Initializing AMReX (26.05-3-g4ceb814db7d7)... MPI initialized with 1 MPI processes MPI initialized with thread support level 0 Initializing CUDA... CUDA initialized with 1 device. AMReX (26.05-3-g4ceb814db7d7) initialized MFIX git describe: 26.04-36-gf132b728827f AMReX-Hydro git hash: 75da770ea36e4064b5947d7e56baa19f5bc92263 Number of levels: 1 RunType is Standard Auto-generating level-set parameters: eb_refinement = 1 levelset_pad = 2 eb_pad = 2 ================================================================================ Warning: Overwriting amr.plt_regtest with value from mfix.plt_regtest ================================================================================ ================================================================================ Warning: Overwriting amr.plot_int with value from mfix.plot_int ================================================================================ ================================================================================ Warning: Overwriting amr.plot_file with value from mfix.plot_file ================================================================================ ================================================================================ Warning: Overwriting amr.check_file with value from mfix.check_file ================================================================================ Simulation is transient -------------------------------------------------------------------------------- Info: Max effective viscosity factor not specified. Using default 1e+06 -------------------------------------------------------------------------------- EB with constant temperature: bc.wall-temp Temperature of wall .................... 293.15 Load balance setup: Type: SingleGrid Strategy: KnapSack Weighting: ParticleRunTime Drag model: Gidaspow Building box geometry. Now making the ebfactories ... Done making the eb levels ... On level 0 updated BC areas: BC: 0 area: 0 BC: 1 area: 0 BC: 2 area: 0 BC: 3 area: 0.003711795218 Auto generating particles ... Total number of generated particles: 5,632 Time spent in initializing particles 0.001652958 **************************************** Coverage report: Grids Cells regular: 0 1152 covered: 0 0 cut: 4 896 **************************************** Bounding box for levelset imposed walls (EB box geometry): Lo: 0 1e-06 0.0005 Hi: 1 0.015999 0.0155 Clean up auto-generated particles. IC Region Generated Removed Remaining **************** **************** **************** **************** full-domain 0 0 0 init-bed 5,632 852 4,780 ---------------- ---------------- ---------------- ---------------- Total 5,632 852 4,780 **************** **************** **************** **************** Setting original sum_vol to 1.45827937e-05 Initial projection: Before projection: max(abs(u/v/w)) = 0 0 0 max(abs(gpx/gpy/gpz)) = 0 0 0 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4563783839 0.1065738072 0.1035114164 Doing initial pressure iterations with dt = 0.001 In initial_iterations: iter = 0 Before projection: max(abs(u/v/w)) = 0.4152174842 0.07141297722 0.0696464543 max(abs(gpx/gpy/gpz)) = 0 0 0 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4544765211 0.09144714875 0.08630791533 In initial_iterations: iter = 1 Before projection: max(abs(u/v/w)) = 0.4496359468 0.08646870288 0.08202984281 max(abs(gpx/gpy/gpz)) = 262.1483741 18.15106995 15.35999341 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4559800448 0.09302267664 0.08799407041 In initial_iterations: iter = 2 Before projection: max(abs(u/v/w)) = 0.4552321402 0.09139060973 0.08649851585 max(abs(gpx/gpy/gpz)) = 264.5244894 24.08905811 20.76360208 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4555924158 0.09382544948 0.08884047886 Enclosed domain volume is 1.45827937e-05 Time spent in init 0.414996849 Unused ParmParse Variables: [TOP]::amr.par_ascii_file(nvals = 1) :: [vis] [TOP]::amr.par_ascii_int(nvals = 1) :: [-1] Writing plotfile BENCH08-PIC-Patil-Godunov_plt00000 at time 0 ============ NEW TIME STEP ============ Step 1: from old_time 0 to new time 0.0009600872126 with dt = 0.0009600872126 Before projection: max(abs(u/v/w)) = 0.4133831879 0.07106799524 0.07005904379 max(abs(gpx/gpy/gpz)) = 264.6322075 26.29504461 22.88541725 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4556336895 0.1011123067 0.09628899267 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.081940196 max(eps(1)) = 0.082265573 max(eps(1) - eps(0)) = 0.0003663 max(eps(2)) = 0.082265445 max(eps(2) - eps(1)) = 2.007e-07 max(eps(3)) = 0.082265445 max(eps(3) - eps(2)) = 2.995e-08 Time per fluid step 0.109307792 Time per parcel step 0.004493763 Coupling time per step 0.00409187 Time per step 0.119072368 ============ NEW TIME STEP ============ Step 2: from old_time 0.0009600872126 to new time 0.001909901923 with dt = 0.0009498147108 Before projection: max(abs(u/v/w)) = 0.4190054758 0.07552380607 0.07390915057 max(abs(gpx/gpy/gpz)) = 276.3481025 33.19525029 29.87136533 Min and Max of epf 0.9177345553 1 After projection: max(abs(u/v/w)) = 0.4634660299 0.09377127839 0.08722279352 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.082265445 max(eps(1)) = 0.082985791 max(eps(1) - eps(0)) = 0.0007203 max(eps(2)) = 0.082985542 max(eps(2) - eps(1)) = 2.494e-07 max(eps(3)) = 0.082985542 max(eps(3) - eps(2)) = 2.556e-08 Time per fluid step 0.108764627 Time per parcel step 0.00346242 Coupling time per step 0.003383511 Time per step 0.116731508 ============ NEW TIME STEP ============ Step 3: from old_time 0.001909901923 to new time 0.002909901923 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4239964264 0.07384911162 0.07169246 max(abs(gpx/gpy/gpz)) = 72.11431444 32.55385559 28.46224525 Min and Max of epf 0.9170144578 1 After projection: max(abs(u/v/w)) = 0.4798645761 0.08759701033 0.0834938051 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.082985542 max(eps(1)) = 0.084140037 max(eps(1) - eps(0)) = 0.001154 max(eps(2)) = 0.084139588 max(eps(2) - eps(1)) = 4.651e-07 max(eps(3)) = 0.084139588 max(eps(3) - eps(2)) = 1.864e-08 Time per fluid step 0.102037925 Time per parcel step 0.003730842 Coupling time per step 0.003403202 Time per step 0.110350777 ============ NEW TIME STEP ============ Step 4: from old_time 0.002909901923 to new time 0.003909901923 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.428780714 0.07125355219 0.06895053428 max(abs(gpx/gpy/gpz)) = 77.77015726 32.95667539 28.56799155 Min and Max of epf 0.9158604117 1 After projection: max(abs(u/v/w)) = 0.4956486898 0.08343251213 0.08015453177 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.084139588 max(eps(1)) = 0.085689421 max(eps(1) - eps(0)) = 0.00155 max(eps(2)) = 0.085688807 max(eps(2) - eps(1)) = 6.384e-07 max(eps(3)) = 0.085688808 max(eps(3) - eps(2)) = 1.537e-08 Time per fluid step 0.102462551 Time per parcel step 0.003355552 Coupling time per step 0.003279318 Time per step 0.110198088 ============ NEW TIME STEP ============ Step 5: from old_time 0.003909901923 to new time 0.004909901923 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4379242497 0.06858822069 0.06621347391 max(abs(gpx/gpy/gpz)) = 82.64156524 34.14920731 29.7063682 Min and Max of epf 0.9143111924 1 After projection: max(abs(u/v/w)) = 0.508682566 0.08061473083 0.07740935646 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.085688808 max(eps(1)) = 0.087633173 max(eps(1) - eps(0)) = 0.001944 max(eps(2)) = 0.087632384 max(eps(2) - eps(1)) = 8.797e-07 max(eps(3)) = 0.087632385 max(eps(3) - eps(2)) = 2.075e-08 Time per fluid step 0.102524088 Time per parcel step 0.003416295 Coupling time per step 0.003136247 Time per step 0.110213255 ============ NEW TIME STEP ============ Step 6: from old_time 0.004909901923 to new time 0.005909901923 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4479485001 