Initializing AMReX (26.04-116-g93329ebb8af9)... MPI initialized with 1 MPI processes MPI initialized with thread support level 0 Initializing CUDA... CUDA initialized with 1 device. AMReX (26.04-116-g93329ebb8af9) initialized MFIX git describe: 26.04-10-g241b3ff59e79 AMReX-Hydro git hash: c90e2c8b17be110faa4ec7cb2e370a3a65e68e3b 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 0.001663238 **************************************** 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)) = 0.4156228335 0.07122538597 0.07024108245 max(abs(gpx/gpy/gpz)) = 0 0 0 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4532272637 0.08951089756 0.08437768165 In initial_iterations: iter = 1 Before projection: max(abs(u/v/w)) = 0.4501962258 0.08731607235 0.08252052654 max(abs(gpx/gpy/gpz)) = 267.537223 18.65564624 15.82759625 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4536530801 0.09233966272 0.08709467182 In initial_iterations: iter = 2 Before projection: max(abs(u/v/w)) = 0.4533058943 0.09180359096 0.08660786051 max(abs(gpx/gpy/gpz)) = 267.9366789 23.21216635 19.97644349 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4532797987 0.0933390402 0.08810435318 Enclosed domain volume is 1.45827937e-05 Time spent in init 0.314758583 Unused ParmParse Variables: [TOP]::amr.par_ascii_file(nvals = 1) :: [vis] [TOP]::amr.par_ascii_int(nvals = 1) :: [-1] Writing plotfile BENCH08-PIC-Patil_plt00000 at time 0 ============ NEW TIME STEP ============ Step 1: from old_time 0 to new time 0.000921221505 with dt = 0.000921221505 Before projection: max(abs(u/v/w)) = 0.4165799009 0.07151728984 0.07059116866 max(abs(gpx/gpy/gpz)) = 268.0121528 24.6048566 21.33379423 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.4560377986 0.1014725694 0.09644377872 Before projection: max(abs(u/v/w)) = 0.4156030415 0.06941088173 0.06843580749 max(abs(gpx/gpy/gpz)) = 292.7414309 31.77654977 28.55978007 Min and Max of epf 0.9180598038 1 After projection: max(abs(u/v/w)) = 0.460931947 0.1039846656 0.09875736168 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)) = 0.082236565 max(eps(1) - eps(0)) = 0.0003373 max(eps(2)) = 0.082236456 max(eps(2) - eps(1)) = 1.931e-07 max(eps(3)) = 0.082236456 max(eps(3) - eps(2)) = 2.865e-08 Time per fluid step 0.16480086 Time per parcel step 0.004738716 Coupling time per step 0.005062487 Time per step 0.176052679 ============ NEW TIME STEP ============ Step 2: from old_time 0.000921221505 to new time 0.001848168312 with dt = 0.000926946807 Before projection: max(abs(u/v/w)) = 0.4223271273 0.07647872097 0.07481084992 max(abs(gpx/gpy/gpz)) = 263.2084184 34.34989611 30.70663165 Min and Max of epf 0.9177635439 1 After projection: max(abs(u/v/w)) = 0.4620599774 0.09551127196 0.08890851729 Before projection: max(abs(u/v/w)) = 0.4206616763 0.07716483603 0.07544403214 max(abs(gpx/gpy/gpz)) = 62.97124775 29.68326973 26.12982483 Min and Max of epf 0.9177635439 1 After projection: max(abs(u/v/w)) = 0.4664233255 0.09804934571 0.09135564266 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)) = 0.082236456 max(eps(1)) = 0.082916713 max(eps(1) - eps(0)) = 0.0006803 max(eps(2)) = 0.082916488 max(eps(2) - eps(1)) = 2.242e-07 max(eps(3)) = 0.082916489 max(eps(3) - eps(2)) = 2.894e-08 Time per fluid step 0.15713976 Time per parcel step 0.00353147 