 step 11] ADVANCE at time 2.953551734e-05 with dt = 3.129544245e-06 [Level 2 step 11] Advanced 75392 cells [Level 2 step 12] ADVANCE at time 3.266506159e-05 with dt = 3.129544245e-06 [Level 2 step 12] Advanced 75392 cells STEP = 3 TIME = 3.579460583e-05 DT = 1.251817698e-05 [STEP 3] Coarse TimeStep time: 0.698649876 [STEP 3] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 3.579460583e-05 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 4] ADVANCE at time 3.579460583e-05 with dt = 1.314408583e-05 grid_places() time: 0.000724148 new finest: 2 [Level 0 step 4] Advanced 65536 cells [Level 1 step 7] ADVANCE at time 3.579460583e-05 with dt = 6.572042914e-06 [Level 1 step 7] Advanced 36800 cells [Level 2 step 13] ADVANCE at time 3.579460583e-05 with dt = 3.286021457e-06 [Level 2 step 13] Advanced 75392 cells [Level 2 step 14] ADVANCE at time 3.908062729e-05 with dt = 3.286021457e-06 [Level 2 step 14] Advanced 75392 cells [Level 1 step 8] ADVANCE at time 4.236664874e-05 with dt = 6.572042914e-06 [Level 1 step 8] Advanced 36800 cells [Level 2 step 15] ADVANCE at time 4.236664874e-05 with dt = 3.286021457e-06 [Level 2 step 15] Advanced 75392 cells [Level 2 step 16] ADVANCE at time 4.56526702e-05 with dt = 3.286021457e-06 [Level 2 step 16] Advanced 75392 cells STEP = 4 TIME = 4.893869166e-05 DT = 1.314408583e-05 [STEP 4] Coarse TimeStep time: 0.646243744 [STEP 4] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.000987671 new finest: 2 STEP = 4 TIME = 4.893869166e-05 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 5] ADVANCE at time 4.893869166e-05 with dt = 1.380129012e-05 [Level 0 step 5] Advanced 65536 cells [Level 1 step 9] ADVANCE at time 4.893869166e-05 with dt = 6.90064506e-06 [Level 1 step 9] Advanced 36800 cells [Level 2 step 17] ADVANCE at time 4.893869166e-05 with dt = 3.45032253e-06 [Level 2 step 17] Advanced 75392 cells [Level 2 step 18] ADVANCE at time 5.238901419e-05 with dt = 3.45032253e-06 [Level 2 step 18] Advanced 75392 cells [Level 1 step 10] ADVANCE at time 5.583933672e-05 with dt = 6.90064506e-06 [Level 1 step 10] Advanced 36800 cells [Level 2 step 19] ADVANCE at time 5.583933672e-05 with dt = 3.45032253e-06 [Level 2 step 19] Advanced 75392 cells [Level 2 step 20] ADVANCE at time 5.928965925e-05 with dt = 3.45032253e-06 [Level 2 step 20] Advanced 75392 cells STEP = 5 TIME = 6.273998178e-05 DT = 1.380129012e-05 [STEP 5] Coarse TimeStep time: 0.63296233 [STEP 5] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 6.273998178e-05 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 6] ADVANCE at time 6.273998178e-05 with dt = 1.449135463e-05 grid_places() time: 0.000699738 new finest: 2 [Level 0 step 6] Advanced 65536 cells [Level 1 step 11] ADVANCE at time 6.273998178e-05 with dt = 7.245677313e-06 [Level 1 step 11] Advanced 36800 cells [Level 2 step 21] ADVANCE at time 6.273998178e-05 with dt = 3.622838657e-06 [Level 2 step 21] Advanced 75392 cells [Level 2 step 22] ADVANCE at time 6.636282044e-05 with dt = 3.622838657e-06 [Level 2 step 22] Advanced 75392 cells [Level 1 step 12] ADVANCE at time 6.998565909e-05 with dt = 7.245677313e-06 [Level 1 step 12] Advanced 36800 cells [Level 2 step 23] ADVANCE at time 6.998565909e-05 with dt = 3.622838657e-06 [Level 2 step 23] Advanced 75392 cells [Level 2 step 24] ADVANCE at time 7.360849775e-05 with dt = 3.622838657e-06 [Level 2 step 24] Advanced 75392 cells STEP = 6 TIME = 7.723133641e-05 DT = 1.449135463e-05 [STEP 6] Coarse TimeStep time: 0.673836509 [STEP 6] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.00086844 new finest: 2 STEP = 6 TIME = 7.723133641e-05 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 7] ADVANCE at time 7.723133641e-05 with dt = 1.521592236e-05 [Level 0 step 7] Advanced 65536 cells [Level 1 step 13] ADVANCE at time 7.723133641e-05 with dt = 7.607961179e-06 [Level 1 step 13] Advanced 36800 cells [Level 2 step 25] ADVANCE at time 7.723133641e-05 with dt = 3.803980589e-06 [Level 2 step 25] Advanced 75392 cells [Level 2 step 26] ADVANCE at time 8.103531699e-05 with dt = 3.803980589e-06 [Level 2 step 26] Advanced 75392 cells [Level 1 step 14] ADVANCE at time 8.483929758e-05 with dt = 7.607961179e-06 [Level 1 step 14] Advanced 36800 cells [Level 2 step 27] ADVANCE at time 8.483929758e-05 with dt = 3.803980589e-06 [Level 2 step 27] Advanced 75392 cells [Level 2 step 28] ADVANCE at time 8.864327817e-05 with dt = 3.803980589e-06 [Level 2 step 28] Advanced 75392 cells STEP = 7 TIME = 9.244725876e-05 DT = 1.521592236e-05 [STEP 7] Coarse TimeStep time: 0.595935154 [STEP 7] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 9.244725876e-05 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 8] ADVANCE at time 9.244725876e-05 with dt = 1.597671848e-05 grid_places() time: 0.000628352 new finest: 2 [Level 0 step 8] Advanced 65536 cells [Level 1 step 15] ADVANCE at time 9.244725876e-05 with dt = 7.988359238e-06 [Level 1 step 15] Advanced 36800 cells [Level 2 step 29] ADVANCE at time 9.244725876e-05 with dt = 3.994179619e-06 [Level 2 step 29] Advanced 75392 cells [Level 2 step 30] ADVANCE at time 9.644143838e-05 with dt = 3.994179619e-06 [Level 2 step 30] Advanced 75392 cells [Level 1 step 16] ADVANCE at time 0.000100435618 with dt = 7.988359238e-06 [Level 1 step 16] Advanced 36800 cells [Level 2 step 31] ADVANCE at time 0.000100435618 with dt = 3.994179619e-06 [Level 2 step 31] Advanced 75392 cells [Level 2 step 