MPI initialized with 4 MPI processes MPI initialized with thread support level 3 OMP initialized with 4 OMP threads AMReX (22.05-6-gc4ad207584b0) initialized Starting run at 14:09:12 UTC on 2022-05-11. Successfully read inputs file ... Castro git describe: 22.05-21-ge341a51d4 AMReX git describe: 22.05-6-gc4ad20758 Microphysics git describe: 22.05 reading extern runtime parameters ... 1 Species: X Successfully read inputs file ... Castro::numpts_1d at level 0 is 118 Setting the gravity type to PoissonGrav Initializing the data at level 0 Done initializing the level 0 data ...estimated hydro-limited timestep at level 0: 0.06058602935 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.06058602935 grid_places() time: 0.016096779 new finest: 1 Castro::numpts_1d at level 1 is 229 Initializing the data at level 1 Done initializing the level 1 data Now regridding at level lbase = 0 grid_places() time: 0.018819124 new finest: 1 Castro::numpts_1d at level 1 is 229 Initializing the data at level 1 Done initializing the level 1 data STEP = 0 TIME = 0 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 Gravity::fill_multipole_BCs() time = 0.031364187 Gravity::fill_multipole_BCs() time = 0.029565327 ... norm of composite residual at level 0 2.61033581e-11 ... norm of composite residual at level 1 7.599698648e-12 TIME= 0 MASS = 1.989753521e+33 TIME= 0 XMOM = 1.989753521e+21 TIME= 0 YMOM = 1.989753521e+21 TIME= 0 ZMOM = 1.989753521e+21 TIME= 0 ANG MOM X = -2.216615442e+15 TIME= 0 ANG MOM Y = 3.025856e+15 TIME= 0 ANG MOM Z = -2.462906046e+14 TIME= 0 RHO*e = 2.895773303e+49 TIME= 0 RHO*K = 2984630281 TIME= 0 RHO*E = 2.895773303e+49 TIME= 0 RHO*PHI = -3.91341952e+50 TIME= 0 TOTAL ENERGY= -1.66713243e+50 TIME= 0 CENTER OF MASS X-LOC = -1.909887998e-08 TIME= 0 CENTER OF MASS X-VEL = 1e-12 TIME= 0 CENTER OF MASS Y-LOC = -3.626011571e-06 TIME= 0 CENTER OF MASS Y-VEL = 1e-12 TIME= 0 CENTER OF MASS Z-LOC = 2.54695719e-06 TIME= 0 CENTER OF MASS Z-VEL = 1e-12 INITIAL GRIDS Level 0 8 grids 262144 cells 100 % of domain smallest grid: 32 x 32 x 32 biggest grid: 32 x 32 x 32 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 PLOTFILE: file = evrard_collapse_plt00000 Write plotfile time = 0.626567796 seconds ...estimated hydro-limited timestep at level 0: 0.05590573933 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05590573933 ...estimated hydro-limited timestep at level 1: 0.0214203961 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.0214203961 [Level 0 step 1] ADVANCE with dt = 0.00428407922  Beginning subcycle 1 starting at time 0 with dt = 0.00428407922 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.027896039 Gravity::solve_for_phi() time = 0.402342123 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -6.425363096e+22 ymom added: -5.289050461e+23 zmom added: 1.284483683e+24 eint added: 0 ener added: 3.435973837e+11 Castro::do_old_sources() time = 0.148247215 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 2.019017446 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.026418259 Gravity::solve_for_phi() time = 0.353424128 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.265626101e+45 ener added: 4.741948798e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.047783502e+29 ymom added: -3.583434791e+29 zmom added: -4.413878513e+29 eint added: 0 ener added: -5.86874402e+45 Castro::do_new_sources() time = 0.168583681 ...estimated hydro-limited timestep at level 0: 0.05549701931 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05549701931  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.06961151685 [Level 0 step 1] Advanced 262144 cells [Level 1 step 1] ADVANCE with dt = 0.00214203961  Beginning subcycle 1 starting at time 0 with dt = 0.00214203961 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008344621 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -5.896069765e+21 ymom added: -3.4237157e+22 zmom added: -9.444732966e+21 eint added: 0 ener added: 1.073741824e+10 Castro::do_old_sources() time = 0.010210762 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.15283656 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.045575132 Contributions to the state from new-time sources: mass added: 0 xmom added: 2.650312377e+30 ymom added: 1.740907306e+31 zmom added: 2.007957704e+31 eint added: 0 ener added: -3.74035063e+44 Castro::do_new_sources() time = 0.01030672 ...estimated hydro-limited timestep at level 1: 0.02123690144 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02123690144  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01343752683 [Level 1 step 1] Advanced 4096 cells [Level 1 step 2] ADVANCE with dt = 0.00214203961  Beginning subcycle 1 starting at time 0.00214203961 with dt = 0.00214203961 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008536724 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: 5.300624749e+30 ymom added: 3.481814612e+31 zmom added: 4.015915412e+31 eint added: 0 ener added: -5.595187867e+43 Castro::do_old_sources() time = 0.009633889 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.151574566 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.045306161 Contributions to the state from new-time sources: mass added: 0 xmom added: 2.670239573e+30 ymom added: 1.742897458e+31 zmom added: 2.009947777e+31 eint added: 0 ener added: -2.6440017e+44 Castro::do_new_sources() time = 0.010343659 ...estimated hydro-limited timestep at level 1: 0.02109515232 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02109515232  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01237459918 [Level 1 step 2] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.029391213 Contributions to the state from new-time sources: mass added: 0 xmom added: -4.098171969e+30 ymom added: -1.885689248e+31 zmom added: -2.152738669e+31 eint added: 0 ener added: -2.643987505e+44 Castro::do_new_sources() time = 0.01113459 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.287821041e+45 ener added: 9.325366955e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: -4.992824881e+31 ymom added: -9.267624775e+31 zmom added: -1.057244087e+32 eint added: 0 ener added: -5.892614951e+45 Castro::do_new_sources() time = 0.155529669 Castro::reflux() at level 0 : time = 1.049665974 TIME= 0.00428407922 MASS = 1.989753521e+33 TIME= 0.00428407922 XMOM = 2.08534988e+30 TIME= 0.00428407922 YMOM = 2.203273442e+31 TIME= 0.00428407922 ZMOM = 2.540384541e+31 TIME= 0.00428407922 ANG MOM X = 4.867695589e+34 TIME= 0.00428407922 ANG MOM Y = 1.168438561e+38 TIME= 0.00428407922 ANG MOM Z = -1.168925277e+38 TIME= 0.00428407922 RHO*e = 2.894937561e+49 TIME= 0.00428407922 RHO*K = 5.109348284e+45 TIME= 0.00428407922 RHO*E = 2.895389769e+49 TIME= 0.00428407922 RHO*PHI = -3.913329612e+50 TIME= 0.00428407922 TOTAL ENERGY= -1.667125829e+50 TIME= 0.00428407922 CENTER OF MASS X-LOC = 11.98382123 TIME= 0.00428407922 CENTER OF MASS X-VEL = 0.001048044322 TIME= 0.00428407922 CENTER OF MASS Y-LOC = 11.9838505 TIME= 0.00428407922 CENTER OF MASS Y-VEL = 0.01107309734 TIME= 0.00428407922 CENTER OF MASS Z-LOC = 11.98385334 TIME= 0.00428407922 CENTER OF MASS Z-VEL = 0.01276733281 [STEP 1] Coarse TimeStep time: 5.717158422 [STEP 1] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 1 TIME = 0.00428407922 DT = 0.00428407922 ...estimated hydro-limited timestep at level 0: 0.05481929181 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05481929181 ...estimated hydro-limited timestep at level 1: 0.02109515233 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02109515233 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.05481929181 ... but limiting to: 0.004712487142 = 1.1 * 0.00428407922 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.02109515233 ... but limiting to: 0.002356243571 = 1.1 * 0.00214203961 Now regridding at level lbase = 0 grid_places() time: 0.012353166 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.029261625 STEP = 1 TIME = 0.00428407922 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.05481929181 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05481929181 ...estimated hydro-limited timestep at level 1: 0.02109515233 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02109515233 [Level 0 step 2] ADVANCE with dt = 0.004712487142  Beginning subcycle 1 starting at time 0.00428407922 with dt = 0.004712487142 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.030498994 Gravity::solve_for_phi() time = 0.395513149 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.874974017e+44 ener added: 4.409721566e+40 Contributions to the state from old-time sources: mass added: 0 xmom added: -2.520861041e+30 ymom added: -2.520045577e+30 zmom added: -2.519876894e+30 eint added: 0 ener added: 5.347659279e+44 Castro::do_old_sources() time = 0.139084121 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 1.972946475 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.026654926 Gravity::solve_for_phi() time = 0.351953066 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.000908092e+45 ener added: 5.210986253e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.815109666e+27 ymom added: -7.815584505e+27 zmom added: -7.81548956e+27 eint added: 0 ener added: -5.648302826e+45 Castro::do_new_sources() time = 0.155057457 ...estimated hydro-limited timestep at level 0: 0.05449405854 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05449405854  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07181138715 [Level 0 step 2] Advanced 262144 cells [Level 1 step 3] ADVANCE with dt = 0.002356243571  Beginning subcycle 1 starting at time 0.00428407922 with dt = 0.002356243571 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008078683 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -3.185300853e+30 ymom added: -3.185327378e+30 zmom added: -3.185329441e+30 eint added: 0 ener added: -1.221431421e+44 Castro::do_old_sources() time = 0.00944922 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.147212378 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.043474297 Contributions to the state from new-time sources: mass added: 0 xmom added: -9.982442524e+28 ymom added: -9.985005649e+28 zmom added: -9.985400532e+28 eint added: 0 ener added: -1.434626831e+44 Castro::do_new_sources() time = 0.010406303 ...estimated hydro-limited timestep at level 1: 0.02108473256 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02108473256  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01399543055 [Level 1 step 3] Advanced 4096 cells [Level 1 step 4] ADVANCE with dt = 0.002356243571  Beginning subcycle 1 starting at time 0.00664032279 with dt = 0.002356243571 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008020179 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -3.384949704e+30 ymom added: -3.385027486e+30 zmom added: -3.385037469e+30 eint added: 0 ener added: -1.902606906e+44 Castro::do_old_sources() time = 0.009458697 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.146442626 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.0435521 Contributions to the state from new-time sources: mass added: 0 xmom added: -1.060512434e+29 ymom added: -1.060767197e+29 zmom added: -1.060807056e+29 eint added: 0 ener added: -2.534886076e+44 Castro::do_new_sources() time = 0.01029868 ...estimated hydro-limited timestep at level 1: 0.0209956911 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.0209956911  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01298501331 [Level 1 step 4] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.028017107 Contributions to the state from new-time sources: mass added: 0 xmom added: 8.022565825e+28 ymom added: 8.020861359e+28 zmom added: 8.020623916e+28 eint added: 0 ener added: -2.534877224e+44 Castro::do_new_sources() time = 0.010279663 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.02338594e+45 ener added: 2.202517488e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 2.90085789e+30 ymom added: 1.649369565e+30 zmom added: 1.649265262e+30 eint added: 0 ener added: -5.675714276e+45 Castro::do_new_sources() time = 0.154165824 Castro::reflux() at level 0 : time = 1.030831865 TIME= 0.008996566361 MASS = 1.989753521e+33 TIME= 0.008996566361 XMOM = 1.831626502e+30 TIME= 0.008996566361 YMOM = 2.177945599e+31 TIME= 0.008996566361 ZMOM = 2.515065936e+31 TIME= 0.008996566361 ANG MOM X = 4.753948052e+34 TIME= 0.008996566361 ANG MOM Y = 1.166779154e+38 TIME= 0.008996566361 ANG MOM Z = -1.167254604e+38 TIME= 0.008996566361 RHO*e = 2.89352344e+49 TIME= 0.008996566361 RHO*K = 1.660835752e+46 TIME= 0.008996566361 RHO*E = 2.895121093e+49 TIME= 0.008996566361 RHO*PHI = -3.913262008e+50 TIME= 0.008996566361 TOTAL ENERGY= -1.667118895e+50 TIME= 0.008996566361 CENTER OF MASS X-LOC = 11.89705981 TIME= 0.008996566361 CENTER OF MASS X-VEL = 0.0009205293431 TIME= 0.008996566361 CENTER OF MASS Y-LOC = 11.8971449 TIME= 0.008996566361 CENTER OF MASS Y-VEL = 0.01094580598 TIME= 0.008996566361 CENTER OF MASS Z-LOC = 11.89715731 TIME= 0.008996566361 CENTER OF MASS Z-VEL = 0.01264008788 [STEP 2] Coarse TimeStep time: 5.954230021 [STEP 2] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 2 TIME = 0.008996566361 DT = 0.004712487142 ...estimated hydro-limited timestep at level 0: 0.05371691597 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05371691597 ...estimated hydro-limited timestep at level 1: 0.02099569111 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02099569111 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.05371691597 ... but limiting to: 0.005183735856 = 1.1 * 0.004712487142 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.02099569111 ... but limiting to: 0.002591867928 = 1.1 * 0.002356243571 Now regridding at level lbase = 0 grid_places() time: 0.012173557 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.028607434 STEP = 2 TIME = 0.008996566361 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.05371691597 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05371691597 ...estimated hydro-limited timestep at level 1: 0.02099569111 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02099569111 [Level 0 step 3] ADVANCE with dt = 0.005183735856  Beginning subcycle 1 starting at time 0.008996566361 with dt = 0.005183735856 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.028381243 Gravity::solve_for_phi() time = 0.393472182 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -7.10769159e+44 ener added: 1.108527473e+41 Contributions to the state from old-time sources: mass added: 0 xmom added: -2.507235233e+30 ymom added: -2.507340749e+30 zmom added: -2.507360129e+30 eint added: 0 ener added: 1.246035681e+45 Castro::do_old_sources() time = 0.139481293 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 1.993517878 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.03201698 Gravity::solve_for_phi() time = 0.333267556 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.139326777e+45 ener added: 5.073632671e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -9.516851949e+27 ymom added: -9.517150419e+27 zmom added: -9.517358111e+27 eint added: 0 ener added: -5.780864517e+45 Castro::do_new_sources() time = 0.152634278 ...estimated hydro-limited timestep at level 0: 0.0534906386 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.0534906386  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07190577011 [Level 0 step 3] Advanced 262144 cells [Level 1 step 5] ADVANCE with dt = 0.002591867928  Beginning subcycle 1 starting at time 0.008996566361 with dt = 0.002591867928 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008113702 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -3.546908348e+30 ymom added: -3.547031401e+30 zmom added: -3.547047528e+30 eint added: 0 ener added: -2.786663427e+44 Castro::do_old_sources() time = 0.009389175 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.146274145 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.042989758 Contributions to the state from new-time sources: mass added: 0 xmom added: -1.018061257e+29 ymom added: -1.018295544e+29 zmom added: -1.018328146e+29 eint added: 0 ener added: -1.240003386e+44 Castro::do_new_sources() time = 0.010509023 ...estimated hydro-limited timestep at level 1: 0.02105085857 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02105085857  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.0140674854 [Level 1 step 5] Advanced 4096 cells [Level 1 step 6] ADVANCE with dt = 0.002591867928  Beginning subcycle 1 starting at time 0.01158843429 with dt = 0.002591867928 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.00828352 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -3.750520599e+30 ymom added: -3.750690491e+30 zmom added: -3.750713167e+30 eint added: 0 ener added: -3.577339284e+44 Castro::do_old_sources() time = 0.009252837 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.146162 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.043046756 Contributions to the state from new-time sources: mass added: 0 xmom added: -1.031184055e+29 ymom added: -1.031415745e+29 zmom added: -1.031447854e+29 eint added: 0 ener added: -1.013066493e+44 Castro::do_new_sources() time = 0.010293173 ...estimated hydro-limited timestep at level 1: 0.02113251699 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02113251699  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01295783383 [Level 1 step 6] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.028357921 Contributions to the state from new-time sources: mass added: 0 xmom added: 7.952665405e+28 ymom added: 7.952018761e+28 zmom added: 7.952035805e+28 eint added: 0 ener added: -1.01304526e+44 Castro::do_new_sources() time = 0.01015584 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.161743315e+45 ener added: 