Coupling time per step 0.004774343 Time per step 0.166863413 ============ NEW TIME STEP ============ Step 3: from old_time 0.001848168312 to new time 0.002848168312 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.425568466 0.07490162226 0.072714656 max(abs(gpx/gpy/gpz)) = 68.53054061 30.9193557 27.07204033 Min and Max of epf 0.9170835114 1 After projection: max(abs(u/v/w)) = 0.4767328662 0.09025590981 0.08318589777 Before projection: max(abs(u/v/w)) = 0.4234629961 0.07516121351 0.07297221811 max(abs(gpx/gpy/gpz)) = 67.97517616 29.62929682 25.79242641 Min and Max of epf 0.9170835114 1 After projection: max(abs(u/v/w)) = 0.4829843534 0.09226635862 0.08457634145 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)) = 0.082916489 max(eps(1)) = 0.084046381 max(eps(1) - eps(0)) = 0.00113 max(eps(2)) = 0.084045942 max(eps(2) - eps(1)) = 4.48e-07 max(eps(3)) = 0.084045942 max(eps(3) - eps(2)) = 2.914e-08 Time per fluid step 0.158153625 Time per parcel step 0.00344378 Coupling time per step 0.00437732 Time per step 0.167317817 ============ NEW TIME STEP ============ Step 4: from old_time 0.002848168312 to new time 0.003848168312 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4298452217 0.07216024538 0.06964641318 max(abs(gpx/gpy/gpz)) = 72.20579277 30.60911397 26.65644172 Min and Max of epf 0.9159540581 1 After projection: max(abs(u/v/w)) = 0.4923331459 0.08651346163 0.08012096188 Before projection: max(abs(u/v/w)) = 0.4285254601 0.07226883734 0.06980463105 max(abs(gpx/gpy/gpz)) = 72.81384176 30.5570764 26.72978945 Min and Max of epf 0.9159540581 1 After projection: max(abs(u/v/w)) = 0.4974271732 0.08796858209 0.08083828616 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)) = 0.084045942 max(eps(1)) = 0.085571116 max(eps(1) - eps(0)) = 0.001525 max(eps(2)) = 0.085570512 max(eps(2) - eps(1)) = 6.312e-07 max(eps(3)) = 0.085570513 max(eps(3) - eps(2)) = 2.178e-08 Time per fluid step 0.159438514 Time per parcel step 0.003323369 Coupling time per step 0.004650057 Time per step 0.168633668 ============ NEW TIME STEP ============ Step 5: from old_time 0.003848168312 to new time 0.004848168312 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4409588293 0.06936495252 0.06674157712 max(abs(gpx/gpy/gpz)) = 75.65891218 31.34512053 27.33620773 Min and Max of epf 0.9144294874 1 After projection: max(abs(u/v/w)) = 0.5055313329 0.08385880087 0.07749898256 Before projection: max(abs(u/v/w)) = 0.4394783976 0.0694243936 0.06682932806 max(abs(gpx/gpy/gpz)) = 77.64476365 31.51667298 27.48262277 Min and Max of epf 0.9144294874 1 After projection: max(abs(u/v/w)) = 0.5098083093 0.08492828252 0.07798857595 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)) = 0.085570513 max(eps(1)) = 0.087490164 max(eps(1) - eps(0)) = 0.00192 max(eps(2)) = 0.087489386 max(eps(2) - eps(1)) = 8.632e-07 max(eps(3)) = 0.087489387 max(eps(3) - eps(2)) = 2.201e-08 Time per fluid step 0.158907622 Time per parcel step 0.003283993 Coupling time per step 0.004510502 Time per step 0.167996934 ============ NEW TIME STEP ============ Step 6: from old_time 0.004848168312 to new time 0.005848168312 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.450136202 0.06703928336 0.06430436258 max(abs(gpx/gpy/gpz)) = 79.77840151 32.14185204 27.94261708 Min and Max of epf 0.9125106134 1 