32] ADVANCE at time 0.0001044297976 with dt = 3.994179619e-06 [Level 2 step 32] Advanced 75392 cells STEP = 8 TIME = 0.0001084239772 DT = 1.597671848e-05 [STEP 8] Coarse TimeStep time: 0.594113689 [STEP 8] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.000909651 new finest: 2 STEP = 8 TIME = 0.0001084239772 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 9] ADVANCE at time 0.0001084239772 with dt = 1.67755544e-05 [Level 0 step 9] Advanced 65536 cells [Level 1 step 17] ADVANCE at time 0.0001084239772 with dt = 8.387777199e-06 [Level 1 step 17] Advanced 36800 cells [Level 2 step 33] ADVANCE at time 0.0001084239772 with dt = 4.1938886e-06 [Level 2 step 33] Advanced 75392 cells [Level 2 step 34] ADVANCE at time 0.0001126178658 with dt = 4.1938886e-06 [Level 2 step 34] Advanced 75392 cells [Level 1 step 18] ADVANCE at time 0.0001168117544 with dt = 8.387777199e-06 [Level 1 step 18] Advanced 36800 cells [Level 2 step 35] ADVANCE at time 0.0001168117544 with dt = 4.1938886e-06 [Level 2 step 35] Advanced 75392 cells [Level 2 step 36] ADVANCE at time 0.000121005643 with dt = 4.1938886e-06 [Level 2 step 36] Advanced 75392 cells STEP = 9 TIME = 0.0001251995316 DT = 1.67755544e-05 [STEP 9] Coarse TimeStep time: 0.641444469 [STEP 9] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 0.0001251995316 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 10] ADVANCE at time 0.0001251995316 with dt = 1.761433212e-05 grid_places() time: 0.000651406 new finest: 2 [Level 0 step 10] Advanced 65536 cells [Level 1 step 19] ADVANCE at time 0.0001251995316 with dt = 8.807166059e-06 [Level 1 step 19] Advanced 36800 cells [Level 2 step 37] ADVANCE at time 0.0001251995316 with dt = 4.40358303e-06 [Level 2 step 37] Advanced 75392 cells [Level 2 step 38] ADVANCE at time 0.0001296031147 with dt = 4.40358303e-06 [Level 2 step 38] Advanced 75392 cells [Level 1 step 20] ADVANCE at time 0.0001340066977 with dt = 8.807166059e-06 [Level 1 step 20] Advanced 36800 cells [Level 2 step 39] ADVANCE at time 0.0001340066977 with dt = 4.40358303e-06 [Level 2 step 39] Advanced 75392 cells [Level 2 step 40] ADVANCE at time 0.0001384102807 with dt = 4.40358303e-06 [Level 2 step 40] Advanced 75392 cells STEP = 10 TIME = 0.0001428138638 DT = 1.761433212e-05 [STEP 10] Coarse TimeStep time: 0.58986785 [STEP 10] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.001140695 new finest: 2 STEP = 10 TIME = 0.0001428138638 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 11] ADVANCE at time 0.0001428138638 with dt = 1.849504872e-05 [Level 0 step 11] Advanced 65536 cells [Level 1 step 21] ADVANCE at time 0.0001428138638 with dt = 9.247524362e-06 [Level 1 step 21] Advanced 36800 cells [Level 2 step 41] ADVANCE at time 0.0001428138638 with dt = 4.623762181e-06 [Level 2 step 41] Advanced 75392 cells [Level 2 step 42] ADVANCE at time 0.0001474376259 with dt = 4.623762181e-06 [Level 2 step 42] Advanced 75392 cells [Level 1 step 22] ADVANCE at time 0.0001520613881 with dt = 9.247524362e-06 [Level 1 step 22] Advanced 36800 cells [Level 2 step 43] ADVANCE at time 0.0001520613881 with dt = 4.623762181e-06 [Level 2 step 43] Advanced 75392 cells [Level 2 step 44] ADVANCE at time 0.0001566851503 with dt = 4.623762181e-06 [Level 2 step 44] Advanced 75392 cells STEP = 11 TIME = 0.0001613089125 DT = 1.849504872e-05 [STEP 11] Coarse TimeStep time: 0.601661873 [STEP 11] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 0.0001613089125 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 12] ADVANCE at time 0.0001613089125 with dt = 1.941980116e-05 grid_places() time: 0.000836738 new finest: 2 [Level 0 step 12] Advanced 65536 cells [Level 1 step 23] ADVANCE at time 0.0001613089125 with dt = 9.709900581e-06 [Level 1 step 23] Advanced 36800 cells [Level 2 step 45] ADVANCE at time 0.0001613089125 with dt = 4.85495029e-06 [Level 2 step 45] Advanced 75392 cells [Level 2 step 46] ADVANCE at time 0.0001661638628 with dt = 4.85495029e-06 [Level 2 step 46] Advanced 75392 cells [Level 1 step 24] ADVANCE at time 0.0001710188131 with dt = 9.709900581e-06 [Level 1 step 24] Advanced 36800 cells [Level 2 step 47] ADVANCE at time 0.0001710188131 with dt = 4.85495029e-06 [Level 2 step 47] Advanced 75392 cells [Level 2 step 48] ADVANCE at time 0.0001758737634 with dt = 4.85495029e-06 [Level 2 step 48] Advanced 75392 cells STEP = 12 TIME = 0.0001807287136 DT = 1.941980116e-05 [STEP 12] Coarse TimeStep time: 0.587474584 [STEP 12] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.000875031 new finest: 2 STEP = 12 TIME = 0.0001807287136 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 13] ADVANCE at time 0.0001807287136 with dt = 2.039079122e-05 [Level 0 step 13] Advanced 65536 cells [Level 1 step 25] ADVANCE at time 0.0001807287136 with dt = 1.019539561e-05 [Level 1 step 25] Advanced 36800 cells [Level 2 step 49] ADVANCE at time 0.0001807287136 with dt = 5.097697805e-06 [Level 2 step 49] Advanced 75392 cells [Level 2 step 50] ADVANCE at time 0.0001858264114 with dt = 5.097697805e-06 [Level 2 step 50] Advanced 75392 cells [Level 1 step 26] ADVANCE at time 0.0001909241093 with dt = 1.019539561e-05 [Level 1 step 26] Advanced 36800 cells [Level 2 step 51] ADVANCE at time 0.0001909241093 with dt = 5.097697805e-06 [Level 2 step 51] Advanced 75392 cells [Level 2 step 52] ADVANCE at time 0.0001960218071 with dt = 5.097697805e-06 [Level 2 step 52] Advanced 75392 cells STEP = 13 TIME = 