2.348638839e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 2.803370146e+30 ymom added: 1.622808166e+30 zmom added: 1.622796123e+30 eint added: 0 ener added: -5.81187501e+45 Castro::do_new_sources() time = 0.150740378 Castro::reflux() at level 0 : time = 0.999763205 TIME= 0.01418030222 MASS = 1.989753521e+33 TIME= 0.01418030222 XMOM = 1.563081091e+30 TIME= 0.01418030222 YMOM = 2.151099543e+31 TIME= 0.01418030222 ZMOM = 2.48822164e+31 TIME= 0.01418030222 ANG MOM X = 4.612475573e+34 TIME= 0.01418030222 ANG MOM Y = 1.164956298e+38 TIME= 0.01418030222 ANG MOM Z = -1.165417754e+38 TIME= 0.01418030222 RHO*e = 2.891274721e+49 TIME= 0.01418030222 RHO*K = 3.727711244e+46 TIME= 0.01418030222 RHO*E = 2.89493967e+49 TIME= 0.01418030222 RHO*PHI = -3.91321219e+50 TIME= 0.01418030222 TOTAL ENERGY= -1.667112128e+50 TIME= 0.01418030222 CENTER OF MASS X-LOC = 11.79312488 TIME= 0.01418030222 CENTER OF MASS X-VEL = 0.0007855651842 TIME= 0.01418030222 CENTER OF MASS Y-LOC = 11.79327201 TIME= 0.01418030222 CENTER OF MASS Y-VEL = 0.01081088446 TIME= 0.01418030222 CENTER OF MASS Z-LOC = 11.79329465 TIME= 0.01418030222 CENTER OF MASS Z-VEL = 0.0125051752 [STEP 3] Coarse TimeStep time: 5.87960573 [STEP 3] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 3 TIME = 0.01418030222 DT = 0.005183735856 ...estimated hydro-limited timestep at level 0: 0.05253440452 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05253440452 ...estimated hydro-limited timestep at level 1: 0.02113251699 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02113251699 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.05253440452 ... but limiting to: 0.005702109441 = 1.1 * 0.005183735856 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.02113251699 ... but limiting to: 0.002851054721 = 1.1 * 0.002591867928 Now regridding at level lbase = 0 grid_places() time: 0.012241008 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.028270288 STEP = 3 TIME = 0.01418030222 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.05253440452 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05253440452 ...estimated hydro-limited timestep at level 1: 0.02113251699 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02113251699 [Level 0 step 4] ADVANCE with dt = 0.005702109441  Beginning subcycle 1 starting at time 0.01418030222 with dt = 0.005702109441 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.029887823 Gravity::solve_for_phi() time = 0.376344469 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -8.599122456e+44 ener added: 2.068067417e+41 Contributions to the state from old-time sources: mass added: 0 xmom added: -2.330676038e+30 ymom added: -2.330882914e+30 zmom added: -2.330921864e+30 eint added: 0 ener added: 2.172696223e+45 Castro::do_old_sources() time = 0.139235535 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 1.988999504 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.026877451 Gravity::solve_for_phi() time = 0.341572226 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.508174992e+45 ener added: 5.348246559e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -6.165248915e+27 ymom added: -6.16578646e+27 zmom added: -6.165578422e+27 eint added: 0 ener added: -6.182616791e+45 Castro::do_new_sources() time = 0.153917307 ...estimated hydro-limited timestep at level 0: 0.05242963388 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05242963388  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07245736072 [Level 0 step 4] Advanced 262144 cells [Level 1 step 7] ADVANCE with dt = 0.002851054721  Beginning subcycle 1 starting at time 0.01418030222 with dt = 0.002851054721 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008256295 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -3.950571042e+30 ymom added: -3.950772081e+30 zmom added: -3.950796619e+30 eint added: 0 ener added: -4.78422102e+44 Castro::do_old_sources() time = 0.009500314 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.145697105 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.042778054 Contributions to the state from new-time sources: mass added: 0 xmom added: -9.952904505e+28 ymom added: -9.95595296e+28 zmom added: -9.95639381e+28 eint added: 0 ener added: -9.311580086e+43 Castro::do_new_sources() time = 0.010226663 ...estimated hydro-limited timestep at level 1: 0.02124880325 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02124880325  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01414339641 [Level 1 step 7] Advanced 4096 cells [Level 1 step 8] ADVANCE with dt = 0.002851054721  Beginning subcycle 1 starting at time 0.01703135694 with dt = 0.002851054721 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008122906 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -4.149629132e+30 ymom added: -4.149891114e+30 zmom added: -4.149924469e+30 eint added: 0 ener added: -5.692287693e+44 Castro::do_old_sources() time = 0.009347298 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.145608076 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.044391746 Contributions to the state from new-time sources: mass added: 0 xmom added: -9.710217721e+28 ymom added: -9.713242737e+28 zmom added: -9.713679676e+28 eint added: 0 ener added: -8.809028397e+43 Castro::do_new_sources() time = 0.010288853 ...estimated hydro-limited timestep at level 1: 0.02138778702 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02138778702  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01303143764 [Level 1 step 8] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.027534023 Contributions to the state from new-time sources: mass added: 0 xmom added: 8.285544699e+28 ymom added: 8.285141153e+28 zmom added: 8.2852432e+28 eint added: 0 ener added: -8.808875444e+43 Castro::do_new_sources() time = 0.010340068 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.530053126e+45 ener added: 2.712535759e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 2.631554972e+30 ymom added: 1.521943587e+30 zmom added: 1.521939979e+30 eint added: 0 ener added: -6.216851268e+45 Castro::do_new_sources() time = 0.15181514 Castro::reflux() at level 0 : time = 0.941721077 TIME= 0.01988241166 MASS = 1.989753521e+33 TIME= 0.01988241166 XMOM = 1.285082726e+30 TIME= 0.01988241166 YMOM = 2.123315292e+31 TIME= 0.01988241166 ZMOM = 2.460440554e+31 TIME= 0.01988241166 ANG MOM X = 4.462721098e+34 TIME= 0.01988241166 ANG MOM Y = 1.163044166e+38 TIME= 0.01988241166 ANG MOM Z = -1.163490805e+38 TIME= 0.01988241166 RHO*e = 2.888145076e+49 TIME= 0.01988241166 RHO*K = 6.751439045e+46 TIME= 0.01988241166 RHO*E = 2.894830147e+49 TIME= 0.01988241166 RHO*PHI = -3.913175947e+50 TIME= 0.01988241166 TOTAL ENERGY= -1.667104959e+50 TIME= 0.01988241166 CENTER OF MASS X-LOC = 11.44734856 TIME= 0.01988241166 CENTER OF MASS X-VEL = 0.000645850208 TIME= 0.01988241166 CENTER OF MASS Y-LOC = 11.44756203 TIME= 0.01988241166 CENTER OF MASS Y-VEL = 0.01067124782 TIME= 0.01988241166 CENTER OF MASS Z-LOC = 11.44759731 TIME= 0.01988241166 CENTER OF MASS Z-VEL = 0.01236555447 [STEP 4] Coarse TimeStep time: 5.795716632 [STEP 4] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 4 TIME = 0.01988241166 DT = 0.005702109441 ...estimated hydro-limited timestep at level 0: 0.05141094168 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05141094168 ...estimated hydro-limited timestep at level 1: 0.02138778702 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02138778702 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.05141094168 ... but limiting to: 0.006272320385 = 1.1 * 0.005702109441 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.02138778702 ... but limiting to: 0.003136160193 = 1.1 * 0.002851054721 Now regridding at level lbase = 0 grid_places() time: 0.012235624 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.028243462 STEP = 4 TIME = 0.01988241166 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.05141094168 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05141094168 ...estimated hydro-limited timestep at level 1: 0.02138778702 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02138778702 [Level 0 step 5] ADVANCE with dt = 0.006272320385  Beginning subcycle 1 starting at time 0.01988241166 with dt = 0.006272320385 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.029041482 Gravity::solve_for_phi() time = 0.375215351 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -1.040314059e+45 ener added: 3.456888596e+41 Contributions to the state from old-time sources: mass added: 0 xmom added: -1.820186411e+30 ymom added: -1.820506658e+30 zmom added: -1.8205665e+30 eint added: 0 ener added: 3.365171124e+45 Castro::do_old_sources() time = 0.137162876 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 1.988729221 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.025525625 Gravity::solve_for_phi() time = 0.325925122 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.93975916e+45 ener added: 5.445657195e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -2.151929172e+28 ymom added: -2.151981903e+28 zmom added: -2.151974612e+28 eint added: 0 ener added: -6.654409426e+45 Castro::do_new_sources() time = 0.156210341 ...estimated hydro-limited timestep at level 0: 0.05144712204 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05144712204  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07272793337 [Level 0 step 5] Advanced 262144 cells [Level 1 step 9] ADVANCE with dt = 0.003136160193  Beginning subcycle 1 starting at time 0.01988241166 with dt = 0.003136160193 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008352112 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -4.382263806e+30 ymom added: -4.382560781e+30 zmom added: -4.38259518e+30 eint added: 0 ener added: -7.226629422e+44 Castro::do_old_sources() time = 0.009351387 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.140210734 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.042848553 Contributions to the state from new-time sources: mass added: 0 xmom added: -9.474262404e+28 ymom added: -9.478147029e+28 zmom added: -9.478723785e+28 eint added: 0 ener added: -1.022153257e+44 Castro::do_new_sources() time = 0.010171215 ...estimated hydro-limited timestep at level 1: 0.02123329355 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02123329355  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01437474596 [Level 1 step 9] Advanced 4096 cells [Level 1 step 10] ADVANCE with dt = 0.003136160193  Beginning subcycle 1 starting at time 0.02301857185 with dt = 0.003136160193 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008165689 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -4.571749054e+30 ymom added: -4.572123716e+30 zmom added: -4.572169619e+30 eint added: 0 ener added: -8.246431474e+44 Castro::do_old_sources() time = 0.009450835 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.140545557 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.044357907 Contributions to the state from new-time sources: mass added: 0 xmom added: -9.463622467e+28 ymom added: -9.467462027e+28 zmom added: -9.468029643e+28 eint added: 0 ener added: -1.0054892e+44 Castro::do_new_sources() time = 0.010318283 ...estimated hydro-limited timestep at level 1: 0.02073761019 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02073761019  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01322251489 [Level 1 step 10] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.02763206 Contributions to the state from new-time sources: mass added: 0 xmom added: 6.662102214e+28 ymom added: 6.662004895e+28 zmom added: 6.662209068e+28 eint added: 0 ener added: -1.005486904e+44 Castro::do_new_sources() time = 0.010204235 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -5.961166433e+45 ener added: 3.22350925e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 2.108420326e+30 ymom added: 1.208901923e+30 zmom added: 1.208906542e+30 eint added: 0 ener added: -6.691546091e+45 Castro::do_new_sources() time = 0.151465676 Castro::reflux() at level 0 : time = 0.939916618 TIME= 0.02615473204 MASS = 1.989753522e+33 TIME= 0.02615473204 XMOM = 1.013870741e+30 TIME= 0.02615473204 YMOM = 2.096221133e+31 TIME= 0.02615473204 ZMOM = 2.433351035e+31 TIME= 0.02615473204 ANG MOM X = 4.304143681e+34 TIME= 0.02615473204 ANG MOM Y = 1.161034245e+38 TIME= 0.02615473204 ANG MOM Z = -1.16146522e+38 TIME= 0.02615473204 RHO*e = 2.884252973e+49 TIME= 0.02615473204 RHO*K = 1.062190149e+47 TIME= 0.02615473204 RHO*E = 2.894803927e+49 TIME= 0.02615473204 RHO*PHI = -3.913155824e+50 TIME= 0.02615473204 TOTAL ENERGY= -1.667097519e+50 TIME= 0.02615473204 CENTER OF MASS X-LOC = 11.29721037 TIME= 0.02615473204 CENTER OF MASS X-VEL = 0.0005095458963 TIME= 0.02615473204 CENTER OF MASS Y-LOC = 11.29749761 TIME= 0.02615473204 CENTER OF MASS Y-VEL = 0.0105350794 TIME= 0.02615473204 CENTER OF MASS Z-LOC = 11.29754695 TIME= 0.02615473204 CENTER OF MASS Z-VEL = 0.01222940937 [STEP 5] Coarse TimeStep time: 5.773315622 [STEP 5] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 5 TIME = 0.02615473204 DT = 0.006272320385 ...estimated hydro-limited timestep at level 0: 0.05042211267 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05042211267 ...estimated hydro-limited timestep at level 1: 0.02073761026 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02073761026 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.05042211267 ... but limiting to: 0.006899552424 = 1.1 * 0.006272320385 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.02073761026 ... but limiting to: 0.003449776212 = 1.1 * 0.003136160193 Now regridding at level lbase = 0 grid_places() time: 0.012240518 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.028491509 STEP = 5 TIME = 0.02615473204 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.05042211267 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05042211267 ...estimated hydro-limited timestep at level 1: 0.02073761026 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02073761026 [Level 0 step 6] ADVANCE with dt = 0.006899552424  Beginning subcycle 1 starting at time 0.02615473204 with dt = 0.006899552424 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.028850876 Gravity::solve_for_phi() time = 0.375158641 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -1.258491942e+45 ener added: 5.463001016e+41 Contributions to the state from old-time sources: mass added: 0 xmom added: -1.301371657e+30 ymom added: -1.301812539e+30 zmom added: -1.301894935e+30 eint added: 0 ener added: 4.89030328e+45 Castro::do_old_sources() time = 0.136514081 ... Entering construct_ctu_hydro_source() WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.273780533e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.310848713e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.312162148e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.312162148e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.356073518e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.317753285e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.356073518e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.354863052e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.273780533e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.310848713e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.312162148e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.312162148e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.273780533e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.272462862e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.310848714e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.272462862e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.356073518e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.356073517e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.317753285e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.354863053e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.312162148e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.312162148e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.273780533e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.310848714e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.316538525e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.316538525e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.272462859e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.272462859e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.317753285e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.354863053e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.273780533e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.310848713e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.316538526e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.316538525e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.317753282e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.35486305e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.317753285e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.354863053e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.356073518e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.356073517e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.316538526e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.316538525e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.317753282e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -7.35486305e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.272462862e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.272462862e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.273780533e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -7.310848713e+15 831446.2145 831446.2145 ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 