0.06629919644 0.06382404551 max(abs(gpx/gpy/gpz)) = 87.13843811 35.25996047 30.64282607 Min and Max of epf 0.9123676153 1 After projection: max(abs(u/v/w)) = 0.5195361622 0.07883652437 0.07537787195 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.087632385 max(eps(1)) = 0.08997038 max(eps(1) - eps(0)) = 0.002338 max(eps(2)) = 0.089969406 max(eps(2) - eps(1)) = 1.06e-06 max(eps(3)) = 0.089969407 max(eps(3) - eps(2)) = 2.54e-08 Time per fluid step 0.102006837 Time per parcel step 0.003300216 Coupling time per step 0.003381082 Time per step 0.109763844 ============ NEW TIME STEP ============ Step 7: from old_time 0.005909901923 to new time 0.006909901923 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4570652295 0.06459252327 0.06190317673 max(abs(gpx/gpy/gpz)) = 91.76312613 36.29827897 31.4455979 Min and Max of epf 0.9100305928 1 After projection: max(abs(u/v/w)) = 0.5312764463 0.07764965178 0.07394716102 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.089969407 max(eps(1)) = 0.092700028 max(eps(1) - eps(0)) = 0.002731 max(eps(2)) = 0.092698857 max(eps(2) - eps(1)) = 1.244e-06 max(eps(3)) = 0.092698858 max(eps(3) - eps(2)) = 2.925e-08 Time per fluid step 0.100892207 Time per parcel step 0.003341552 Coupling time per step 0.003452113 Time per step 0.108827712 ============ NEW TIME STEP ============ Step 8: from old_time 0.006909901923 to new time 0.007909901923 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4683183574 0.06413036864 0.06038614732 max(abs(gpx/gpy/gpz)) = 97.3037993 37.09580435 32.06561472 Min and Max of epf 0.9073011424 1 After projection: max(abs(u/v/w)) = 0.5445977693 0.07687280312 0.07298214908 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.092698858 max(eps(1)) = 0.09582099 max(eps(1) - eps(0)) = 0.003122 max(eps(2)) = 0.095819609 max(eps(2) - eps(1)) = 1.428e-06 max(eps(3)) = 0.095819611 max(eps(3) - eps(2)) = 3.416e-08 Time per fluid step 0.100546931 Time per parcel step 0.003448262 Coupling time per step 0.003438038 Time per step 0.108478122 ============ NEW TIME STEP ============ Step 9: from old_time 0.007909901923 to new time 0.008909901923 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4785014285 0.06366377087 0.05916959184 max(abs(gpx/gpy/gpz)) = 103.6319142 37.84696962 32.62797654 Min and Max of epf 0.9041803895 1 After projection: max(abs(u/v/w)) = 0.5560470791 0.07637384929 0.07239661545 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.095819611 max(eps(1)) = 0.099332032 max(eps(1) - eps(0)) = 0.003512 max(eps(2)) = 0.09933043 max(eps(2) - eps(1)) = 1.616e-06 max(eps(3)) = 0.099330432 max(eps(3) - eps(2)) = 3.883e-08 Time per fluid step 0.100709148 Time per parcel step 0.00331464 Coupling time per step 0.003668805 Time per step 0.108910423 ============ NEW TIME STEP ============ Step 10: from old_time 0.008909901923 to new time 0.009909901923 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4869435472 0.06315595923 0.05817513828 max(abs(gpx/gpy/gpz)) = 110.6235493 38.63556016 33.25898388 Min and Max of epf 0.9006695684 1 After projection: max(abs(u/v/w)) = 0.5656537217 0.07610330993 0.07210219694 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.099330432 max(eps(1)) = 0.1032176 max(eps(1) - eps(0)) = 0.003895 max(eps(2)) = 0.10321661 max(eps(2) - eps(1)) = 1.151e-06 max(eps(3)) = 0.10321661 max(eps(3) - eps(2)) = 3.088e-07 Time per fluid step 0.09866143 Time per parcel step 0.004000927 Coupling time per step 0.003437687 Time per step 0.107280208 ============ NEW TIME STEP ============ Step 11: from old_time 0.009909901923 to new time 0.01090990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4939806271 0.0626991771 0.05732770226 max(abs(gpx/gpy/gpz)) = 118.2782255 39.53995735 33.97675438 Min and Max of epf 0.896783387 1 After projection: max(abs(u/v/w)) = 0.5744898095 0.07604190304 0.07203976652 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.10321661 