0.0002011195049 DT = 2.039079122e-05 [STEP 13] Coarse TimeStep time: 0.592026167 [STEP 13] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 0.0002011195049 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 14] ADVANCE at time 0.0002011195049 with dt = 2.141033078e-05 grid_places() time: 0.000629105 new finest: 2 [Level 0 step 14] Advanced 65536 cells [Level 1 step 27] ADVANCE at time 0.0002011195049 with dt = 1.070516539e-05 [Level 1 step 27] Advanced 36800 cells [Level 2 step 53] ADVANCE at time 0.0002011195049 with dt = 5.352582695e-06 [Level 2 step 53] Advanced 75392 cells [Level 2 step 54] ADVANCE at time 0.0002064720876 with dt = 5.352582695e-06 [Level 2 step 54] Advanced 75392 cells [Level 1 step 28] ADVANCE at time 0.0002118246703 with dt = 1.070516539e-05 [Level 1 step 28] Advanced 36800 cells [Level 2 step 55] ADVANCE at time 0.0002118246703 with dt = 5.352582695e-06 [Level 2 step 55] Advanced 75392 cells [Level 2 step 56] ADVANCE at time 0.0002171772529 with dt = 5.352582695e-06 [Level 2 step 56] Advanced 75392 cells STEP = 14 TIME = 0.0002225298356 DT = 2.141033078e-05 [STEP 14] Coarse TimeStep time: 0.600094264 [STEP 14] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.000916019 new finest: 2 STEP = 14 TIME = 0.0002225298356 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 15] ADVANCE at time 0.0002225298356 with dt = 2.248084732e-05 [Level 0 step 15] Advanced 65536 cells [Level 1 step 29] ADVANCE at time 0.0002225298356 with dt = 1.124042366e-05 [Level 1 step 29] Advanced 36800 cells [Level 2 step 57] ADVANCE at time 0.0002225298356 with dt = 5.62021183e-06 [Level 2 step 57] Advanced 75392 cells [Level 2 step 58] ADVANCE at time 0.0002281500475 with dt = 5.62021183e-06 [Level 2 step 58] Advanced 75392 cells [Level 1 step 30] ADVANCE at time 0.0002337702593 with dt = 1.124042366e-05 [Level 1 step 30] Advanced 36800 cells [Level 2 step 59] ADVANCE at time 0.0002337702593 with dt = 5.62021183e-06 [Level 2 step 59] Advanced 75392 cells [Level 2 step 60] ADVANCE at time 0.0002393904711 with dt = 5.62021183e-06 [Level 2 step 60] Advanced 75392 cells STEP = 15 TIME = 0.000245010683 DT = 2.248084732e-05 [STEP 15] Coarse TimeStep time: 0.639238062 [STEP 15] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 0.000245010683 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 16] ADVANCE at time 0.000245010683 with dt = 2.360488969e-05 grid_places() time: 0.000657205 new finest: 2 [Level 0 step 16] Advanced 65536 cells [Level 1 step 31] ADVANCE at time 0.000245010683 with dt = 1.180244484e-05 [Level 1 step 31] Advanced 36800 cells [Level 2 step 61] ADVANCE at time 0.000245010683 with dt = 5.901222421e-06 [Level 2 step 61] Advanced 75392 cells [Level 2 step 62] ADVANCE at time 0.0002509119054 with dt = 5.901222421e-06 [Level 2 step 62] Advanced 75392 cells [Level 1 step 32] ADVANCE at time 0.0002568131278 with dt = 1.180244484e-05 [Level 1 step 32] Advanced 36800 cells [Level 2 step 63] ADVANCE at time 0.0002568131278 with dt = 5.901222421e-06 [Level 2 step 63] Advanced 75392 cells [Level 2 step 64] ADVANCE at time 0.0002627143502 with dt = 5.901222421e-06 [Level 2 step 64] Advanced 75392 cells STEP = 16 TIME = 0.0002686155726 DT = 2.360488969e-05 [STEP 16] Coarse TimeStep time: 0.609458294 [STEP 16] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.000853638 new finest: 2 STEP = 16 TIME = 0.0002686155726 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 17] ADVANCE at time 0.0002686155726 with dt = 2.478513417e-05 [Level 0 step 17] Advanced 65536 cells [Level 1 step 33] ADVANCE at time 0.0002686155726 with dt = 1.239256708e-05 [Level 1 step 33] Advanced 36800 cells [Level 2 step 65] ADVANCE at time 0.0002686155726 with dt = 6.196283542e-06 [Level 2 step 65] Advanced 75392 cells [Level 2 step 66] ADVANCE at time 0.0002748118562 with dt = 6.196283542e-06 [Level 2 step 66] Advanced 75392 cells [Level 1 step 34] ADVANCE at time 0.0002810081397 with dt = 1.239256708e-05 [Level 1 step 34] Advanced 36800 cells [Level 2 step 67] ADVANCE at time 0.0002810081397 with dt = 6.196283542e-06 [Level 2 step 67] Advanced 75392 cells [Level 2 step 68] ADVANCE at time 0.0002872044233 with dt = 6.196283542e-06 [Level 2 step 68] Advanced 75392 cells STEP = 17 TIME = 0.0002934007068 DT = 2.478513417e-05 [STEP 17] Coarse TimeStep time: 0.590719779 [STEP 17] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 0.0002934007068 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 18] ADVANCE at time 0.0002934007068 with dt = 2.602439088e-05 grid_places() time: 0.000811769 new finest: 2 [Level 0 step 18] Advanced 65536 cells [Level 1 step 35] ADVANCE at time 0.0002934007068 with dt = 1.301219544e-05 [Level 1 step 35] Advanced 36800 cells [Level 2 step 69] ADVANCE at time 0.0002934007068 with dt = 6.506097719e-06 [Level 2 step 69] Advanced 75392 cells [Level 2 step 70] ADVANCE at time 0.0002999068045 with dt = 6.506097719e-06 [Level 2 step 70] Advanced 75392 cells [Level 1 step 36] ADVANCE at time 0.0003064129023 with dt = 1.301219544e-05 [Level 1 step 36] Advanced 36800 cells [Level 2 step 71] ADVANCE at time 0.0003064129023 with dt = 6.506097719e-06 [Level 2 step 71] Advanced 75392 cells [Level 2 step 72] ADVANCE at time 0.000312919 with dt = 6.506097719e-06 [Level 2 step 72] Advanced 75392 cells STEP = 18 TIME = 0.0003194250977 DT = 2.602439088e-05 [STEP 18] Coarse TimeStep time: 0.63454777 [STEP 18] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 0 grid_places() time: 0.00094782 new finest: 2 STEP = 18 TIME = 0.0003194250977 : REGRID with lbase = 0 Level 1 25 grids 36800 cells 14.03808594 % of domain smallest grid: 8 x 8 biggest grid: 40 x 64 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 19] ADVANCE at time 0.0003194250977 with dt = 2.732561042e-05 [Level 0 step 19] Advanced 65536 cells [Level 1 step 37] ADVANCE at time 0.0003194250977 with dt = 1.366280521e-05 [Level 1 step 37] Advanced 36800 cells [Level 2 step 73] ADVANCE at time 0.0003194250977 with dt = 6.831402605e-06 [Level 2 step 73] Advanced 75392 cells [Level 2 step 74] ADVANCE at time 0.0003262565003 with dt = 6.831402605e-06 [Level 2 step 74] Advanced 75392 cells [Level 1 step 38] ADVANCE at time 0.0003330879029 with dt = 1.366280521e-05 [Level 1 step 38] Advanced 36800 cells [Level 2 step 75] ADVANCE at time 0.0003330879029 with dt = 6.831402605e-06 [Level 2 step 75] Advanced 75392 cells [Level 2 step 76] ADVANCE at time 0.0003399193055 with dt = 6.831402605e-06 [Level 2 step 76] Advanced 75392 cells STEP = 19 TIME = 0.0003467507081 DT = 2.732561042e-05 [STEP 19] Coarse TimeStep time: 0.662192391 [STEP 19] FAB kilobyte spread across MPI nodes: [18425 ... 22701] Now regridding at level lbase = 1 TIME = 0.0003467507081 : REGRID with lbase = 1 Level 2 58 grids 75392 cells 7.189941406 % of domain smallest grid: 8 x 8 biggest grid: 56 x 56 [Level 0 step 20] ADVANCE at time 0.0003467507081 with dt = 2.869189094e-05 grid_places() time: 0.000727396 new finest: 2 [Level 0 step 20] Advanced 65536 cells [Level 1 step 39] ADVANCE at time 0.0003467507081 with dt = 1.434594547e-05 [Level 1 step 39] Advanced 36800 cells [Level 2 step 77] ADVANCE at time 0.0003467507081 with dt = 7.172972736e-06 [Level 2 step 77] Advanced 75392 cells [Level 2 step 78] ADVANCE at time 0.0003539236808 with dt = 7.172972736e-06 [Level 2 step 78] Advanced 75392 cells [Level 1 step 40] ADVANCE at time 0.0003610966536 with dt = 1.434594547e-05 [Level 1 step 40] Advanced 36800 cells [Level 2 step 79] ADVANCE at time 0.0003610966536 with dt = 7.172972736e-06 [Level 2 step 79] Advanced 75392 cells [Level 2 step 80] ADVANCE at time 0.0003682696263 with dt = 7.172972736e-06 [Level 2 step 80] Advanced 75392 cells STEP = 20 TIME = 0.0003754425991 DT = 2.869189094e-05 [STEP 20] Coarse TimeStep time: 0.613965256 [STEP 20] FAB kilobyte spread across MPI nodes: [18425 ... 22701] PLOTFILE: file = dustcollapse-2d-poissonn_plt00020 Write plotfile time = 0.016235406 seconds Ending run at 06:19:24 UTC on 2025-01-28. Run time = 12.55115604 Run time without initialization = 12.36462795 Average number of zones advanced per microsecond: 0.713 Average number of zones advanced per microsecond per rank: 0.089 TinyProfiler total time across processes [min...avg...max]: 12.5511 ... 12.5511 ... 12.5512 -------------------------------------------------------------------------------------------- Name NCalls Excl. Min Excl. Avg Excl. Max Max % -------------------------------------------------------------------------------------------- Castro::construct_ctu_hydro_source() 140 2.0280 2.3419 2.6012 20.73% MLCGSolver::ParallelAllReduce 243419 1.701 1.903 2.301 18.34% MLPoisson::Fsmooth() 54976 0.8853 1.017 1.179 9.39% FillBoundary_finish() 156387 0.6105 0.8737 1.166 9.29% FillBoundary_nowait() 156387 0.5167 0.8651 1.034 8.24% check_for_negative_density() 140 0.3945 0.6514 0.9644 7.68% FabArray::ParallelCopy_finish() 21259 0.4727 0.662 0.9201 7.33% MLCellLinOp::applyBC() 163780 0.2474 0.3513 0.422 3.36% MLPoisson::Fapply() 107403 0.2496 0.2904 0.3236 2.58% FabArray::ParallelCopy_nowait() 21259 0.1773 0.2071 0.2352 1.87% FabArray::Saxpy() 241758 0.1678 0.2042 0.2251 1.79% FabArray::setVal() 26094 0.1461 0.1904 0.2227 1.77% Castro::estTimeStep() 308 0.1346 0.1692 0.2103 1.68% amrex::Dot() 193212 0.1468 0.1798 0.2048 1.63% Castro::reset_internal_energy(Fab) 5919 0.1476 0.1713 0.1917 1.53% Castro::normalize_species() 1182 0.1358 0.1525 0.1731 1.38% FabArray::norminf() 100589 0.1042 0.1212 0.1362 1.08% MLCGSolver::bicgstab 1420 0.1126 0.1296 0.1359 1.08% MLPoisson::normalize() 98026 0.09475 0.1111 0.1206 0.96% amrex::Copy() 9904 0.07838 0.1026 0.1143 0.91% amrex::average_down 8093 0.07734 0.09089 0.1018 0.81% Castro::construct_new_gravity_source() 260 0.07446 0.08547 0.09731 0.78% MLMG::ResNormInf() 2383 0.03752 0.06106 0.09255 0.74% FillPatchInterp(MF) 728 0.07396 0.07677 0.08161 0.65% MLCellLinOp::defineAuxData() 360 0.04754 0.06278 0.0783 0.62% Castro::computeTemp() 1189 0.05824 0.06636 0.07376 0.59% Gravity::actual_solve_with_mlmg() 360 0.03444 0.04956 0.06809 0.54% FabArray::Xpay() 58163 0.04632 0.05692 0.06363 0.51% MLMG::addInterpCorrection() 6101 0.0468 0.05336 0.06136 0.49% FabArray::FillBoundary() 156387 0.05332 0.05593 0.0588 0.47% FillPatchIterator::Initialize 889 0.04055 0.0528 0.05821 0.46% amrex::Add() 6281 0.03789 0.04581 0.05423 0.43% MLMG::prepareForSolve() 360 0.0368 0.04523 0.05374 0.43% amrex::average_down_w_geom 248 0.03955 0.04632 0.05214 0.42% Castro::initData() 7 0.04186 0.04856 0.05197 0.41% FillPatchSingleLevel 1617 0.03233 0.04136 0.04676 0.37% FabArrayBase::CPC::define() 4099 0.03254 0.03812 0.0433 0.35% MLCellLinOp::apply() 107403 0.03654 0.03981 0.04212 0.34% FillPatchTwoLevels 756 0.0352 0.03786 0.041 0.33% MLMG::solve() 360 0.01305 0.02499 0.03972 0.32% Castro::reflux() 60 0.02482 