1.992742155 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.025355379 Gravity::solve_for_phi() time = 0.333734373 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -6.185993322e+45 ener added: 5.684038895e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -3.534782174e+28 ymom added: -3.534860916e+28 zmom added: -3.534895677e+28 eint added: 0 ener added: -6.906699754e+45 Castro::do_new_sources() time = 0.153193233 ...estimated hydro-limited timestep at level 0: 0.05062087204 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05062087204  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07258246818 [Level 0 step 6] Advanced 262144 cells [Level 1 step 11] ADVANCE with dt = 0.003449776212  Beginning subcycle 1 starting at time 0.02615473204 with dt = 0.003449776212 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008156989 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -4.882307894e+30 ymom added: -4.882722047e+30 zmom added: -4.882768003e+30 eint added: 0 ener added: -1.014476628e+45 Castro::do_old_sources() time = 0.009378567 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.140481818 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.042887722 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.359811444e+28 ymom added: -7.364770557e+28 zmom added: -7.365516232e+28 eint added: 0 ener added: -1.084065376e+44 Castro::do_new_sources() time = 0.010284503 ...estimated hydro-limited timestep at level 1: 0.02032271671 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02032271671  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01440878669 [Level 1 step 11] Advanced 4096 cells [Level 1 step 12] ADVANCE with dt = 0.003449776212  Beginning subcycle 1 starting at time 0.02960450826 with dt = 0.003449776212 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008051358 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -5.029504123e+30 ymom added: -5.030017441e+30 zmom added: -5.030078301e+30 eint added: 0 ener added: -1.127137289e+45 Castro::do_old_sources() time = 0.009231351 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.13960469 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.043689686 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.828925051e+28 ymom added: -7.83383042e+28 zmom added: -7.834565985e+28 eint added: 0 ener added: -1.024152266e+44 Castro::do_new_sources() time = 0.010533992 ...estimated hydro-limited timestep at level 1: 0.02001981431 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02001981431  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01329357831 [Level 1 step 12] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.027640254 Contributions to the state from new-time sources: mass added: 0 xmom added: 4.325103281e+28 ymom added: 4.325468972e+28 zmom added: 4.325807281e+28 eint added: 0 ener added: -1.024164647e+44 Castro::do_new_sources() time = 0.010296544 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -6.207375235e+45 ener added: 3.634023148e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 1.470355591e+30 ymom added: 8.368880143e+29 zmom added: 8.369013362e+29 eint added: 0 ener added: -6.946651926e+45 Castro::do_new_sources() time = 0.15099088 Castro::reflux() at level 0 : time = 0.939626723 TIME= 0.03305428447 MASS = 1.989753522e+33 TIME= 0.03305428447 XMOM = 7.588829892e+29 TIME= 0.03305428447 YMOM = 2.070758186e+31 TIME= 0.03305428447 ZMOM = 2.407897208e+31 TIME= 0.03305428447 ANG MOM X = 4.138075427e+34 TIME= 0.03305428447 ANG MOM Y = 1.158940296e+38 TIME= 0.03305428447 ANG MOM Z = -1.159354839e+38 TIME= 0.03305428447 RHO*e = 2.879775087e+49 TIME= 0.03305428447 RHO*K = 1.521640478e+47 TIME= 0.03305428447 RHO*E = 2.894918994e+49 TIME= 0.03305428447 RHO*PHI = -3.913163226e+50 TIME= 0.03305428447 TOTAL ENERGY= -1.667089713e+50 TIME= 0.03305428447 CENTER OF MASS X-LOC = 11.10822383 TIME= 0.03305428447 CENTER OF MASS X-VEL = 0.0003813954748 TIME= 0.03305428447 CENTER OF MASS Y-LOC = 11.10859129 TIME= 0.03305428447 CENTER OF MASS Y-VEL = 0.01040710904 TIME= 0.03305428447 CENTER OF MASS Z-LOC = 11.10865496 TIME= 0.03305428447 CENTER OF MASS Z-VEL = 0.01210148484 [STEP 6] Coarse TimeStep time: 5.759785778 [STEP 6] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 6 TIME = 0.03305428447 DT = 0.006899552424 ...estimated hydro-limited timestep at level 0: 0.04963146848 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04963146848 ...estimated hydro-limited timestep at level 1: 0.02001981438 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02001981438 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.04963146848 ... but limiting to: 0.007589507666 = 1.1 * 0.006899552424 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.02001981438 ... but limiting to: 0.003794753833 = 1.1 * 0.003449776212 Now regridding at level lbase = 0 grid_places() time: 0.012557587 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.02909075 STEP = 6 TIME = 0.03305428447 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.04963146848 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04963146848 ...estimated hydro-limited timestep at level 1: 0.02001981438 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02001981438 [Level 0 step 7] ADVANCE with dt = 0.007589507666  Beginning subcycle 1 starting at time 0.03305428447 with dt = 0.007589507666 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.034070776 Gravity::solve_for_phi() time = 0.388280305 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -1.522354503e+45 ener added: 8.226900014e+41 Contributions to the state from old-time sources: mass added: 0 xmom added: -1.091866561e+30 ymom added: -1.09244151e+30 zmom added: -1.092548576e+30 eint added: 0 ener added: 6.835252368e+45 Castro::do_old_sources() time = 0.1359357 ... Entering construct_ctu_hydro_source() WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.40213906e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.47596257e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.354789761e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356095611e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572886673e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572886673e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574948278e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574948278e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.354789761e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.40213906e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.35609561e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.475962569e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365096383e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347540297e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439003544e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348761923e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.567775353e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572675106e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569840661e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574743247e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.35479953e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356107584e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.402553071e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.476376553e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.402139061e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.354789761e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365096376e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347540294e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572886673e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572886673e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.567775354e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.354789761e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572675107e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.40213906e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.35479953e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.40255307e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365096379e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347540295e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365510254e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347550198e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.567775353e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572675106e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.56756355e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.56756355e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.354799531e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347550197e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.402553072e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365510251e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.475962577e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356095614e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574948277e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574948277e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356095612e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.475962572e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439003542e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348761922e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569840661e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574743247e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356107584e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.476376554e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.402139061e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.354789761e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572886673e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572886673e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.354789761e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.40213906e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365096375e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347540293e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.567775354e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572675107e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.35479953e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.402553071e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417964949e+14 1.013833378e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417964949e+14 3.43156572e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422217929e+14 3.423374173e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422217929e+14 1.010445447e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417964949e+14 1.013833378e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417964949e+14 3.43156572e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422217909e+14 3.423374174e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422217909e+14 1.010445447e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.42811496e+14 1.013861062e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.42811496e+14 3.431552921e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432467025e+14 3.423435389e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432467025e+14 1.010491151e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417955164e+14 1.013833321e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417955164e+14 3.431565932e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422827253e+14 3.42338732e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422827253e+14 1.010444243e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432456737e+14 3.423435485e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432456737e+14 1.010491087e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432467068e+14 3.423435387e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432467068e+14 1.010491151e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422218114e+14 3.423374168e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422218114e+14 1.010445447e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432456569e+14 3.42343549e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432456569e+14 1.010491087e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422827311e+14 3.423387319e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422827311e+14 1.010444243e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.43246726e+14 3.423435382e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.43246726e+14 1.010491151e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422217997e+14 3.423374171e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422217997e+14 1.010445447e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422827452e+14 3.423387315e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422827452e+14 1.010444243e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428114808e+14 1.013861062e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417955132e+14 1.013833321e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428114808e+14 3.431552925e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417955132e+14 3.431565933e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422218125e+14 3.423374167e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422218027e+14 3.42337417e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422218125e+14 1.010445447e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422218027e+14 1.010445447e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.41796494e+14 1.013833378e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417964923e+14 1.013833378e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.41796494e+14 3.43156572e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417964923e+14 3.431565721e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432467094e+14 3.423435387e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422827344e+14 3.423387318e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432467094e+14 1.010491151e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422827344e+14 1.010444243e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439417415e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348773995e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569635372e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569635372e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439003543e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365510258e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348761922e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348773994e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347550201e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.567563546e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439417414e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365096383e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.567563546e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569840662e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347540296e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574743248e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347550201e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356107583e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.476376551e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.567775353e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365510258e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572675106e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.35479953e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.402553071e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439417424e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348773998e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569635371e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569635371e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439003541e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439003553e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348761928e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348773994e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348761922e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569840657e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439417412e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574743243e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.475962577e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569840662e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356095614e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574743248e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356107588e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356107583e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.476376552e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.47637656e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574948277e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574948277e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356095612e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.47596257e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439417423e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348773998e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569635371e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569635371e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348773994e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439417413e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.439003553e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.348761928e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.569840657e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.574743243e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.356107588e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.47637656e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365510253e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347550197e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.56756355e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.56756355e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347550196e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.36551025e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.365096378e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.347540295e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.567775353e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.572675106e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.354799531e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.402553072e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432456516e+14 