After projection: max(abs(u/v/w)) = 0.5167217382 0.08210105896 0.07551322854 Before projection: max(abs(u/v/w)) = 0.4487875313 0.06705016027 0.0643352178 max(abs(gpx/gpy/gpz)) = 82.46433633 32.43008444 28.12614027 Min and Max of epf 0.9125106134 1 After projection: max(abs(u/v/w)) = 0.5198351201 0.08273383433 0.07577002138 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)) = 0.087489387 max(eps(1)) = 0.089802624 max(eps(1) - eps(0)) = 0.002313 max(eps(2)) = 0.089801662 max(eps(2) - eps(1)) = 1.049e-06 max(eps(3)) = 0.089801663 max(eps(3) - eps(2)) = 2.609e-08 Time per fluid step 0.158281311 Time per parcel step 0.004100112 Coupling time per step 0.00464395 Time per step 0.168475982 ============ NEW TIME STEP ============ Step 7: from old_time 0.005848168312 to new time 0.006848168312 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4595948983 0.06515335671 0.06231770565 max(abs(gpx/gpy/gpz)) = 83.92426628 32.77942453 28.35899163 Min and Max of epf 0.9101983368 1 After projection: max(abs(u/v/w)) = 0.5284314447 0.08080021487 0.07405188205 Before projection: max(abs(u/v/w)) = 0.458991239 0.06511922781 0.06229731571 max(abs(gpx/gpy/gpz)) = 88.05175294 33.1750787 28.73731841 Min and Max of epf 0.9101983368 1 After projection: max(abs(u/v/w)) = 0.5332108282 0.08113872705 0.0741297292 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)) = 0.089801663 max(eps(1)) = 0.092507501 max(eps(1) - eps(0)) = 0.002706 max(eps(2)) = 0.092506342 max(eps(2) - eps(1)) = 1.233e-06 max(eps(3)) = 0.092506343 max(eps(3) - eps(2)) = 2.927e-08 Time per fluid step 0.159477939 Time per parcel step 0.003455612 Coupling time per step 0.004620666 Time per step 0.168888342 ============ NEW TIME STEP ============ Step 8: from old_time 0.006848168312 to new time 0.007848168312 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4707992579 0.06362935777 0.0607220808 max(abs(gpx/gpy/gpz)) = 89.26541541 33.3461435 28.85182117 Min and Max of epf 0.9074936566 1 After projection: max(abs(u/v/w)) = 0.5421957223 0.07987098967 0.07299909692 Before projection: max(abs(u/v/w)) = 0.4699206816 0.06355909037 0.06066683409 max(abs(gpx/gpy/gpz)) = 93.94809938 33.90395774 29.30087308 Min and Max of epf 0.9074936566 1 After projection: max(abs(u/v/w)) = 0.5460328916 0.08001858231 0.07296708938 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)) = 0.092506343 max(eps(1)) = 0.09560369 max(eps(1) - eps(0)) = 0.003097 max(eps(2)) = 0.095602322 max(eps(2) - eps(1)) = 1.419e-06 max(eps(3)) = 0.095602324 max(eps(3) - eps(2)) = 3.354e-08 Time per fluid step 0.159147217 Time per parcel step 0.00311195 Coupling time per step 0.00492236 Time per step 0.168495373 ============ NEW TIME STEP ============ Step 9: from old_time 0.007848168312 to new time 0.008848168312 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4804529433 0.06239151143 0.05943429821 max(abs(gpx/gpy/gpz)) = 95.03583993 33.97910573 29.36311393 Min and Max of epf 0.9043976764 1 After projection: max(abs(u/v/w)) = 0.5541112422 0.079235512 0.07227859679 Before projection: max(abs(u/v/w)) = 0.4795470296 0.06229153586 0.05935155327 max(abs(gpx/gpy/gpz)) = 100.3256735 34.66721251 29.85915264 Min and Max of epf 0.9043976764 1 After projection: max(abs(u/v/w)) = 0.5571198705 0.0792654741 0.07218336713 