0.03229 0.03846 0.31% FluxRegister::Reflux() 960 0.02447 0.03203 0.03735 0.30% Gravity::fill_multipole_BCs() 70 0.03358 0.03485 0.03725 0.30% BndryData::define() 540 0.01635 0.02401 0.03357 0.27% Castro::initMFs() 35 0.02027 0.02587 0.03139 0.25% Castro::initialize_do_advance() 140 0.01667 0.02728 0.03103 0.25% FabArrayBase::getCPC() 29651 0.02843 0.02959 0.03073 0.24% FabArrayBase::getFB() 156387 0.0244 0.02634 0.02802 0.22% MLCellLinOp::reflux() 951 0.02015 0.02318 0.02797 0.22% Castro::construct_new_source() 1300 0.02064 0.02371 0.02513 0.20% MLCellLinOp::updateSolBC() 871 0.01248 0.01816 0.02464 0.20% Castro::enforce_min_density() 1182 0.01943 0.02182 0.02405 0.19% MLMG::interpCorrection_1 771 0.01678 0.02002 0.02379 0.19% VisMF::Write(FabArray) 6 0.007064 0.009598 0.02244 0.18% MultiFab::contains_nan() 280 0.01731 0.02034 0.02215 0.18% Amr::writePlotFile() 2 0.006368 0.01925 0.02179 0.17% MLCellLinOp::updateCorBC() 771 0.01101 0.01608 0.02173 0.17% Castro::FluxRegCrseInit 140 0.01327 0.01626 0.01937 0.15% MLCellLinOp::smooth() 27488 0.01645 0.01738 0.01818 0.14% Gravity::get_new_grav_vector() 263 0.01101 0.01384 0.01646 0.13% MLPoisson::FFlux() 7882 0.007793 0.01254 0.01598 0.13% MLCellLinOp::setLevelBC() 450 0.008612 0.01221 0.01561 0.12% MLCellLinOp::defineBC() 360 0.008732 0.01134 0.01432 0.11% Castro::initialize_advance() 140 0.008744 0.01189 0.01418 0.11% Castro::construct_old_source() 700 0.01045 0.01292 0.01412 0.11% StateData::define() 140 0.01016 0.0119 0.01393 0.11% Castro::FluxRegFineAdd() 140 0.006216 0.009276 0.01361 0.11% FPinfo::FPinfo() 7 0.00133 0.006273 0.0136 0.11% Castro::swap_state_time_levels() 140 0.00537 0.008839 0.01158 0.09% Castro::buildMetrics() 35 0.006668 0.008107 0.01118 0.09% Castro::construct_old_gravity_source() 140 0.00651 0.009762 0.01114 0.09% MLCellLinOp::compGrad() 450 0.00836 0.009899 0.01098 0.09% MultiFab::max() 90 0.004291 0.006918 0.01039 0.08% FabArray::ParallelCopy() 21259 0.009098 0.009589 0.01029 0.08% Gravity::get_old_grav_vector() 140 0.005584 0.007136 0.009918 0.08% Amr::regrid() 21 0.004676 0.006777 0.008923 0.07% FabArray::setVal(val, thecmd, scomp, ncomp) 8420 0.003542 0.006325 0.0079 0.06% Gravity::solve_for_phi() 280 0.005766 0.0067 0.007593 0.06% Gravity::gravity_sync() 60 0.00501 0.006219 0.006854 0.05% AmrMesh::MakeNewGrids() 23 0.003043 0.005588 0.006343 0.05% Amr::coarseTimeStep() 20 0.002852 0.004381 0.006139 0.05% Amr::timeStep() 140 0.002575 0.003315 0.005836 0.05% MLLinOp::defineGrids() 360 0.004528 0.00503 0.005717 0.05% AmrLevel::FillPatch() 889 0.003849 0.004673 0.005678 0.05% Castro::Castro() 35 0.004324 0.004727 0.005161 0.04% MLMG::mgVcycle() 3385 0.003961 0.004338 0.004548 0.04% MLCellLinOp::correctionResidual() 7643 0.003708 0.003903 0.004116 0.03% average_down_faces 360 0.002669 0.003304 0.004087 0.03% Gravity::GetCrsePhi() 250 0.002445 0.003014 0.003688 0.03% MLMG::actualBottomSolve() 1843 0.002598 0.002813 0.003514 0.03% Gravity::update_max_rhs() 30 0.00281 0.003237 0.003456 0.03% Castro::construct_old_gravity() 140 0.00219 0.002573 0.003249 0.03% MLMG::MLResNormInf() 440 0.00105 0.001718 0.002895 0.02% MLMG::oneIter() 1843 0.002509 0.002699 0.00289 0.02% Gravity::average_fine_ec_onto_crse_ec() 90 0.001678 0.002193 0.002628 0.02% Castro::reset_internal_energy(MultiFab) 1189 0.00167 0.002079 0.002453 0.02% MLMG:computeResOfCorrection() 6101 0.00198 0.002184 0.002373 0.02% Castro::finalize_advance() 140 0.00165 0.001858 0.002141 0.02% MLCellLinOp::solutionResidual() 3154 0.001876 0.001952 0.002112 0.02% MLMG::mgVcycle_bottom 3385 0.001953 0.002027 0.002106 0.02% Gravity::multilevel_solve_for_new_phi() 20 0.001295 0.001715 0.001965 0.02% Castro::finalize_do_advance() 140 0.001448 0.001635 0.001924 0.02% MLMG::mgVcycle_down::0 1843 0.001722 0.001795 0.001878 0.01% Gravity::solve_phi_with_mlmg() 300 0.00111 0.001458 0.00186 0.01% Castro::clean_state() 1182 0.001455 0.00156 0.001663 0.01% MLMG::mgVcycle_down::1 1843 0.001403 0.001486 0.001573 0.01% FillPatchIterator::FillFromTwoLevels() 756 0.001272 0.001382 0.001568 0.01% MLMG::mgVcycle_up::1 1843 0.001298 0.001365 0.001437 0.01% Castro::do_advance_ctu() 140 0.001078 0.001164 0.001306 0.01% MLMG::computeResWithCrseSolFineCor() 771 0.001063 0.001142 0.001215 0.01% MLMG::mgVcycle_up::0 1843 0.001085 0.001137 0.00119 0.01% FabArrayBase::TheFPinfo() 728 0.0009518 0.001057 0.00119 0.01% Castro::construct_new_gravity() 140 0.0009319 0.001017 0.001093 0.01% MLMG::computeResidual() 1843 0.0007852 0.0009012 0.001042 0.01% main() 1 0.0009217 0.0009616 0.001023 0.01% MLPoisson::define() 360 0.0007392 0.0007942 0.0008895 0.01% Gravity::actual_multilevel_solve() 20 0.000556 0.0006756 0.0007644 0.01% Castro::do_new_sources() 260 0.0006418 0.0006852 0.0007339 0.01% Castro::do_old_sources() 140 0.0004731 0.0005393 0.0006843 0.01% MLMG::miniCycle() 1542 0.0005597 0.0005835 0.0006106 0.00% MLLinOp::define() 360 0.0004859 0.0005254 0.000596 0.00% MLMG::computeResWithCrseCorFineCor() 771 0.0005079 0.000551 0.0005903 0.00% MLMG::computeMLResidual() 440 0.0004542 0.0004901 0.0005637 0.00% AmrLevel::derive() 34 0.0003953 0.0004557 0.0005323 0.00% Castro::subcycle_advance_ctu() 140 0.0003917 0.0004657 0.000509 0.00% Castro::advance() 140 0.0004201 0.0004524 0.0004948 0.00% Castro::apply_source_to_state() 520 0.0004089 0.0004433 0.0004634 0.00% MLMG::mgVcycle_down::4 483 0.0003284 0.0003862 0.0004581 