3.423435491e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432456516e+14 1.010491087e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432467004e+14 3.423435389e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432467004e+14 1.010491151e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428105183e+14 1.013861006e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428105183e+14 3.431553132e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432456499e+14 3.423435492e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432456499e+14 1.010491087e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428114957e+14 1.013861062e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428114957e+14 3.431552921e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.42810518e+14 1.013861006e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.42810518e+14 3.431553132e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.42282723e+14 3.423387321e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.42282723e+14 1.010444243e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417955164e+14 1.013833321e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417955164e+14 3.431565932e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417964945e+14 1.013833378e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417964945e+14 3.43156572e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417964928e+14 1.013833378e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417964928e+14 3.431565721e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428114835e+14 1.013861062e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428114835e+14 3.431552924e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428114873e+14 1.013861062e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428114873e+14 3.431552923e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417955138e+14 1.013833321e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417955138e+14 3.431565933e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417955158e+14 1.013833321e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417955158e+14 3.431565932e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428105083e+14 1.013861006e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428105083e+14 3.431553135e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428105049e+14 1.013861006e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428105049e+14 3.431553136e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432456742e+14 3.423435485e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432456591e+14 3.423435489e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432456742e+14 1.010491087e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428114842e+14 1.013861062e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432456591e+14 1.010491087e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.417955152e+14 1.013833321e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428114842e+14 3.431552924e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.417955152e+14 3.431565932e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.42810505e+14 1.013861006e+18 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.428105019e+14 1.013861006e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.42810505e+14 3.431553136e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.428105019e+14 3.431553137e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.432467265e+14 3.423435382e+16 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.422827462e+14 3.423387314e+16 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.432467265e+14 1.010491151e+18 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.422827462e+14 1.010444243e+18 831446.2145 ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 1.97881625 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.024356432 Gravity::solve_for_phi() time = 0.324835204 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -6.608861579e+45 ener added: 5.881170455e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -4.848033282e+28 ymom added: -4.848182395e+28 zmom added: -4.848174639e+28 eint added: 0 ener added: -7.378222197e+45 Castro::do_new_sources() time = 0.152491722 ...estimated hydro-limited timestep at level 0: 0.05001596498 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05001596498  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07273106374 [Level 0 step 7] Advanced 262144 cells [Level 1 step 13] ADVANCE with dt = 0.003794753833  Beginning subcycle 1 starting at time 0.03305428447 with dt = 0.003794753833 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.010015216 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -5.437248712e+30 ymom added: -5.437805012e+30 zmom added: -5.437864545e+30 eint added: 0 ener added: -1.357748248e+45 Castro::do_old_sources() time = 0.009497883 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.141490927 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.042888399 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.585572654e+28 ymom added: -7.591692846e+28 zmom added: -7.592615471e+28 eint added: 0 ener added: -1.09624911e+44 Castro::do_new_sources() time = 0.01025235 ...estimated hydro-limited timestep at level 1: 0.01979355492 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01979355492  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01422134845 [Level 1 step 13] Advanced 4096 cells [Level 1 step 14] ADVANCE with dt = 0.003794753833  Beginning subcycle 1 starting at time 0.0368490383 with dt = 0.003794753833 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008244494 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -5.588960165e+30 ymom added: -5.589638891e+30 zmom added: -5.589716867e+30 eint added: 0 ener added: -1.480759398e+45 Castro::do_old_sources() time = 0.009381084 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.145815998 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.044412023 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.753878565e+28 ymom added: -7.76007904e+28 zmom added: -7.761028543e+28 eint added: 0 ener added: -1.029589381e+44 Castro::do_new_sources() time = 0.01014652 ...estimated hydro-limited timestep at level 1: 0.01966238333 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01966238333  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01295502595 [Level 1 step 14] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.027261894 Contributions to the state from new-time sources: mass added: 0 xmom added: 4.422439681e+28 ymom added: 4.42308359e+28 zmom added: 4.423510321e+28 eint added: 0 ener added: -1.029620551e+44 Castro::do_new_sources() time = 0.010408653 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -6.630447021e+45 ener added: 4.423524229e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 1.031761858e+30 ymom added: 7.123520872e+29 zmom added: 7.123755747e+29 eint added: 0 ener added: -7.420721961e+45 Castro::do_new_sources() time = 0.150979307 Castro::reflux() at level 0 : time = 0.944239503 TIME= 0.04064379213 MASS = 1.989753522e+33 TIME= 0.04064379213 XMOM = 4.874653853e+29 TIME= 0.04064379213 YMOM = 2.043667821e+31 TIME= 0.04064379213 ZMOM = 2.380816862e+31 TIME= 0.04064379213 ANG MOM X = 3.993865645e+34 TIME= 0.04064379213 ANG MOM Y = 1.156902513e+38 TIME= 0.04064379213 ANG MOM Z = -1.157302754e+38 TIME= 0.04064379213 RHO*e = 2.874819116e+49 TIME= 0.04064379213 RHO*K = 2.045430498e+47 TIME= 0.04064379213 RHO*E = 2.895194791e+49 TIME= 0.04064379213 RHO*PHI = -3.913202165e+50 TIME= 0.04064379213 TOTAL ENERGY= -1.667081603e+50 TIME= 0.04064379213 CENTER OF MASS X-LOC = 10.88417395 TIME= 0.04064379213 CENTER OF MASS X-VEL = 0.0002449878238 TIME= 0.04064379213 CENTER OF MASS Y-LOC = 10.8846299 TIME= 0.04064379213 CENTER OF MASS Y-VEL = 0.01027095968 TIME= 0.04064379213 CENTER OF MASS Z-LOC = 10.88470875 TIME= 0.04064379213 CENTER OF MASS Z-VEL = 0.01196538584 [STEP 7] Coarse TimeStep time: 5.775055493 [STEP 7] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 7 TIME = 0.04064379213 DT = 0.007589507666 ...estimated hydro-limited timestep at level 0: 0.04908769235 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04908769235 ...estimated hydro-limited timestep at level 1: 0.01966238342 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01966238342 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.04908769235 ... but limiting to: 0.008348458433 = 1.1 * 0.007589507666 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.01966238342 ... but limiting to: 0.004174229216 = 1.1 * 0.003794753833 Now regridding at level lbase = 0 grid_places() time: 0.012241751 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.028459662 STEP = 7 TIME = 0.04064379213 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.04908769235 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04908769235 ...estimated hydro-limited timestep at level 1: 0.01966238342 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01966238342 [Level 0 step 8] ADVANCE with dt = 0.008348458433  Beginning subcycle 1 starting at time 0.04064379213 with dt = 0.008348458433 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.029523031 Gravity::solve_for_phi() time = 0.375591743 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -1.841442229e+45 ener added: 1.217340771e+42 Contributions to the state from old-time sources: mass added: 0 xmom added: -1.062334039e+30 ymom added: -1.06305513e+30 zmom added: -1.063188301e+30 eint added: 0 ener added: 9.311374549e+45 Castro::do_old_sources() time = 0.135899105 ... Entering construct_ctu_hydro_source() WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615641e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622042e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284237e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.97579076e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290673e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.005356868e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76547109e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768621195e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609246e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76547109e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.27261567e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000573566e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615636e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622038e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.97579076e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760655391e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768621195e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086884e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093262e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.92786422e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284196e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290636e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.005356868e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757577142e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768578351e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.00541147e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76542614e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284237e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290673e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.976337489e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615641e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622042e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615671e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622071e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.97579076e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.12508665e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76547109e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093043e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.927864222e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757577143e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76547109e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615625e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622032e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.97579076e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.928410822e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086745e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093144e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757532301e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76542614e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.97633749e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615625e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622032e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086745e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093144e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.92786422e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757577142e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757532302e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.928410823e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.12508665e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76542614e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093043e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.976337488e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615671e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622071e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609191e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615615e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000573567e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760655391e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.76857835e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.00541147e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284277e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290719e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615673e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622074e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.975790759e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76547109e+16 831446.2145 831446.2145 -4.321284448e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290868e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.005356868e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768621195e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76547109e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615632e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622039e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.97579076e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768621195e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284277e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290719e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.005356868e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086616e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093013e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.927864222e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757577143e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76542614e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.97633749e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615632e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622039e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000628153e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609246e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.27261567e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760612566e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.928410818e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086884e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093262e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760612567e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.7575323e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609215e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615635e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000628153e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000573566e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609215e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086874e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615635e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760655391e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093251e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.927864221e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.7575323e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757577142e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.928410818e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086874e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093251e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768578351e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.00541147e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284196e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290636e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76542614e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.976337489e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615636e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622038e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000628153e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609489e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615936e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760612566e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609489e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615936e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000573566e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760655389e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609167e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760612567e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615587e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000573567e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000628153e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609167e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760655391e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615587e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284445e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768578349e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290864e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.005356868e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.005411469e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284445e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290864e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768621195e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768578351e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.00541147e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284233e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290678e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768621195e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284233e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290678e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.005356868e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000628153e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609483e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615929e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760612566e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760612567e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000628153e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609191e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615615e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272609483e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.272615929e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.000573566e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.760655389e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.768578349e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.005411469e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321284448e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -4.321290868e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.928410822e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086701e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093103e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757532302e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757532302e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.928410823e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086616e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093013e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125086701e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.125093103e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.92786422e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.757577142e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.76542614e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.976337488e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171615673e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -4.171622074e+15 831446.2145 831446.2145 ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 1.981502964 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.024466339 Gravity::solve_for_phi() time = 0.371012687 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -6.849571681e+45 ener added: 5.952093525e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -5.940774931e+28 ymom added: -5.940966129e+28 zmom added: -5.940998374e+28 eint added: 0 ener added: -7.618503876e+45 Castro::do_new_sources() time = 0.152780118 ...estimated hydro-limited timestep at level 0: 0.0496817601 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.0496817601  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07209539781 [Level 0 step 8] Advanced 262144 cells [Level 1 step 15] ADVANCE with dt = 0.004174229216  Beginning subcycle 1 starting at time 0.04064379213 with dt = 0.004174229216 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008252431 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -6.050504689e+30 ymom added: -6.051236756e+30 zmom added: -6.051313169e+30 eint added: 0 ener added: -1.756937572e+45 Castro::do_old_sources() time = 0.009230589 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.140234269 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.04485608 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.504151385e+28 ymom added: -7.511610371e+28 zmom added: -7.512738908e+28 eint added: 0 ener added: -1.178988295e+44 Castro::do_new_sources() time = 0.010340464 ...estimated hydro-limited timestep at level 1: 0.01960772213 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01960772213  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01428240799 [Level 1 step 15] Advanced 4096 cells [Level 1 step 16] ADVANCE with dt = 0.004174229216  Beginning subcycle 1 starting at time 0.04481802135 with dt = 0.004174229216 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008437443 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -6.200587717e+30 ymom added: -6.201468988e+30 zmom added: -6.20156791e+30 eint added: 0 ener added: -1.889949378e+45 Castro::do_old_sources() time = 0.009413792 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.139771193 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.043008044 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.679671762e+28 ymom added: -7.687216908e+28 zmom added: -7.68837508e+28 eint added: 0 ener added: -1.179264582e+44 Castro::do_new_sources() time = 0.010311075 ...estimated hydro-limited timestep at level 1: 0.01963318417 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01963318417  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01323418007 [Level 1 step 16] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.027787548 Contributions to the state from new-time sources: mass added: 0 xmom added: 3.891075829e+28 ymom added: 3.892198023e+28 zmom added: 3.892779864e+28 eint added: 0 ener added: -1.179327165e+44 Castro::do_new_sources() time = 0.010376539 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -6.870752962e+45 ener added: 4.987146126e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 6.602901797e+29 ymom added: 6.599111894e+29 zmom added: 6.599428443e+29 eint added: 0 ener added: -7.662680988e+45 Castro::do_new_sources() time = 0.150656984 Castro::reflux() at level 0 : time = 0.940263975 TIME= 0.04899225057 MASS = 1.989753523e+33 TIME= 0.04899225057 XMOM = 2.060908207e+29 TIME= 0.04899225057 YMOM = 2.015600583e+31 TIME= 0.04899225057 ZMOM = 2.352760474e+31 TIME= 0.04899225057 ANG MOM X = 3.84468358e+34 TIME= 0.04899225057 ANG MOM Y = 1.154815272e+38 TIME= 0.04899225057 ANG MOM Z = -1.155200856e+38 TIME= 0.04899225057 RHO*e = 2.869533771e+49 TIME= 0.04899225057 RHO*K = 2.625066628e+47 TIME= 0.04899225057 RHO*E = 2.895704081e+49 TIME= 0.04899225057 RHO*PHI = -3.913287605e+50 TIME= 0.04899225057 TOTAL ENERGY= -1.667073394e+50 TIME= 0.04899225057 CENTER OF MASS X-LOC = 10.63089831 TIME= 0.04899225057 CENTER OF MASS X-VEL = 0.0001035760552 TIME= 0.04899225057 CENTER OF MASS Y-LOC = 10.63145007 TIME= 0.04899225057 CENTER OF MASS Y-VEL = 0.01012990081 TIME= 0.04899225057 CENTER OF MASS Z-LOC = 10.63154565 TIME= 0.04899225057 CENTER OF MASS Z-VEL = 0.0118243815 [STEP 8] Coarse TimeStep time: 5.787858707 [STEP 8] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 8 TIME = 0.04899225057 DT = 0.008348458433 ...estimated hydro-limited timestep at level 0: 0.04882955675 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04882955675 ...estimated hydro-limited timestep at level 1: 0.01963318426 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01963318426 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.04882955675 ... but limiting to: 0.009183304276 = 1.1 * 0.008348458433 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.01963318426 ... but limiting to: 0.004591652138 = 1.1 * 0.004174229216 Now regridding at level lbase = 0 grid_places() time: 0.012196612 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.028415241 STEP = 8 TIME = 0.04899225057 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.04882955675 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04882955675 ...estimated hydro-limited timestep at level 1: 0.01963318426 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01963318426 [Level 0 step 9] ADVANCE with dt = 0.009183304276  Beginning subcycle 1 starting at time 0.04899225057 with dt = 0.009183304276 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.03399985 Gravity::solve_for_phi() time = 0.388694384 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -2.227334967e+45 ener added: 1.761541043e+42 Contributions to the state from old-time sources: mass added: 0 xmom added: -1.451833619e+30 ymom added: -1.452721427e+30 zmom added: -1.452885539e+30 eint added: 0 ener added: 1.245803319e+46 Castro::do_old_sources() time = 0.138740548 ... Entering construct_ctu_hydro_source() WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203851e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178459e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378150238e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126030128e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.37812483e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134302089e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.795871621e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.96542026e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.380890328e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.446502492e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.795871619e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203846e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178455e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126030128e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.380890326e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.965420228e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378150196e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378124791e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134302089e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.446502485e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305731383e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305706017e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.127983981e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.378258483e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771822e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746408e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119702433e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.28697737e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.894783675e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.72522149e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.443019892e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.37736567e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.967979604e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.798332688e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134372467e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126100664e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378150238e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203851e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.37812483e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178459e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203883e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.23317849e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126030127e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771575e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746176e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.795871664e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119702435e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.380890352e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.725221223e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.795871635e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.286977288e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.380890345e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203834e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178448e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126030128e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.798332599e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.377365625e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126100664e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203834e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178448e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.28697739e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771674e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746283e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119702434e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.2834562e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119772958e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771674e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746283e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.725221415e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.727681114e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.377365708e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.283456175e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.798332728e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.727681025e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126100664e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119772958e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203883e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771575e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.23317849e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746176e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.380890357e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.380890351e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203885e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178493e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126030127e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.795871671e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.795871645e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203841e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178456e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126030128e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.286977293e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.377365635e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771539e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746144e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119702435e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.725221196e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.798332605e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126100664e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203841e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178456e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.37815046e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378125036e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134302088e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.965420512e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.965420395e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.37815028e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378124878e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134302088e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305731326e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.30570596e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