max(eps(1)) = 0.10701675 max(eps(1) - eps(0)) = 0.004286 max(eps(2)) = 0.10701469 max(eps(2) - eps(1)) = 2.058e-06 max(eps(3)) = 0.10701469 max(eps(3) - eps(2)) = 4.713e-08 Time per fluid step 0.102082391 Time per parcel step 0.003241268 Coupling time per step 0.003381841 Time per step 0.109819868 ============ NEW TIME STEP ============ Step 12: from old_time 0.01090990192 to new time 0.01190990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5025676575 0.06224782711 0.05712248501 max(abs(gpx/gpy/gpz)) = 126.887766 40.61768355 34.81204643 Min and Max of epf 0.8929853093 1 After projection: max(abs(u/v/w)) = 0.5838936389 0.07630025105 0.07216914161 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.10701469 max(eps(1)) = 0.11102666 max(eps(1) - eps(0)) = 0.004606 max(eps(2)) = 0.11102448 max(eps(2) - eps(1)) = 2.178e-06 max(eps(3)) = 0.11102448 max(eps(3) - eps(2)) = 4.747e-08 Time per fluid step 0.100857263 Time per parcel step 0.003199494 Coupling time per step 0.003429857 Time per step 0.108710393 ============ NEW TIME STEP ============ Step 13: from old_time 0.01190990192 to new time 0.01290990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5097043543 0.06190324371 0.05658213177 max(abs(gpx/gpy/gpz)) = 124.8061767 41.39258323 35.27011811 Min and Max of epf 0.8889755183 1 After projection: max(abs(u/v/w)) = 0.5928703065 0.07629957822 0.07236715502 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.11102448 max(eps(1)) = 0.1156146 max(eps(1) - eps(0)) = 0.004983 max(eps(2)) = 0.11561187 max(eps(2) - eps(1)) = 2.732e-06 max(eps(3)) = 0.11561187 max(eps(3) - eps(2)) = 7.128e-08 Time per fluid step 0.101898138 Time per parcel step 0.003313644 Coupling time per step 0.003390064 Time per step 0.109646451 ============ NEW TIME STEP ============ Step 14: from old_time 0.01290990192 to new time 0.01390990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5164667594 0.06158368081 0.05591922663 max(abs(gpx/gpy/gpz)) = 130.4004177 42.15048263 36.08117533 Min and Max of epf 0.8843881305 1 After projection: max(abs(u/v/w)) = 0.6007095362 0.07658385711 0.0727067493 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.11561187 max(eps(1)) = 0.12077769 max(eps(1) - eps(0)) = 0.00536 max(eps(2)) = 0.12077438 max(eps(2) - eps(1)) = 3.318e-06 max(eps(3)) = 0.12077438 max(eps(3) - eps(2)) = 4.516e-08 Time per fluid step 0.100341149 Time per parcel step 0.003262507 Coupling time per step 0.003221652 Time per step 0.10782613 ============ NEW TIME STEP ============ Step 15: from old_time 0.01390990192 to new time 0.01490990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5224129937 0.06144342506 0.0551947319 max(abs(gpx/gpy/gpz)) = 140.1279127 43.56252827 37.15906958 Min and Max of epf 0.8792256193 1 After projection: max(abs(u/v/w)) = 0.6097231595 0.07699080088 0.07320855499 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.12077438 max(eps(1)) = 0.12651309 max(eps(1) - eps(0)) = 0.005792 max(eps(2)) = 0.12650916 max(eps(2) - eps(1)) = 3.929e-06 max(eps(3)) = 0.12650917 max(eps(3) - eps(2)) = 4.531e-08 Time per fluid step 0.099141027 Time per parcel step 0.003419409 Coupling time per step 0.00336943 Time per step 0.107025574 ============ NEW TIME STEP ============ Step 16: from old_time 0.01490990192 to new time 0.01590990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5295612044 0.06147169526 0.05441171924 max(abs(gpx/gpy/gpz)) = 152.0761689 45.22810705 38.47813527 Min and Max of epf 0.8734908348 1 After projection: max(abs(u/v/w)) = 0.6185808078 0.07753051875 0.07387126776 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.12650917 max(eps(1)) = 0.13280814 max(eps(1) - eps(0)) = 0.006355 max(eps(2)) = 0.13280191 max(eps(2) - eps(1)) = 6.23e-06 max(eps(3)) = 0.13280192 max(eps(3) - eps(2)) = 4.679e-08 Time per fluid step 0.100901451 Time per parcel step 0.003241821 Coupling time per step 0.003317232 Time per step 0.108571042 ============ NEW TIME STEP ============ Step 17: from old_time 0.01590990192 to new time 0.01690990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.536199373 0.06168461858 0.05354559218 max(abs(gpx/gpy/gpz)) = 166.1237664 47.19219619 40.06547111 Min and Max of epf 0.8671980836 1 After projection: max(abs(u/v/w)) = 0.6264301017 0.07823828745 0.07468486042 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.13280192 max(eps(1)) = 0.13965425 max(eps(1) - eps(0)) = 0.007006 max(eps(2)) = 0.13964713 max(eps(2) - eps(1)) = 7.123e-06 max(eps(3)) = 0.13964714 max(eps(3) - eps(2)) = 5.068e-08 Time per fluid step 0.100220158 Time per parcel step 0.003219698 Coupling time per step 0.003344352 Time per step 0.107897802 ============ NEW TIME STEP ============ Step 18: from old_time 0.01690990192 to new time 0.01790990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.541666127 0.0621017127 0.05277575076 max(abs(gpx/gpy/gpz)) = 182.1959561 49.45458935 41.9261735 Min and Max of epf 0.8603528578 1 After projection: max(abs(u/v/w)) = 0.6349229253 0.07940458365 0.075803154 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.13964714 max(eps(1)) = 0.14737006 max(eps(1) - eps(0)) = 0.008118 max(eps(2)) = 0.14736423 max(eps(2) - eps(1)) = 5.942e-06 max(eps(3)) = 0.14736424 max(eps(3) - eps(2)) = 5.533e-08 Time per fluid step 0.101877037 Time per parcel step 0.003498492 Coupling time per step 0.003428527 Time per step 0.109925715 ============ NEW TIME STEP ============ Step 19: from old_time 0.01790990192 to new time 0.01890990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5477786427 0.06284633474 0.05116356207 max(abs(gpx/gpy/gpz)) = 200.8215852 52.0613757 44.08557577 Min and Max of epf 0.8526357632 1 After projection: max(abs(u/v/w)) = 0.6428042052 0.08057247734 0.07684860638 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.14736424 max(eps(1)) = 0.15535807 max(eps(1) - eps(0)) = 0.008495 max(eps(2)) = 0.15534563 max(eps(2) - eps(1)) = 1.244e-05 max(eps(3)) = 0.15534566 max(eps(3) - eps(2)) = 5.102e-08 Time per fluid step 0.102480864 Time per parcel step 0.003244356 Coupling time per step 0.00356158 Time per step 0.110331443 ============ NEW TIME STEP ============ Step 20: from old_time 0.01890990192 to new time 0.01990990192 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5534536385 0.06336934187 0.05057177068 max(abs(gpx/gpy/gpz)) = 223.2289875 55.33356946 46.78865382 Min and Max of epf 0.8446543438 1 After projection: max(abs(u/v/w)) = 0.6485276595 0.08381430088 0.07961259435 Evolving PIC parcels. Mean free path limiting is enabled with Musser scaling. Bulk velocity frame of reference: 0.5 Predicting average mixture velocity at time level n+0.5 Initial PIC step using n^th step ep_s. max(eps(0)) = 0.15534566 max(eps(1)) = 0.16265923 max(eps(1) - eps(0)) = 0.007873 max(eps(2)) = 0.16265067 max(eps(2) - eps(1)) = 8.627e-06 max(eps(3)) = 0.16265069 max(eps(3) - eps(2)) = 6.973e-08 Time per fluid step 0.102039356 Time per parcel step 0.003392101 Coupling time per step 0.003427363 Time per step 0.109841999 Writing plotfile BENCH08-PIC-Patil-Godunov_plt00020 at time 0.01990990192 Time spent in main (after init) 2.226213148 Time spent in main 2.641209997 Unused ParmParse Variables: [TOP]::amr.par_ascii_file(nvals = 1) :: [vis] [TOP]::amr.par_ascii_int(nvals = 1) :: [-1] Total GPU global memory (MB) spread across MPI: [7965 ... 7965] Free GPU global memory (MB) spread across MPI: [6687 ... 6687] [The Arena] max space (MB) allocated spread across MPI: [41 ... 41] [The Arena] max space (MB) used spread across MPI: [40 ... 40] [The Managed Arena] max space (MB) allocated spread across MPI: [8 ... 8] [The Managed Arena] max space (MB) used spread across MPI: [0 ... 0] [The Pinned Arena] max space (MB) allocated spread across MPI: [8 ... 8] [The Pinned Arena] max space (MB) used spread across MPI: [0 ... 0] AMReX (26.05-3-g4ceb814db7d7) finalized