0.00% MLMG::mgVcycle_down::2 483 0.0003887 0.0004175 0.0004449 0.00% MLMG::mgVcycle_down::6 483 0.0003918 0.0004132 0.0004427 0.00% MLMG::mgVcycle_down::3 483 0.0003499 0.0003784 0.0004201 0.00% MLMG::mgVcycle_down::5 483 0.0003103 0.0003471 0.0003757 0.00% MLMG::getGradSolution() 360 0.0002547 0.0002741 0.0003096 0.00% Castro::expand_state() 200 0.0002195 0.0002555 0.0003095 0.00% MLMG::mgVcycle_up::2 483 0.0002561 0.0002782 0.0003016 0.00% MLMG::mgVcycle_up::3 483 0.0002342 0.0002565 0.0002773 0.00% Castro::post_regrid() 66 0.000164 0.0002034 0.0002671 0.00% MLMG::mgVcycle_up::4 483 0.0002208 0.0002408 0.00026 0.00% AmrLevel::AmrLevel(dm) 35 0.0002352 0.0002481 0.0002588 0.00% FillPatchIterator::FillFromLevel0() 133 0.0001787 0.0001951 0.0002421 0.00% Castro::post_timestep() 140 0.0001906 0.0001998 0.000224 0.00% Castro::check_for_nan() 280 0.0001621 0.0001808 0.0002066 0.00% Castro::avgDown(state_indx) 248 0.0001631 0.0001758 0.000197 0.00% Gravity::solve_for_delta_phi 60 9.712e-05 0.0001142 0.0001335 0.00% Amr::FinalizeInit() 1 3.981e-06 1.749e-05 0.0001085 0.00% Castro::errorEst() 34 7.684e-05 8.285e-05 9.077e-05 0.00% Amr::grid_places() 23 8.095e-05 8.529e-05 9.074e-05 0.00% Castro::init(old) 28 7.342e-05 8.309e-05 8.846e-05 0.00% Castro::avgDown() 62 6.634e-05 7.106e-05 7.468e-05 0.00% Castro::computeNewDt() 28 4.16e-05 4.643e-05 5.371e-05 0.00% Amr::defBaseLevel() 1 3.41e-05 4.035e-05 4.671e-05 0.00% Amr::bldFineLevels() 1 2.217e-05 2.677e-05 4.426e-05 0.00% Castro::derive() 34 2.24e-05 2.436e-05 2.597e-05 0.00% Castro::post_init() 3 1.193e-05 1.396e-05 1.66e-05 0.00% Amr::InitializeInit() 1 2.759e-06 3.554e-06 4.844e-06 0.00% Castro::computeInitialDt() 2 2.928e-06 3.306e-06 3.916e-06 0.00% Amr::init() 1 1.704e-06 2.203e-06 2.683e-06 0.00% Amr::initialInit() 1 1.311e-06 1.584e-06 2.128e-06 0.00% Other 11895 0.03704 0.05093 0.06864 0.55% -------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------- Name NCalls Incl. Min Incl. Avg Incl. Max Max % -------------------------------------------------------------------------------------------- main() 1 12.55 12.55 12.55 100.00% Amr::coarseTimeStep() 20 12.35 12.35 12.35 98.37% Amr::timeStep() 140 12.33 12.33 12.33 98.23% Castro::advance() 140 8.93 8.935 8.938 71.21% Castro::subcycle_advance_ctu() 140 8.697 8.729 8.777 69.93% Castro::do_advance_ctu() 140 8.696 8.728 8.776 69.92% Gravity::actual_solve_with_mlmg() 360 7.15 7.159 7.17 57.13% MLMG::solve() 360 6.891 6.9 6.912 55.07% MLMG::oneIter() 1843 6.451 6.474 6.491 51.71% MLMG::mgVcycle() 3385 5.993 6.047 6.083 48.47% Gravity::solve_phi_with_mlmg() 300 5.36 5.375 5.383 42.89% Gravity::solve_for_phi() 280 4.552 4.565 4.574 36.45% MLMG::mgVcycle_bottom 3385 4.243 4.263 4.273 34.05% MLMG::actualBottomSolve() 1843 3.825 3.833 3.856 30.72% MLCGSolver::bicgstab 1420 3.821 3.83 3.851 30.68% Castro::construct_new_gravity() 140 3.582 3.587 3.593 28.63% Castro::construct_ctu_hydro_source() 140 3.043 3.05 3.058 24.37% Castro::post_timestep() 140 2.458 2.461 2.466 19.65% MLCGSolver::ParallelAllReduce 243419 1.795 1.996 2.377 18.94% MLCellLinOp::applyBC() 163780 1.922 2.142 2.377 18.93% Castro::reflux() 60 2.288 2.303 2.325 18.52% FabArray::FillBoundary() 156387 1.561 1.822 2.064 16.44% Gravity::gravity_sync() 60 1.941 1.941 1.942 15.47% MLCellLinOp::smooth() 27488 1.779 1.853 1.908 15.21% Gravity::solve_for_delta_phi 60 1.845 1.848 1.849 14.73% MLCellLinOp::apply() 107403 1.356 1.622 1.784 14.22% MLPoisson::Fsmooth() 54976 0.8853 1.017 1.179 9.39% FillBoundary_finish() 156387 0.6105 0.8737 1.166 9.29% FabArray::ParallelCopy() 21259 0.7861 0.9408 1.163 9.26% Castro::construct_old_gravity() 140 1.138 1.143 1.149 9.15% FillBoundary_nowait() 156387 0.5413 0.892 1.063 8.47% Amr::regrid() 21 0.9674 0.9745 0.9822 7.83% check_for_negative_density() 140 0.3945 0.6514 0.9644 7.68% FabArray::ParallelCopy_finish() 21259 0.4727 0.662 0.9201 7.33% Gravity::multilevel_solve_for_new_phi() 20 0.829 0.8305 0.8323 6.63% Gravity::actual_multilevel_solve() 20 0.8271 0.8288 0.831 6.62% AmrLevel::FillPatch() 889 0.6214 0.6934 0.803 6.40% Castro::post_regrid() 66 0.7916 0.7968 0.8016 6.39% FillPatchIterator::Initialize 889 0.5685 0.6475 0.7677 6.12% FillPatchIterator::FillFromTwoLevels() 756 0.4904 0.5692 0.6959 5.54% FillPatchTwoLevels 756 0.4892 0.5678 0.6946 5.53% MLMG::mgVcycle_down::0 1843 0.5297 0.5575 0.576 4.59% MLMG::mgVcycle_up::0 1843 0.4902 0.5049 0.516 4.11% FillPatchSingleLevel 1617 0.2823 0.3572 0.4973 3.96% Castro::initialize_do_advance() 140 0.4019 0.4297 0.4746 3.78% Castro::clean_state() 1182 0.3641 0.415 0.4657 3.71% MLMG::miniCycle() 1542 0.4044 0.43 0.4455 3.55% Castro::expand_state() 200 0.2915 0.3207 0.3799 3.03% MLPoisson::Fapply() 107403 0.2496 0.2904 0.3236 2.58% MLCellLinOp::correctionResidual() 7643 0.278 0.2974 0.3116 2.48% FabArray::ParallelCopy_nowait() 21259 0.2335 0.2692 0.3032 2.42% Castro::do_new_sources() 260 0.2227 0.2578 0.2914 2.32% MLMG::mgVcycle_down::1 1843 0.2632 0.274 0.288 2.29% Castro::computeTemp() 1189 0.2079 0.2397 0.2676 2.13% MLCellLinOp::solutionResidual() 3154 0.2343 0.2531 0.2652 2.11% Castro::do_old_sources() 140 0.2416 0.2468 0.2575 2.05% FabArray::Saxpy() 241758 0.1678 0.2042 0.2251 1.79% MLMG::computeResWithCrseSolFineCor() 771 0.1788 0.2028 0.2248 1.79% FabArray::setVal() 26094 0.1461 0.1904 0.2227 1.77% MLMG::mgVcycle_up::1 1843 0.2078 0.2149 0.2199 1.75% Castro::estTimeStep() 308 0.1346 