.127983982e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.894783613e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.96797963e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134372467e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.37815028e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378124878e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.44650253e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.446502513e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.37825842e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.443019856e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305731351e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305705981e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.127983981e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.894783594e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771812e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746396e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.378258448e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119702433e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.967979515e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.725221469e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.443019856e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134372467e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378150196e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378124791e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.286977356e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.798332674e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.377365657e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126100664e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203846e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178455e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.283456378e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119772956e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771822e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746408e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.727681504e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.283456376e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.374763695e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.128054334e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305731383e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305706017e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.897346332e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.727681495e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.37476369e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119772956e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771812e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.897346306e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746396e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.128054334e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305731351e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305705981e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.3057313e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.30570593e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.127983982e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.89478354e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378150457e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378125031e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.378258392e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134302088e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.96797954e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.965420495e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134372467e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378150234e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378124835e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.443019824e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.446502528e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.965420346e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378150234e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378124835e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134302089e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.446502504e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.30573164e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305706297e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.127983979e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.378258653e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.894784237e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.443020048e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.128054333e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.30573164e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305706297e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.374763667e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.897346573e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.967980084e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.374763608e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134372465e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378150457e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378125031e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.897346274e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.128054335e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.3057313e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.30570593e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.283456169e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.283456146e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119772958e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771628e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746239e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.727681023e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.727680942e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119772959e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771539e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746144e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.28697738e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.377365706e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163771628e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.163746239e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.119702434e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.725221367e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -9.79833272e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.126100664e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233203885e+15 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -8.233178493e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305731632e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.30570629e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.127983979e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.894784229e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.967980084e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.134372465e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.37815046e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.378125036e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.378258646e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.443020043e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.128054333e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305731632e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.30570629e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.897346565e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -9.897346292e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.128054335e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.305731326e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -8.30570596e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.374763657e+15 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.374763603e+15 831446.2145 831446.2145 ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 2.030154919 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.027582976 Gravity::solve_for_phi() time = 0.382258975 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -6.949158425e+45 ener added: 5.967371588e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -5.451096817e+28 ymom added: -5.451429492e+28 zmom added: -5.451468586e+28 eint added: 0 ener added: -7.704082647e+45 Castro::do_new_sources() time = 0.153340406 ...estimated hydro-limited timestep at level 0: 0.04965517062 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04965517062  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07045563007 [Level 0 step 9] Advanced 262144 cells [Level 1 step 17] ADVANCE with dt = 0.004591652138  Beginning subcycle 1 starting at time 0.04899225057 with dt = 0.004591652138 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.009847101 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -6.734980431e+30 ymom added: -6.735924739e+30 zmom added: -6.73602065e+30 eint added: 0 ener added: -2.216883713e+45 Castro::do_old_sources() time = 0.009261666 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.141628691 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.043033008 Contributions to the state from new-time sources: mass added: 0 xmom added: -6.14337315e+28 ymom added: -6.152473637e+28 zmom added: -6.153851239e+28 eint added: 0 ener added: -1.371098735e+44 Castro::do_new_sources() time = 0.010290398 ...estimated hydro-limited timestep at level 1: 0.0197486194 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.0197486194  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01424235503 [Level 1 step 17] Advanced 4096 cells [Level 1 step 18] ADVANCE with dt = 0.004591652138  Beginning subcycle 1 starting at time 0.0535839027 with dt = 0.004591652138 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008016992 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -6.857847895e+30 ymom added: -6.858974207e+30 zmom added: -6.859097676e+30 eint added: 0 ener added: -2.35945258e+45 Castro::do_old_sources() time = 0.009425567 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.140541947 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.042940706 Contributions to the state from new-time sources: mass added: 0 xmom added: -7.027969239e+28 ymom added: -7.037112991e+28 zmom added: -7.038515243e+28 eint added: 0 ener added: -1.573832756e+44 Castro::do_new_sources() time = 0.010259247 ...estimated hydro-limited timestep at level 1: 0.01996787554 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01996787554  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01328276582 [Level 1 step 18] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.027741022 Contributions to the state from new-time sources: mass added: 0 xmom added: 2.074498757e+28 ymom added: 2.076237069e+28 zmom added: 2.077007222e+28 eint added: 0 ener added: -1.573954136e+44 Castro::do_new_sources() time = 0.010305485 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -6.967734089e+45 ener added: 6.50534475e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 5.149606744e+29 ymom added: 7.708442026e+29 zmom added: 7.708854674e+29 eint added: 0 ener added: -7.74799553e+45 Castro::do_new_sources() time = 0.151449524 Castro::reflux() at level 0 : time = 0.941988379 TIME= 0.05817555484 MASS = 1.989753524e+33 TIME= 0.05817555484 XMOM = -6.685826636e+28 TIME= 0.05817555484 YMOM = 1.988393783e+31 TIME= 0.05817555484 ZMOM = 2.325576477e+31 TIME= 0.05817555484 ANG MOM X = 3.692991939e+34 TIME= 0.05817555484 ANG MOM Y = 1.152672643e+38 TIME= 0.05817555484 ANG MOM Z = -1.153043256e+38 TIME= 0.05817555484 RHO*e = 2.864276717e+49 TIME= 0.05817555484 RHO*K = 3.232609408e+47 TIME= 0.05817555484 RHO*E = 2.896521547e+49 TIME= 0.05817555484 RHO*PHI = -3.913434625e+50 TIME= 0.05817555484 TOTAL ENERGY= -1.667065158e+50 TIME= 0.05817555484 CENTER OF MASS X-LOC = 10.28899789 TIME= 0.05817555484 CENTER OF MASS X-VEL = -3.360128054e-05 TIME= 0.05817555484 CENTER OF MASS Y-LOC = 10.28965592 TIME= 0.05817555484 CENTER OF MASS Y-VEL = 0.009993166286 TIME= 0.05817555484 CENTER OF MASS Z-LOC = 10.28976921 TIME= 0.05817555484 CENTER OF MASS Z-VEL = 0.01168776157 [STEP 9] Coarse TimeStep time: 5.885687526 [STEP 9] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 9 TIME = 0.05817555484 DT = 0.009183304276 ...estimated hydro-limited timestep at level 0: 0.04898629781 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04898629781 ...estimated hydro-limited timestep at level 1: 0.01996787565 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01996787565 Castro::compute_new_dt : limiting dt at level 0 ... new dt computed: 0.04898629781 ... but limiting to: 0.0101016347 = 1.1 * 0.009183304276 Castro::compute_new_dt : limiting dt at level 1 ... new dt computed: 0.01996787565 ... but limiting to: 0.005050817352 = 1.1 * 0.004591652138 Now regridding at level lbase = 0 grid_places() time: 0.012409906 new finest: 1 Castro::numpts_1d at level 1 is 229 Gravity::fill_multipole_BCs() time = 0.028326489 STEP = 9 TIME = 0.05817555484 : REGRID with lbase = 0 Level 1 4 grids 4096 cells 0.1953125 % of domain smallest grid: 16 x 8 x 8 biggest grid: 16 x 8 x 8 ...estimated hydro-limited timestep at level 0: 0.04898629781 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.04898629781 ...estimated hydro-limited timestep at level 1: 0.01996787565 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.01996787565 [Level 0 step 10] ADVANCE with dt = 0.0101016347  Beginning subcycle 1 starting at time 0.05817555484 with dt = 0.0101016347 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.028602351 Gravity::solve_for_phi() time = 0.375617124 ... testing grad_phi_curr after doing single level solve Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -2.694075885e+45 ener added: 2.492393979e+42 Contributions to the state from old-time sources: mass added: 0 xmom added: -1.473666903e+30 ymom added: -1.474737402e+30 zmom added: -1.474933626e+30 eint added: 0 ener added: 1.645289117e+46 Castro::do_old_sources() time = 0.135545306 ... Entering construct_ctu_hydro_source() WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175597e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016170141e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143924e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138465e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.8122742e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829011762e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.8122742e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175596e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.01617014e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829011759e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.00733913e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007333671e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143919e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.03413846e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.802695739e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895559e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.02489011e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819430131e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812603854e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.82935743e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175597e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016170141e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143924e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138465e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175601e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016170145e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339099e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007333642e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812274204e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.802695714e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812274201e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175594e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016170139e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339112e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007333655e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812603845e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175594e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016170139e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.802695732e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339112e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007333655e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.803025224e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812603857e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.803025215e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175601e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016170145e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339099e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007333642e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143952e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138491e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829011787e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829011776e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.03414393e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