0.1692 0.2103 1.68% amrex::Dot() 193212 0.1468 0.1798 0.2048 1.63% amrex::average_down 8093 0.1407 0.1705 0.1973 1.57% Castro::reset_internal_energy(MultiFab) 1189 0.1496 0.1733 0.1939 1.54% Castro::reset_internal_energy(Fab) 5919 0.1476 0.1713 0.1917 1.53% Castro::initialize_advance() 140 0.1199 0.1624 0.1911 1.52% Amr::init() 1 0.1859 0.1861 0.1862 1.48% Amr::initialInit() 1 0.1735 0.1737 0.1739 1.39% Castro::normalize_species() 1182 0.1358 0.1525 0.1731 1.38% Amr::FinalizeInit() 1 0.1579 0.1629 0.1661 1.32% MLMG::computeResidual() 1843 0.1378 0.1509 0.1607 1.28% MLMG:computeResOfCorrection() 6101 0.1509 0.1559 0.1604 1.28% MLMG::addInterpCorrection() 6101 0.06398 0.1242 0.1542 1.23% Castro::construct_new_source() 1300 0.1191 0.138 0.1541 1.23% MLPoisson::define() 360 0.09511 0.1232 0.1525 1.21% FabArray::norminf() 100589 0.1042 0.1212 0.1362 1.08% MLMG::mgVcycle_up::2 483 0.03878 0.08645 0.1352 1.08% Castro::avgDown() 62 0.09032 0.114 0.135 1.08% Castro::avgDown(state_indx) 248 0.09025 0.114 0.1349 1.07% amrex::average_down_w_geom 248 0.09008 0.1138 0.1347 1.07% Gravity::get_new_grav_vector() 263 0.1173 0.1238 0.1318 1.05% MLPoisson::normalize() 98026 0.09475 0.1111 0.1206 0.96% MLMG::ResNormInf() 2383 0.06777 0.08971 0.1184 0.94% Castro::finalize_do_advance() 140 0.07043 0.08972 0.1155 0.92% amrex::Copy() 9904 0.07838 0.1026 0.1143 0.91% MLMG::computeResWithCrseCorFineCor() 771 0.09654 0.1075 0.1127 0.90% MLCellLinOp::reflux() 951 0.08164 0.09568 0.1075 0.86% MLCellLinOp::setLevelBC() 450 0.03898 0.06841 0.1038 0.83% Castro::construct_new_gravity_source() 260 0.07446 0.08547 0.09731 0.78% MLCellLinOp::defineAuxData() 360 0.05688 0.07423 0.09054 0.72% MLMG::computeMLResidual() 440 0.06661 0.07559 0.08473 0.68% Amr::bldFineLevels() 1 0.07679 0.07948 0.08199 0.65% FillPatchInterp(MF) 728 0.07396 0.07677 0.08161 0.65% Gravity::get_old_grav_vector() 140 0.06985 0.07587 0.08082 0.64% Castro::post_init() 3 0.07458 0.07714 0.07983 0.64% MLCellLinOp::updateSolBC() 871 0.05874 0.06981 0.07978 0.64% MLMG::prepareForSolve() 360 0.07495 0.07751 0.07937 0.63% Castro::init(old) 28 0.05517 0.06479 0.07515 0.60% MLCellLinOp::updateCorBC() 771 0.05559 0.06577 0.07443 0.59% FabArrayBase::getCPC() 29651 0.06103 0.06771 0.07386 0.59% FluxRegister::Reflux() 960 0.05457 0.06582 0.0728 0.58% MLMG::mgVcycle_up::3 483 0.005832 0.03273 0.07267 0.58% FabArray::Xpay() 58163 0.04632 0.05692 0.06363 0.51% MLMG::interpCorrection_1 771 0.03534 0.04594 0.06216 0.50% Castro::Castro() 35 0.03731 0.0471 0.05731 0.46% Castro::initData() 7 0.04578 0.05261 0.05604 0.45% amrex::Add() 6281 0.03789 0.04581 0.05423 0.43% MLCellLinOp::defineBC() 360 0.02798 0.03959 0.05306 0.42% Gravity::GetCrsePhi() 250 0.03124 0.03626 0.04876 0.39% Castro::finalize_advance() 140 0.04017 0.04355 0.04862 0.39% MLMG::mgVcycle_down::2 483 0.04397 0.04588 0.04845 0.39% FabArrayBase::CPC::define() 4099 0.03254 0.03812 0.0433 0.35% BndryData::define() 540 0.01895 0.02796 0.0384 0.31% Gravity::fill_multipole_BCs() 70 0.03478 0.03596 0.03825 0.30% Castro::apply_source_to_state() 520 0.02636 0.03471 0.0381 0.30% MLMG::mgVcycle_down::3 483 0.007351 0.0205 0.03771 0.30% Castro::construct_old_source() 700 0.02497 0.03304 0.03598 0.29% Amr::grid_places() 23 0.02291 0.02797 0.03183 0.25% AmrMesh::MakeNewGrids() 23 0.02283 0.02789 0.03175 0.25% Castro::initMFs() 35 0.02027 0.02587 0.03139 0.25% FillPatchIterator::FillFromLevel0() 133 0.02025 0.02432 0.02974 0.24% Amr::writePlotFile() 2 0.02937 0.02945 0.02949 0.23% FabArrayBase::getFB() 156387 0.02462 0.02686 0.02867 0.23% Castro::FluxRegCrseInit 140 0.02691 0.02819 0.02865 0.23% Castro::enforce_min_density() 1182 0.01943 0.02182 0.02405 0.19% Castro::computeNewDt() 28 0.0211 0.02291 0.02394 0.19% VisMF::Write(FabArray) 6 0.007064 0.009598 0.02244 0.18% Castro::check_for_nan() 280 0.01751 0.02052 0.02233 0.18% Gravity::average_fine_ec_onto_crse_ec() 90 0.0205 0.02139 0.02227 0.18% MultiFab::contains_nan() 280 0.01731 0.02034 0.02215 0.18% Gravity::update_max_rhs() 30 0.01626 0.01783 0.02037 0.16% MLMG::getGradSolution() 360 0.01446 0.01755 0.01949 0.16% MLCellLinOp::compGrad() 450 0.0142 0.01728 0.01923 0.15% Castro::errorEst() 34 0.009794 0.01462 0.01819 0.14% MLPoisson::FFlux() 7882 0.007793 0.01254 0.01598 0.13% Amr::InitializeInit() 1 0.007729 0.01084 0.01561 0.12% Amr::defBaseLevel() 1 0.007724 0.01084 0.0156 0.12% Castro::derive() 34 0.007519 0.01172 0.01508 0.12% AmrLevel::derive() 34 0.007493 0.0117 0.01505 0.12% FabArrayBase::TheFPinfo() 728 0.002575 0.007555 0.01477 0.12% MLMG::mgVcycle_down::4 483 0.006715 0.008375 0.01428 0.11% AmrLevel::AmrLevel(dm) 35 0.01041 0.01215 0.01419 0.11% StateData::define() 140 0.01016 0.0119 0.01393 0.11% FPinfo::FPinfo() 7 0.00156 0.006498 0.01381 0.11% Castro::FluxRegFineAdd() 140 0.006216 0.009276 0.01361 0.11% average_down_faces 360 0.00943 0.01148 0.01282 0.10% Castro::swap_state_time_levels() 140 0.00537 0.008839 0.01158 0.09% Castro::buildMetrics() 35 0.006769 0.008218 0.0113 0.09% Castro::construct_old_gravity_source() 140 0.00651 0.009762 0.01114 0.09% MLMG::mgVcycle_down::5 483 0.006563 0.00752 0.01064 0.08% MultiFab::max() 90 0.004291 0.006918 0.01039 0.08% MLMG::mgVcycle_up::4 483 0.005241 0.006354 0.01017 0.08% MLMG::MLResNormInf() 440 0.007355 0.008394 0.009687 0.08% MLLinOp::define() 360 0.007979 0.008559 0.009422 0.08% Castro::computeInitialDt() 2 0.001225 0.006194 0.009319 0.07% MLMG::mgVcycle_down::6 483 0.006757 0.00731 0.008941 0.07% MLLinOp::defineGrids() 360 0.007493 0.008033 0.008874 0.07% FabArray::setVal(val, thecmd, scomp, ncomp) 8420 0.003542 0.006325 0.0079 0.06% Other 11895 0.0648 0.09013 0.1236 0.98% -------------------------------------------------------------------------------------------- Pinned Memory Usage: --------------------------------------------------------------------------------------------------------------------- Name Nalloc Nfree AvgMem min AvgMem avg AvgMem max MaxMem min MaxMem avg MaxMem max --------------------------------------------------------------------------------------------------------------------- The_Pinned_Arena::Initialize() 8 8 8 B 10 B 21 B 8192 KiB 8192 KiB 8192 KiB --------------------------------------------------------------------------------------------------------------------- Cpu Memory Usage: ------------------------------------------------------------------------------------------------------------------------------------- Name Nalloc Nfree AvgMem min AvgMem avg AvgMem max MaxMem min MaxMem avg MaxMem max ------------------------------------------------------------------------------------------------------------------------------------- Castro::initMFs() 30550 30550 5544 KiB 6061 KiB 6490 KiB 8120 KiB 8741 KiB 9560 KiB StateData::define() 6472 6472 3829 KiB 4157 KiB 4435 KiB 5643 KiB 6055 KiB 6768 KiB Castro::swap_state_time_levels() 5704 5704 3306 KiB 3591 KiB 3847 KiB 3821 KiB 4150 KiB 4428 KiB Castro::buildMetrics() 9708 9708 1245 KiB 1386 KiB 1513 KiB 1920 KiB 2059 KiB 2363 KiB Castro::reflux() 17520 17520 52 KiB 58 KiB 65 KiB 2281 KiB 2309 KiB 2331 KiB Castro::construct_ctu_hydro_source() 43920 43920 195 KiB 219 KiB 237 KiB 1293 KiB 1431 KiB 1623 KiB Castro::initialize_do_advance() 5960 5960 544 KiB 622 KiB 769 KiB 865 KiB 1074 KiB 1505 KiB FillPatchIterator::Initialize 35453 35453 28 KiB 31 KiB 33 KiB 865 KiB 1074 KiB 1505 KiB MLMG::prepareForSolve() 184260 184260 226 KiB 256 KiB 280 KiB 846 KiB 909 KiB 976 KiB Castro::initialize_advance() 5960 5960 352 KiB 409 KiB 498 KiB 545 KiB 688 KiB 942 KiB Castro::Castro() 6472 6472 358 KiB 389 KiB 415 KiB 845 KiB 873 KiB 922 KiB Amr::writePlotFile() 198 198 308 B 436 B 1004 B 512 KiB 598 KiB 740 KiB Castro::FluxRegCrseInit 7920 7920 833 B 972 B 1099 B 715 KiB 715 KiB 715 KiB FluxRegister::Reflux() 21120 21120 1098 B 1742 B 1975 B 650 KiB 650 KiB 650 KiB Castro::construct_old_source() 5960 5960 446 B 720 B 903 B 448 KiB 523 KiB 647 KiB Castro::construct_new_source() 10100 10100 1140 B 1686 B 2160 B 448 KiB 523 KiB 647 KiB FillPatchSingleLevel 5920 5920 2847 B 3601 B 5494 B 640 KiB 640 KiB 640 KiB Gravity::update_max_rhs() 8910 8910 360 B 398 B 421 B 482 KiB 528 KiB 565 KiB Gravity::gravity_sync() 16560 16560 61 KiB 68 KiB 76 KiB 409 KiB 459 KiB 505 KiB FabArray::ParallelCopy_nowait() 264906 264906 2739 B 4140 B 6213 B 193 KiB 319 KiB 416 KiB Gravity::multilevel_solve_for_new_phi() 3640 3640 350 KiB 381 KiB 407 KiB 355 KiB 386 KiB 412 KiB amrex::average_down_w_geom 23224 23224 1340 B 1551 B 1920 B 192 KiB 257 KiB 323 KiB Gravity::get_old_grav_vector() 5960 5960 854 B 996 B 1068 B 155 KiB 196 KiB 269 KiB Gravity::get_new_grav_vector() 10199 10199 1307 B 1508 B 1663 B 155 KiB 196 KiB 269 KiB MLCellLinOp::defineAuxData() 383260 383260 25 KiB 31 KiB 36 KiB 207 KiB 234 KiB 258 KiB FillPatchTwoLevels 144956 144956 2586 B 2868 B 3391 B 229 KiB 232 KiB 234 KiB Castro::construct_old_gravity() 3960 3960 7498 B 9 KiB 12 KiB 198 KiB 198 KiB 198 KiB Gravity::create_comp_minus_level_grad_phi() 3960 3960 17 KiB 22 KiB 26 KiB 194 KiB 194 KiB 194 KiB Gravity::actual_multilevel_solve() 1820 1820 8611 B 9624 B 10 KiB 158 KiB 173 KiB 186 KiB MLCellLinOp::defineBC() 38070 38070 1297 B 1987 B 3153 B 75 KiB 95 KiB 124 KiB Castro::build_fine_mask() 714 714 10 KiB 11 KiB 12 KiB 86 KiB 99 KiB 111 KiB Gravity::fill_multipole_BCs() 5810 5810 95 B 101 B 115 B 64 KiB 74 KiB 92 KiB Gravity::solve_for_phi() 11920 11920 18 KiB 21 KiB 23 KiB 64 KiB 74 KiB 92 KiB BndryData::define() 176880 176880 9883 B 14 KiB 20 KiB 44 KiB 61 KiB 81 KiB AmrLevel::derive() 746 746 23 B 44 B 64 B 68 KiB 68 KiB 68 KiB Gravity::GetCrsePhi() 5440 5440 15 KiB 18 KiB 21 KiB 68 KiB 68 KiB 68 KiB MLCellLinOp::reflux() 36900 36900 58 B 108 B 144 B 35 KiB 59 KiB 65 KiB Gravity::average_fine_ec_onto_crse_ec() 8460 8460 43 B 55 B 64 B 29 KiB 38 KiB 49 KiB FillPatchInterp(MF) 15618 15618 37 B 59 B 92 B 16 KiB 23 KiB 43 KiB MLCGSolver::bicgstab 251615 251615 5365 B 6157 B 6841 B 21 KiB 27 KiB 36 KiB MLMG::interpCorrection_1 36006 36006 50 B 68 B 120 B 17 KiB 22 KiB 29 KiB average_down_faces 8460 8460 11 B 14 B 17 B 14 KiB 19 KiB 24 KiB amrex::average_down 104271 104271 126 B 146 B 186 B 13 KiB 18 KiB 23 KiB AmrMesh::MakeNewGrids() 1492 1492 6 B 8 B 12 B 9572 B 9572 B 9572 B MLCellLinOp::setLevelBC() 50120 50120 1056 B 1570 B 2080 B 3072 B 4792 B 8384 B FillBoundary_nowait() 2280384 2280384 123 B 203 B 277 B 3120 B 4283 B 5216 B OwnerMask() 746 746 0 B 0 B 0 B 2592 B 2592 B 2592 B MLMG::addInterpCorrection() 11109 11109 0 B 4 B 8 B 1024 B 1024 B 1024 B TagBoxArray::mapPRD 746 746 0 B 0 B 0 B 648 B 648 B 648 B MLCellLinOp::applyBC() 1310240 1310240 0 B 0 B 0 B 8 B 8 B 8 B ------------------------------------------------------------------------------------------------------------------------------------- AMReX (25.01-26-g4b34f9c89476) finalized