138471e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895552e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890102e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819430126e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829357433e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.03414393e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138471e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175601e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016170145e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812274204e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812274202e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175595e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.01617014e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339094e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007333638e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.802695711e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812603846e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175595e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.01617014e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895555e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890105e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895559e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.02489011e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819776208e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819430124e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339129e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.00733367e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819776206e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829357422e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.802695738e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143919e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.03413846e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895555e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890105e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.00733913e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007333671e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.803025261e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812603853e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175596e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.01617014e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.80302526e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339129e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.00733367e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895549e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890099e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819430119e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895592e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890145e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819776233e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143952e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138491e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829357425e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143924e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138466e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819776204e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829011785e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895549e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890099e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895592e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890145e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819430186e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829011771e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143924e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138466e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829357476e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143952e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138491e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895591e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890144e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819776233e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819776206e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895552e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890102e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024895591e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.024890144e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.819430185e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -1.829357477e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034143952e+16 831446.2145 831446.2145 WARNING: (rho e)_r < 0 or pr < small_pres in Riemann: -2.034138491e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339106e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.00733365e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.803025215e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.803025208e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339094e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007333638e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.007339106e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.00733365e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.802695727e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -1.812603856e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016175601e+16 831446.2145 831446.2145 WARNING: (rho e)_l < 0 or pl < small_pres in Riemann: -2.016170145e+16 831446.2145 831446.2145 ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 1.998230105 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: 3.09085313e+46 ener added: 2.027463832e+41 ... new-time level Poisson gravity solve at level 0 Gravity::fill_multipole_BCs() time = 0.027209003 Gravity::solve_for_phi() time = 0.381975039 ... testing grad_phi_curr before adding comp_minus_level_grad_phi ... testing grad_phi_curr after adding comp_minus_level_grad_phi Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -7.50996366e+45 ener added: 5.669979623e+44 Contributions to the state from new-time sources: mass added: 0 xmom added: -4.172247326e+28 ymom added: -4.172697534e+28 zmom added: -4.172698294e+28 eint added: 0 ener added: -8.253773105e+45 Castro::do_new_sources() time = 0.155581799 ...estimated hydro-limited timestep at level 0: 0.05005574465 Castro::estTimeStep (hydro-limited) at level 0: estdt = 0.05005574465  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.07139402621 [Level 0 step 10] Advanced 262144 cells [Level 1 step 19] ADVANCE with dt = 0.005050817352  Beginning subcycle 1 starting at time 0.05817555484 with dt = 0.005050817352 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008127224 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -7.497925926e+30 ymom added: -7.499126078e+30 zmom added: -7.499244761e+30 eint added: 0 ener added: -2.74043545e+45 Castro::do_old_sources() time = 0.009472458 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.146286576 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.04978578 Contributions to the state from new-time sources: mass added: 0 xmom added: -6.261430673e+28 ymom added: -6.272110788e+28 zmom added: -6.273710023e+28 eint added: 0 ener added: -1.688531707e+44 Castro::do_new_sources() time = 0.010470834 ...estimated hydro-limited timestep at level 1: 0.02026415747 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02026415747  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01372941571 [Level 1 step 19] Advanced 4096 cells [Level 1 step 20] ADVANCE with dt = 0.005050817352  Beginning subcycle 1 starting at time 0.06322637219 with dt = 0.005050817352 Estimated number of subcycles remaining: 1 ... old-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.008188563 ... testing grad_phi_curr after doing single level solve Contributions to the state from old-time sources: mass added: 0 xmom added: -7.62315454e+30 ymom added: -7.624568264e+30 zmom added: -7.624719002e+30 eint added: 0 ener added: -2.888898003e+45 Castro::do_old_sources() time = 0.009490782 ... Entering construct_ctu_hydro_source() ... Leaving construct_ctu_hydro_source() Castro::construct_ctu_hydro_source() time = 0.146367302 ... new-time level Poisson gravity solve at level 1 Gravity::solve_for_phi() time = 0.049914196 Contributions to the state from new-time sources: mass added: 0 xmom added: -8.963968471e+28 ymom added: -8.975056098e+28 zmom added: -8.976734546e+28 eint added: 0 ener added: -1.405601806e+44 Castro::do_new_sources() time = 0.010480456 ...estimated hydro-limited timestep at level 1: 0.02058083225 Castro::estTimeStep (hydro-limited) at level 1: estdt = 0.02058083225  Subcycle completed Subcycling complete Zones advanced per microsecond at this level: 0.01274878078 [Level 1 step 20] Advanced 4096 cells Gravity::fill_multipole_BCs() time = 0.028555962 Contributions to the state from new-time sources: mass added: 0 xmom added: 2.084381671e+28 ymom added: 2.086189987e+28 zmom added: 2.08707079e+28 eint added: 0 ener added: -1.405780005e+44 Castro::do_new_sources() time = 0.010460376 Contributions to the state from negative energy resets: mass added: 0 xmom added: 0 ymom added: 0 zmom added: 0 eint added: -7.522359489e+45 ener added: 6.918116812e+36 Contributions to the state from new-time sources: mass added: 0 xmom added: 7.210471352e+29 ymom added: 8.032348288e+29 zmom added: 8.032847051e+29 eint added: 0 ener added: -8.295246257e+45 Castro::do_new_sources() time = 0.151197319 Castro::reflux() at level 0 : time = 1.013258574 TIME= 0.06827718955 MASS = 1.989753525e+33 TIME= 0.06827718955 XMOM = -3.486839868e+29 TIME= 0.06827718955 YMOM = 1.960323734e+31 TIME= 0.06827718955 ZMOM = 2.297529126e+31 TIME= 0.06827718955 ANG MOM X = 3.53804796e+34 TIME= 0.06827718955 ANG MOM Y = 1.150510657e+38 TIME= 0.06827718955 ANG MOM Z = -1.1508662e+38 TIME= 0.06827718955 RHO*e = 2.859399452e+49 TIME= 0.06827718955 RHO*K = 3.837766065e+47 TIME= 0.06827718955 RHO*E = 2.89769415e+49 TIME= 0.06827718955 RHO*PHI = -3.913653288e+50 TIME= 0.06827718955 TOTAL ENERGY= -1.667057229e+50 TIME= 0.06827718955 CENTER OF MASS X-LOC = 9.953043124 TIME= 0.06827718955 CENTER OF MASS X-VEL = -0.0001752397885 TIME= 0.06827718955 CENTER OF MASS Y-LOC = 9.953816305 TIME= 0.06827718955 CENTER OF MASS Y-VEL = 0.009852093287 TIME= 0.06827718955 CENTER OF MASS Z-LOC = 9.953949962 TIME= 0.06827718955 CENTER OF MASS Z-VEL = 0.01154680264 [STEP 10] Coarse TimeStep time: 5.932495536 [STEP 10] FAB kilobyte spread across MPI nodes: [158685 ... 158685] STEP = 10 TIME = 0.06827718955 DT = 0.0101016347 PLOTFILE: file = evrard_collapse_plt00010 Write plotfile time = 0.549694368 seconds Ending run at 14:10:13 UTC on 2022-05-11. Run time = 61.03643702 Run time without initialization = 58.78814575 Average number of zones advanced per microsecond: 0.046 Average number of zones advanced per microsecond per rank: 0.011 TinyProfiler total time across processes [min...avg...max]: 61.03 ... 61.04 ... 61.04 -------------------------------------------------------------------------------------------- Name NCalls Excl. Min Excl. Avg Excl. Max Max % -------------------------------------------------------------------------------------------- Castro::construct_ctu_hydro_source() 30 22.5269 22.6745 22.8313 37.41% MLPoisson::Fsmooth() 12184 4.257 4.352 4.494 7.36% MultiFab::AddProduct() 4648 2.662 2.673 2.679 4.39% FabArray::setVal() 9516 2.425 2.447 2.464 4.04% Castro::reset_internal_energy(MultiFab) 257 1.948 2.002 2.073 3.40% MLPoisson::Fapply() 2466 1.909 1.927 1.965 3.22% MLCellLinOp::applyBC() 14874 1.507 1.586 1.736 2.84% MultiFab::Subtract() 601 1.659 1.665 1.67 2.74% FabArray::ParallelCopy_nowait() 5214 1.267 1.3 1.316 2.16% FabArray::ParallelCopy_finish() 5214 0.6417 1.078 1.273 2.09% Castro::enforce_min_density() 254 1.039 1.09 1.162 1.90% Gravity::fill_multipole_BCs() 41 1.062 1.09 1.107 1.81% Castro::reset_internal_energy(Fab) 971 1.012 1.02 1.036 1.70% Castro::normalize_species() 254 0.8721 0.8962 0.92 1.51% MultiFab::sum() 4648 0.8928 0.8971 0.901 1.48% FluxRegister::Reflux() 180 0.8413 0.8445 0.8475 1.39% Castro::derive() 199 0.8089 0.8144 0.8265 1.35% MultiFab::Xpay() 2231 0.7301 0.7367 0.7488 1.23% FillBoundary_nowait() 13309 0.6648 0.6858 0.7184 1.18% FillBoundary_finish() 13309 0.4952 0.6013 0.6831 1.12% Castro::reflux() 10 0.6431 0.6572 0.6769 1.11% Castro::volWgtSum() 242 0.5347 0.5766 0.6125 1.00% Castro::construct_new_gravity_source() 50 0.6019 0.6064 0.609 1.00% Castro::do_advance_ctu() 30 0.2835 0.4457 0.5989 0.98% CellConservativeLinear::interp() 130 0.3759 0.4673 0.5564 0.91% Castro::computeTemp() 257 0.4718 0.4737 0.4774 0.78% MLPoisson::FFlux() 1115 0.4095 0.4105 0.4122 0.68% Castro::FluxRegCrseInit 30 0.3465 0.3553 0.3628 0.59% Gravity::get_new_grav_vector() 52 0.3312 0.3328 0.3342 0.55% FillPatchSingleLevel 655 0.3257 0.3298 0.3337 0.55% StateData::FillBoundary(geom) 63 0.3227 0.3242 0.3269 0.54% Castro::estTimeStep() 69 0.2344 0.2897 0.3164 0.52% amrex::average_down 1741 0.2778 0.2831 0.2924 0.48% MLMG::addInterpCorrection() 1441 0.2631 0.2682 0.2808 0.46% MultiFab::Saxpy() 100 0.2748 0.2757 0.2766 0.45% FillPatchIterator::Initialize 525 0.2353 0.2429 0.2501 0.41% MLMG::oneIter() 337 0.2126 0.2141 0.2161 0.35% VisMF::Write(FabArray) 4 0.173 0.1952 0.2114 0.35% Castro::expand_state() 30 0.1909 0.1913 0.1918 0.31% MLCellLinOp::reflux() 124 0.1831 0.1843 0.1856 0.30% MLCellLinOp::defineAuxData() 81 0.1698 0.1755 0.1837 0.30% Castro::locWgtSum() 66 0.1559 0.1669 0.1805 0.30% MLCellLinOp::compGrad() 100 0.1684 0.1688 0.1691 0.28% Gravity::get_old_grav_vector() 30 0.165 0.1656 0.1667 0.27% Castro::sum_integrated_quantities() 11 0.04423 0.09493 0.1549 0.25% Amr::writePlotFile() 2 0.1157 0.1273 0.151 0.25% FabArray::mult() 294 0.1404 0.1417 0.1435 0.24% Castro::construct_old_gravity_source() 30 0.1354 0.1361 0.1367 0.22% FabArray::setDomainBndry() 655 0.1281 0.1307 0.1362 0.22% MLMG::ResNormInf() 458 0.1003 0.1106 0.1159 0.19% MultiFab::contains_nan() 60 0.09327 0.09338 0.09353 0.15% BndryData::define() 123 0.08711 0.0883 0.08958 0.15% Castro::construct_old_gravity() 30 0.08709 0.08754 0.0878 0.14% MLMG::prepareForSolve() 80 0.08114 0.08217 0.083 0.14% Castro::evaluate_source_change() 591 0.0782 0.07902 0.08096 0.13% MultiFab::LinComb() 634 0.063 0.06767 0.07878 0.13% Gravity::test_level_grad_phi_curr() 20 0.07098 0.0724 0.07489 0.12% Gravity::gravity_sync() 10 0.07038 0.07071 0.07097 0.12% MultiFab::max() 40 0.01453 0.03875 0.06382 0.10% MLCellLinOp::updateSolBC() 103 0.05973 0.06077 0.06216 0.10% Castro::initData() 3 0.05845 0.05979 0.06077 0.10% Castro::volProductSum() 22 0.05025 0.05485 0.05972 0.10% MLCGSolver::bicgstab 84 0 0.01454 0.05817 0.10% Castro::construct_new_gravity() 30 0.05308 0.05349 0.05402 0.09% Castro::apply_tagging_restrictions() 11 0.04891 0.05025 0.05247 0.09% MLCellLinOp::updateCorBC() 82 0.04774 0.04871 0.05021 0.08% MultiFab::norm0(mask) 61 0.04926 0.04934 0.04942 0.08% Gravity::create_comp_minus_level_grad_phi() 10 0.0452 0.04569 0.04644 0.08% FabArrayBase::CPC::define() 2284 0.02785 0.03249 0.04484 0.07% FabArrayBase::getCPC() 8244 0.04117 0.04163 0.04236 0.07% Gravity::test_level_grad_phi_prev() 30 0.04022 0.04105 0.04236 0.07% Gravity::actual_solve_with_mlmg() 81 0.0375 0.04045 0.0422 0.07% MLCellLinOp::setLevelBC() 102 0.04058 0.04104 0.04157 0.07% MultiFab::Copy() 100 0.03931 0.03947 0.0396 0.06% MLMG::buildFineMask() 80 0.03786 0.03833 0.03899 0.06% Gravity::solve_for_phi() 60 0.02687 0.03052 0.03812 0.06% FabArray::setVal(val, thecmd, scomp, ncomp) 3362 0.03521 0.03621 0.03701 0.06% AmrMesh::MakeNewGrids() 11 0.03419 0.03503 0.03579 0.06% Castro::initialize_do_advance() 30 0.0333 0.03398 0.03452 0.06% FabArray::FillBoundary() 13309 0.03085 0.03233 0.0342 0.06% MLCellLinOp::smooth() 6092 0.02678 0.02813 0.0299 0.05% MLCellLinOp::prepareForSolve() 81 0.02444 0.02557 0.02817 0.05% Castro::initialize_advance() 30 0.0253 0.02597 0.02662 0.04% FabArrayBase::getFB() 13309 0.02357 0.02441 0.02646 0.04% Castro::init(old) 9 0.02604 0.02611 0.02618 0.04% MLCellLinOp::defineBC() 81 0.0241 0.02446 0.025 0.04% Gravity::update_max_rhs() 20 0.02377 0.02422 0.02483 0.04% MLMG::interpCorrection_1 82 0.02402 0.0241 0.02424 0.04% Castro::finalize_do_advance() 30 0.01566 0.01924 0.02283 0.04% MultiFab::Multiply() 21 0.01874 0.01886 0.01898 0.03% Castro::initMFs() 12 0.01849 0.01876 0.01895 0.03% Castro::build_fine_mask() 196 0.01867 0.01881 0.01889 0.03% StateData::define() 48 0.01501 0.01675 0.01885 0.03% FillPatchTwoLevels 295 0.01511 0.01658 0.01828 0.03% FabArray::ParallelCopy() 5214 0.01374 0.01425 0.01491 0.02% Castro::swap_state_time_levels() 30 0.013 0.01343 0.01422 0.02% MLMG::MLRhsNormInf() 80 0.01236 0.01243 0.0125 0.02% Gravity::actual_multilevel_solve() 10 0.01199 0.01207 0.01217 0.02% MultiFab::Dot() 469 0 0.002753 0.01101 0.02% Gravity::GetCrsePhi() 40 0.009638 0.009818 0.009943 0.02% MLCellLinOp::apply() 2466 0.005794 0.006836 0.009171 0.02% Gravity::multilevel_solve_for_new_phi() 10 0.008318 0.008716 0.009014 0.01% StateDataPhysBCFunct::() 655 0.006206 0.007164 0.008587 0.01% MLLinOp::makeSubCommunicator() 81 0.003343 0.006125 0.008318 0.01% MLLinOp::defineGrids() 81 0.007492 0.007614 0.007829 0.01% Castro::apply_problem_tags() 11 0.007537 0.007616 0.007807 0.01% MLMG::solve() 80 0.004895 0.006306 0.007453 0.01% MLCGSolver::ParallelAllReduce 700 0 0.001858 0.007431 0.01% Castro::FluxRegFineAdd() 30 0.007163 0.007245 0.007323 0.01% Castro::do_new_sources() 50 0.0008502 0.002627 0.007035 0.01% Castro::buildMetrics() 12 0.005395 0.005593 0.006025 0.01% Castro::Castro() 12 0.005564 0.00572 0.005964 0.01% MLCellLinOp::correctionResidual() 1689 0.004689 0.005137 0.005905 0.01% MLMG::computeResWithCrseSolFineCor() 82 0.005326 0.005385 0.00545 0.01% AMRErrorTag::operator() 11 0.004781 0.004994 0.005273 0.01% MLMG::computeResWithCrseCorFineCor() 82 0.005129 0.005165 0.005219 0.01% Gravity::average_fine_ec_onto_crse_ec() 20 0.004994 0.005052 0.005121 0.01% CGSolver::sxay() 594 0 0.001209 0.004837 0.01% main() 1 0.002813 0.004205 0.004784 0.01% MLMG::mgVcycle() 501 0.004154 0.00435 0.004502 0.01% Gravity::test_composite_phi() 1 0.003671 0.004092 0.004288 0.01% Castro::enforce_consistent_e() 3 0.003506 0.003824 0.004079 0.01% DistributionMapping::LeastUsedCPUs() 5 0.000739 0.002192 0.004013 0.01% MLMG:computeResOfCorrection() 1441 0.003398 0.003482 0.003598 0.01% Amr::regrid() 10 0.002314 0.002664 0.003544 0.01% MLMG::actualBottomSolve() 337 0.0003967 0.001175 0.003504 0.01% FillPatchInterp(Fab) 130 0.001733 0.002169 0.003295 0.01% Castro::do_old_sources() 30 0.0005007 0.001613 0.003166 0.01% FabArrayBase::FB::FB() 140 0.0008787 0.001319 0.002625 0.00% Amr::InitAmr() 1 0.00256 0.002571 0.00258 0.00% MLMG::mgVcycle_down::0 337 0.002311 0.002374 0.00252 0.00% MLMG::mgVcycle_down::1 337 0.002131 0.002191 0.002309 0.00% MLMG::mgVcycle_down::2 337 0.00197 0.002034 0.002159 0.00% MLCellLinOp::solutionResidual() 542 0.002011 0.002061 0.002152 0.00% Castro::subcycle_advance_ctu() 30 0.0002051 0.0006614 0.002012 0.00% Gravity::solve_phi_with_mlmg() 71 0.001672 0.001761 0.001984 0.00% Castro::clean_state() 254 0.001662 0.001724 0.001844 0.00% TagBoxArray::collate() 11 0.00132 0.001575 0.001831 0.00% MLMG::mgVcycle_up::0 337 0.001537 0.001585 0.001675 0.00% MLMG::MLResNormInf() 101 0.0006902 0.001303 0.001609 0.00% OwnerMask() 11 0.001408 0.00149 0.001593 0.00% MLMG::mgVcycle_up::1 337 0.001359 0.0014 0.001466 0.00% MLMG::mgVcycle_up::2 337 0.001364 0.001412 0.001458 0.00% MLMG::mgVcycle_bottom 501 0.001358 0.001399 0.001455 0.00% MLMG::mgVcycle_down::3 215 0.001202 0.001277 0.00134 0.00% MLMG::mgVcycle_down::4 215 0.001147 0.001216 0.001293 0.00% makeSFC 243 0.001073 0.001126 0.001147 0.00% Castro::finalize_advance() 30 0.0008649 0.0009595 0.001128 0.00% MLMG::mgVcycle_up::4 215 0.0007936 0.0008489 0.0009349 0.00% TagBoxArray::mapPRD 11 0.0008293 0.0008763 0.0009232 0.00% MLMG::computeResidual() 337 0.00086 0.0008726 0.0008964 0.00% MLMG::mgVcycle_up::3 215 0.0007451 0.0008039 0.0008768 0.00% MLLinOp::makeAgglomeratedDMap 81 0.0007583 0.0007674 0.0007836 0.00% Amr::coarseTimeStep() 10 0.0005405 0.0006124 0.0007229 0.00% Amr::timeStep() 30 0.0004351 0.0005188 0.0007065 0.00% MLPoisson::define() 81 0.0006218 0.0006486 0.0006711 0.00% Castro::construct_new_source() 250 0.000577 0.0005861 0.0006122 0.00% Amr::grid_places() 11 0.0004974 0.0005292 0.0005971 0.00% FabArrayBase::TheFPinfo() 130 0.0005199 0.0005321 0.0005494 0.00% DistributionMapping::Distribute() 245 0.0004917 0.0005044 0.0005121 0.00% Castro::enforce_speed_limit() 254 0.0004011 0.0004051 0.0004098 0.00% Castro::apply_source_to_state() 100 0.0003825 0.0003919 0.000406 0.00% Castro::computeNewDt() 18 0.0001184 0.0001828 0.0003692 0.00% MLMG::computeMLResidual() 101 0.0003204 0.0003336 0.000348 0.00% MLPoisson::prepareForSolve() 81 0.0003314 0.0003391 0.0003463 0.00% Castro::construct_old_source() 150 0.0002854 0.0002961 0.0003075 0.00% MLMG::miniCycle() 164 0.0002871 0.0002934 0.0003037 0.00% MLLinOp::define() 81 0.0002925 0.0002959 0.0003 0.00% MLMG::getGradSolution() 80 0.0002563 0.0002678 0.0002826 0.00% AmrLevel::AmrLevel(dm) 12 0.0002512 0.000261 0.0002764 0.00% Castro::post_regrid() 22 0.0002291 0.0002407 0.0002488 0.00% ClusterList::intersect() 2 0 5.941e-05 0.0002376 0.00% Castro::advance() 30 0.0001979 0.0002114 0.0002346 0.00% Gravity::swapTimeLevels() 30 0.0001845 0.0001959 0.0002053 0.00% FabArray::RecvLayoutMask() 21 0.0001979 0.0002 0.0002018 0.00% Castro::check_for_nan() 60 0.0001838 0.0001892 0.0001939 0.00% Castro::errorEst() 11 0.0001271 0.0001422 0.0001707 0.00% Castro::post_timestep() 30 0.000134 0.0001411 0.0001507 0.00% Castro::avgDown(state_indx) 44 0.0001156 0.0001198 0.0001288 0.00% FPinfo::FPinfo() 3 0.0001069 0.0001098 0.0001113 0.00% Amr::defBaseLevel() 1 9.411e-05 9.901e-05 0.0001075 0.00% Amr::FinalizeInit() 1 1.934e-05 4.316e-05 0.000107 0.00% AmrMesh-cluster 2 0 2.583e-05 0.0001033 0.00% amrex::average_down_w_geom 44 8.624e-05 9.177e-05 9.699e-05 0.00% Gravity::solve_for_delta_phi 10 8.287e-05 8.582e-05 9.035e-05 0.00% Amr::writeSmallPlotFile() 1 7.2e-05 7.75e-05 8.901e-05 0.00% Castro::create_source_corrector() 30 8.163e-05 8.33e-05 8.633e-05 0.00% Castro::retry_advance_ctu() 30 5.825e-05 6.196e-05 7.005e-05 0.00% Castro::avgDown() 11 5.827e-05 6.283e-05 6.735e-05 0.00% knapsack() 3 6.305e-05 6.423e-05 6.613e-05 0.00% Amr::bldFineLevels() 1 5.455e-05 5.657e-05 6.219e-05 0.00% Amr::initSubcycle() 1 3.501e-05 4.815e-05 6.116e-05 0.00% Castro::gwstrain() 22 3.507e-05 3.945e-05 4.657e-05 0.00% DistributionMapping::SFCProcessorMapDoIt() 2 3.575e-05 3.954e-05 4.529e-05 0.00% BoxList::parallelComplementIn() 22 4.165e-05 4.282e-05 4.421e-05 0.00% Gravity::set_mass_offset() 11 2.569e-05 3.071e-05 4.13e-05 0.00% BoxList::complementIn 22 4.014e-05 4.062e-05 4.108e-05 0.00% DistributionMapping::KnapSackDoIt() 3 3.053e-05 3.131e-05 3.216e-05 0.00% ClusterList::chop() 2 0 6.227e-06 2.491e-05 0.00% Castro::post_init() 2 2.336e-05 2.382e-05 2.43e-05 0.00% Amr::InitializeInit() 1 5.222e-06 8.294e-06 1.405e-05 0.00% Castro::computeInitialDt() 2 1.08e-05 1.163e-05 1.34e-05 0.00% MLMG::compResidual() 1 1.121e-05 1.203e-05 1.3e-05 0.00% Amr::init() 1 5.593e-06 6.758e-06 8.379e-06 0.00% knapsack()swap 2 4.962e-06 5.194e-06 5.57e-06 0.00% Amr::initialInit() 1 3.674e-06 4.53e-06 5.482e-06 0.00% -------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------- Name NCalls Incl. Min Incl. Avg Incl. Max Max % -------------------------------------------------------------------------------------------- main() 1 61.03 61.04 61.04 100.00% Amr::coarseTimeStep() 10 58.23 58.23 58.23 95.41% Amr::timeStep() 30 58.12 58.13 58.16 95.28% Castro::advance() 30 42.59 42.59 42.59 69.78% Castro::subcycle_advance_ctu() 30 40.77 40.78 40.79 66.83% Castro::do_advance_ctu() 30 40.77 40.78 40.79 66.83% Castro::construct_ctu_hydro_source() 30 22.53 22.67 22.83 37.41% Gravity::actual_solve_with_mlmg() 81 13.55 13.56 13.56 22.21% MLMG::solve() 80 12.84 12.85 12.86 21.06% Castro::post_timestep() 30 12.07 12.08 12.1 19.83% Castro::clean_state() 254 11.01 11.08 11.2 18.35% MLMG::oneIter() 337 10.79 10.79 10.8 17.70% Gravity::solve_phi_with_mlmg() 71 10.26 10.29 10.32 16.90% Castro::reflux() 10 9.72 9.73 9.742 15.96% MLMG::mgVcycle() 501 9.436 9.445 9.462 15.50% Gravity::solve_for_phi() 60 8.319 8.346 8.369 13.71% MLCellLinOp::smooth() 6092 6.47 6.586 6.881 11.27% Castro::computeTemp() 257 6.295 6.352 6.424 10.52% Castro::reset_internal_energy(MultiFab) 257 5.821 5.878 5.946 9.74% Castro::construct_new_gravity() 30 5.077 5.089 5.099 8.35% Gravity::gravity_sync() 10 5.03 5.03 5.031 8.24% Castro::construct_old_gravity() 30 4.695 4.722 4.748 7.78% Castro::evaluate_source_change() 591 4.602 4.622 4.636 7.60% MLPoisson::Fsmooth() 12184 4.257 4.352 4.494 7.36% Gravity::solve_for_delta_phi 10 4.22 4.22 4.221 6.91% MLMG::mgVcycle_down::0 337 4.014 4.022 4.038 6.62% Castro::enforce_min_density() 254 3.863 3.905 3.969 6.50% Amr::regrid() 10 3.548 3.553 3.567 5.84% Castro::do_new_sources() 50 3.335 3.355 3.384 5.54% Castro::post_regrid() 22 3.33 3.345 3.38 5.54% FillPatchIterator::Initialize 525 3.16 3.187 3.22 5.28% MLCellLinOp::applyBC() 14874 2.814 2.91 3.099 5.08% MLMG::mgVcycle_up::0 337 2.754 2.951 3.026 4.96% MultiFab::AddProduct() 4648 2.662 2.673 2.679 4.39% FabArray::ParallelCopy() 5214 2.024 2.443 2.655 4.35% MLCellLinOp::apply() 2466 2.543 2.57 2.644 4.33% Castro::initialize_do_advance() 30 2.591 2.616 2.633 4.31% FabArray::setVal() 9516 2.425 2.447 2.464 4.04% Amr::init() 1 2.245 2.245 2.245 3.68% FillPatchSingleLevel 655 2.123 2.14 2.152 3.53% MLPoisson::Fapply() 2466 1.909 1.927 1.965 3.22% Gravity::multilevel_solve_for_new_phi() 10 1.949 1.949 1.95 3.19% Gravity::actual_multilevel_solve() 10 1.941 1.941 1.941 3.18% MLCellLinOp::solutionResidual() 542 1.778 1.794 1.801 2.95% MLCellLinOp::correctionResidual() 1689 1.644 1.673 1.749 2.87% MultiFab::Subtract() 601 1.659 1.665 1.67 2.74% Amr::initialInit() 1 1.618 1.618 1.618 2.65% MLMG:computeResOfCorrection() 1441 1.5 1.524 1.584 2.60% Castro::do_old_sources() 30 1.549 1.56 1.574 2.58% Castro::sum_integrated_quantities() 11 1.398 1.412 1.423 2.33% Castro::initialize_advance() 30 1.403 1.409 1.417 2.32% Castro::derive() 199 1.393 1.4 1.413 2.31% FabArray::FillBoundary() 13309 1.271 1.345 1.404 2.30% FabArray::ParallelCopy_nowait() 5214 1.315 1.351 1.368 2.24% Amr::FinalizeInit() 1 1.299 1.302 1.31 2.15% FabArray::ParallelCopy_finish() 5214 0.6417 1.078 1.273 2.09% FillPatchTwoLevels 295 1.176 1.193 1.205 1.97% Castro::expand_state() 30 1.17 1.182 1.203 1.97% Amr::writePlotFile() 2 1.177 1.177 1.177 1.93% FluxRegister::Reflux() 180 1.155 1.157 1.158 1.90% Gravity::fill_multipole_BCs() 41 1.091 1.119 1.136 1.86% Castro::reset_internal_energy(Fab) 971 1.012 1.02 1.036 1.70% MLMG::addInterpCorrection() 1441 0.3117 0.8276 1.009 1.65% Gravity::get_new_grav_vector() 52 0.9943 1.001 1.005 1.65% Castro::post_init() 2 0.9407 0.9656 0.9905 1.62% MLMG::computeResWithCrseSolFineCor() 82 0.9713 0.9716 0.9719 1.59% Castro::normalize_species() 254 0.8721 0.8962 0.92 1.51% MLMG::computeResidual() 337 0.9142 0.917 0.9194 1.51% MultiFab::sum() 4648 0.8928 0.8971 0.901 1.48% MLMG::mgVcycle_down::1 337 0.6984 0.7333 0.8084 1.32% MultiFab::Xpay() 2231 0.7301 0.7367 0.7488 1.23% FillBoundary_nowait() 13309 0.6895 0.7116 0.7431 1.22% MLCellLinOp::reflux() 124 0.6923 0.694 0.695 1.14% FillBoundary_finish() 13309 0.4952 0.6013 0.6831 1.12% MLMG::mgVcycle_up::2 337 0.2156 0.5469 0.6628 1.09% MLMG::computeMLResidual() 101 0.6282 0.6436 0.6535 1.07% Castro::volWgtSum() 242 0.5349 0.5768 0.6127 1.00% Castro::construct_new_source() 250 0.6025 0.607 0.6096 1.00% Castro::construct_new_gravity_source() 50 0.6019 0.6064 0.609 1.00% FillPatchInterp(Fab) 130 0.3778 0.4695 0.5582 0.91% CellConservativeLinear::interp() 130 0.3759 0.4673 0.5564 0.91% MLMG::mgVcycle_up::1 337 0.4825 0.5001 0.5478 0.90% Gravity::get_old_grav_vector() 30 0.529 0.5319 0.5358 0.88% MLPoisson::FFlux() 1115 0.4095 0.4105 0.4122 0.68% Castro::finalize_advance() 30 0.3919 0.3954 0.3988 0.65% Castro::FluxRegCrseInit 30 0.3836 0.3872 0.3907 0.64% MLPoisson::define() 81 0.3695 0.378 0.3901 0.64% amrex::average_down 1741 0.3021 0.3125 0.3359 0.55% StateDataPhysBCFunct::() 655 0.3303 0.3314 0.3335 0.55% MLMG::mgVcycle_bottom 501 0.173 0.2125 0.3306 0.54% StateData::FillBoundary(geom) 63 0.3227 0.3242 0.3269 0.54% MLMG::prepareForSolve() 80 0.3132 0.3179 0.3269 0.54% Amr::InitializeInit() 1 0.3078 0.316 0.3199 0.52% Amr::defBaseLevel() 1 0.3078 0.316 0.3199 0.52% Castro::estTimeStep() 69 0.2344 0.2897 0.3164 0.52% Castro::initData() 3 0.2766 0.2897 0.2963 0.49% MLMG::mgVcycle_down::2 337 0.2548 0.264 0.2881 0.47% Castro::apply_source_to_state() 100 0.2751 0.2761 0.277 0.45% MultiFab::Saxpy() 100 0.2748 0.2757 0.2766 0.45% MLCellLinOp::defineAuxData() 81 0.2106 0.2197 0.2357 0.39% MLMG::getGradSolution() 80 0.2151 0.2154 0.2159 0.35% MLCellLinOp::compGrad() 100 0.2148 0.2151 0.2157 0.35% VisMF::Write(FabArray) 4 0.173 0.1952 0.2114 0.35% Amr::bldFineLevels() 1 0.185 0.1993 0.2041 0.33% MLMG::mgVcycle_down::3 215 0.03426 0.07646 0.1982 0.32% Castro::computeNewDt() 18 0.1376 0.1712 0.1887 0.31% Castro::locWgtSum() 66 0.156 0.167 0.1806 0.30% MLMG::miniCycle() 164 0.1725 0.1726 0.1727 0.28% MLMG::actualBottomSolve() 337 0.0003967 0.03981 0.1581 0.26% Castro::init(old) 9 0.1533 0.1547 0.1574 0.26% MLCGSolver::bicgstab 84 0 0.03796 0.1518 0.25% MLMG::ResNormInf() 458 0.1336 0.1439 0.1491 0.24% Amr::grid_places() 11 0.1438 0.1443 0.1457 0.24% AmrMesh::MakeNewGrids() 11 0.1432 0.1438 0.1452 0.24% FabArray::mult() 294 0.1404 0.1417 0.1435 0.24% MLCellLinOp::defineBC() 81 0.1397 0.1413 0.1433 0.23% MLMG::mgVcycle_up::3 215 0.02578 0.05534 0.1406 0.23% Castro::construct_old_source() 150 0.1357 0.1364 0.137 0.22% Castro::construct_old_gravity_source() 30 0.1354 0.1361 0.1367 0.22% FabArray::setDomainBndry() 655 0.1281 0.1307 0.1362 0.22% BndryData::define() 123 0.1141 0.1156 0.1175 0.19% MLMG::computeResWithCrseCorFineCor() 82 0.1113 0.1114 0.1117 0.18% Gravity::GetCrsePhi() 40 0.09124 0.09543 0.1015 0.17% MLCellLinOp::updateSolBC() 103 0.08961 0.09381 0.09957 0.16% Gravity::update_max_rhs() 20 0.04898 0.07299 0.09874 0.16% Castro::check_for_nan() 60 0.09346 0.09356 0.09372 0.15% MultiFab::contains_nan() 60 0.09327 0.09338 0.09353 0.15% Castro::errorEst() 11 0.08762 0.08986 0.09288 0.15% FabArrayBase::getCPC() 8244 0.06903 0.07412 0.0872 0.14% Gravity::test_level_grad_phi_curr() 20 0.08026 0.08185 0.0842 0.14% Gravity::create_comp_minus_level_grad_phi() 10 0.08167 0.08229 0.08313 0.14% MultiFab::LinComb() 634 0.063 0.06767 0.07878 0.13% Castro::Castro() 12 0.07458 0.07538 0.0764 0.13% MLMG::mgVcycle_down::4 215 0.03281 0.04461 0.0751 0.12% MLCellLinOp::updateCorBC() 82 0.06708 0.06767 0.06828 0.11% MultiFab::max() 40 0.01453 0.03875 0.06382 0.10% MLCellLinOp::setLevelBC() 102 0.05007 0.05888 0.06246 0.10% Castro::volProductSum() 22 0.05027 0.05486 0.05974 0.10% Gravity::test_composite_phi() 1 0.05944 0.0595 0.05954 0.10% MLMG::mgVcycle_up::4 215 0.02581 0.03464 0.05777 0.09% Castro::apply_tagging_restrictions() 11 0.04891 0.05025 0.05247 0.09% MultiFab::norm0(mask) 61 0.04926 0.04934 0.04942 0.08% MLMG::buildFineMask() 80 0.04747 0.04796 0.04863 0.08% Gravity::test_level_grad_phi_prev() 30 0.04561 0.04657 0.04779 0.08% MLMG::MLResNormInf() 101 0.047 0.04728 0.04743 0.08% MLMG::interpCorrection_1 82 0.0327 0.04122 0.04614 0.08% FabArrayBase::CPC::define() 2284 0.02785 0.03249 0.04484 0.07% MultiFab::Copy() 100 0.03931 0.03947 0.0396 0.06% FabArray::setVal(val, thecmd, scomp, ncomp) 3362 0.03521 0.03621 0.03701 0.06% FabArrayBase::getFB() 13309 0.02445 0.02573 0.02909 0.05% MLMG::MLRhsNormInf() 80 0.0284 0.02848 0.02857 0.05% MLPoisson::prepareForSolve() 81 0.02479 0.02591 0.02851 0.05% Castro::computeInitialDt() 2 0.01635 0.02011 0.02828 0.05% MLCellLinOp::prepareForSolve() 81 0.02444 0.02557 0.02817 0.05% Gravity::swapTimeLevels() 30 0.02332 0.02392 0.02477 0.04% Castro::finalize_do_advance() 30 0.01566 0.01924 0.02283 0.04% Castro::buildMetrics() 12 0.01846 0.01878 0.01934 0.03% CGSolver::sxay() 594 0 0.004788 0.01915 0.03% AmrLevel::AmrLevel(dm) 12 0.01526 0.01701 0.01912 0.03% MultiFab::Multiply() 21 0.01874 0.01886 0.01898 0.03% Castro::initMFs() 12 0.01849 0.01876 0.01895 0.03% Castro::build_fine_mask() 196 0.01867 0.01881 0.01889 0.03% StateData::define() 48 0.01501 0.01675 0.01885 0.03% MLLinOp::define() 81 0.01344 0.01642 0.01852 0.03% MLLinOp::defineGrids() 81 0.01315 0.01613 0.01823 0.03% Gravity::average_fine_ec_onto_crse_ec() 20 0.01427 0.01469 0.01492 0.02% MLMG::compResidual() 1 0.01343 0.01396 0.01472 0.02% Castro::avgDown() 11 0.01402 0.01435 0.01468 0.02% Castro::avgDown(state_indx) 44 0.01396 0.01429 0.01462 0.02% amrex::average_down_w_geom 44 0.01384 0.01417 0.0145 0.02% MLCGSolver::ParallelAllReduce 700 0 0.003615 0.01446 0.02% Castro::swap_state_time_levels() 30 0.013 0.01343 0.01422 0.02% TagBoxArray::mapPRD 11 0.006964 0.011 0.01349 0.02% MultiFab::Dot() 469 0 0.002753 0.01101 0.02% MLLinOp::makeSubCommunicator() 81 0.003343 0.006125 0.008318 0.01% Castro::apply_problem_tags() 11 0.007537 0.007616 0.007807 0.01% Castro::FluxRegFineAdd() 30 0.007163 0.007245 0.007323 0.01% AMRErrorTag::operator() 11 0.004781 0.004994 0.005273 0.01% FabArrayBase::TheFPinfo() 130 0.001428 0.002805 0.004532 0.01% Castro::enforce_consistent_e() 3 0.003506 0.003824 0.004079 0.01% DistributionMapping::LeastUsedCPUs() 5 0.000739 0.002192 0.004013 0.01% FPinfo::FPinfo() 3 0.0009078 0.002273 0.00401 0.01% DistributionMapping::KnapSackDoIt() 3 0.0007965 0.002163 0.0039 0.01% Amr::InitAmr() 1 0.002596 0.002619 0.002641 0.00% FabArrayBase::FB::FB() 140 0.0008787 0.001319 0.002625 0.00% MLLinOp::makeAgglomeratedDMap 81 0.002313 0.002388 0.002425 0.00% TagBoxArray::collate() 11 0.00132 0.001575 0.001831 0.00% makeSFC 243 0.001555 0.001621 0.001649 0.00% OwnerMask() 11 0.001408 0.00149 0.001593 0.00% DistributionMapping::Distribute() 245 0.0004917 0.0005044 0.0005121 0.00% Castro::enforce_speed_limit() 254 0.0004011 0.0004051 0.0004098 0.00% AmrMesh-cluster 2 0 9.146e-05 0.0003659 0.00% DistributionMapping::SFCProcessorMapDoIt() 2 8.796e-05 0.0001787 0.0002635 0.00% ClusterList::intersect() 2 0 5.941e-05 0.0002376 0.00% FabArray::RecvLayoutMask() 21 0.0001979 0.0002 0.0002018 0.00% Amr::writeSmallPlotFile() 1 7.2e-05 7.75e-05 8.901e-05 0.00% Castro::create_source_corrector() 30 8.163e-05 8.33e-05 8.633e-05 0.00% BoxList::parallelComplementIn() 22 8.179e-05 8.345e-05 8.51e-05 0.00% knapsack() 3 6.81e-05 6.943e-05 7.17e-05 0.00% Castro::retry_advance_ctu() 30 5.825e-05 6.196e-05 7.005e-05 0.00% Amr::initSubcycle() 1 3.501e-05 4.815e-05 6.116e-05 0.00% Castro::gwstrain() 22 3.507e-05 3.945e-05 4.657e-05 0.00% Gravity::set_mass_offset() 11 2.569e-05 3.071e-05 4.13e-05 0.00% BoxList::complementIn 22 4.014e-05 4.062e-05 4.108e-05 0.00% ClusterList::chop() 2 0 6.227e-06 2.491e-05 0.00% knapsack()swap 2 4.962e-06 5.194e-06 5.57e-06 0.00% -------------------------------------------------------------------------------------------- AMReX (22.05-6-gc4ad207584b0) finalized