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)) = 0.095602324 max(eps(1)) = 0.099089978 max(eps(1) - eps(0)) = 0.003488 max(eps(2)) = 0.09908839 max(eps(2) - eps(1)) = 1.606e-06 max(eps(3)) = 0.099088392 max(eps(3) - eps(2)) = 3.739e-08 Time per fluid step 0.156837643 Time per parcel step 0.003614592 Coupling time per step 0.004754362 Time per step 0.166402592 ============ NEW TIME STEP ============ Step 10: from old_time 0.008848168312 to new time 0.009848168312 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4886082118 0.06136277434 0.05836406239 max(abs(gpx/gpy/gpz)) = 101.349988 34.69606425 29.85949204 Min and Max of epf 0.9009116084 1 After projection: max(abs(u/v/w)) = 0.5642152343 0.07883117968 0.07181644384 Before projection: max(abs(u/v/w)) = 0.4877549978 0.0612421683 0.0582609811 max(abs(gpx/gpy/gpz)) = 107.3526913 35.49394892 30.49367054 Min and Max of epf 0.9009116084 1 After projection: max(abs(u/v/w)) = 0.5663590948 0.07874130085 0.07167367341 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)) = 0.099088392 max(eps(1)) = 0.10294746 max(eps(1) - eps(0)) = 0.003868 max(eps(2)) = 0.10294648 max(eps(2) - eps(1)) = 1.255e-06 max(eps(3)) = 0.10294648 max(eps(3) - eps(2)) = 2.648e-07 Time per fluid step 0.158007741 Time per parcel step 0.003970431 Coupling time per step 0.004826221 Time per step 0.16823364 ============ NEW TIME STEP ============ Step 11: from old_time 0.009848168312 to new time 0.01084816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4962779213 0.0604484417 0.0574174695 max(abs(gpx/gpy/gpz)) = 108.3956718 35.45369654 30.44616672 Min and Max of epf 0.8970535165 1 After projection: max(abs(u/v/w)) = 0.5736958639 0.07866293701 0.07158384015 Before projection: max(abs(u/v/w)) = 0.4949864064 0.06030622966 0.05729128012 max(abs(gpx/gpy/gpz)) = 115.1483764 36.49583592 31.23946081 Min and Max of epf 0.8970535165 1 After projection: max(abs(u/v/w)) = 0.576334175 0.07851870426 0.07143663592 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)) = 0.10294648 max(eps(1)) = 0.10659294 max(eps(1) - eps(0)) = 0.004248 max(eps(2)) = 0.10659104 max(eps(2) - eps(1)) = 1.899e-06 max(eps(3)) = 0.10659105 max(eps(3) - eps(2)) = 4.404e-08 Time per fluid step 0.156382053 Time per parcel step 0.003268029 Coupling time per step 0.004639344 Time per step 0.165513634 ============ NEW TIME STEP ============ Step 12: from old_time 0.01084816831 to new time 0.01184816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5052643165 0.06023958907 0.05714910452 max(abs(gpx/gpy/gpz)) = 116.2776274 36.4808109 31.2394587 Min and Max of epf 0.8934089534 1 After projection: max(abs(u/v/w)) = 0.5838996669 0.07886739261 0.07155343511 Before projection: max(abs(u/v/w)) = 0.5041675865 0.06016739264 0.05708679726 max(abs(gpx/gpy/gpz)) = 111.7856328 37.14724084 31.55864563 Min and Max of epf 0.8934089534 1 After projection: max(abs(u/v/w)) = 0.5858214956 0.07868941655 0.07144026847 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)) = 0.10659105 max(eps(1)) = 0.11058258 max(eps(1) - eps(0)) = 0.004579 max(eps(2)) = 0.11058042 max(eps(2) - eps(1)) = 2.153e-06 max(eps(3)) = 0.11058043 max(eps(3) - eps(2)) = 4.385e-08 Time per fluid step 0.157015889 Time per parcel step 0.003748567 Coupling time per step 0.004742685 Time per step 0.166671609 ============ NEW TIME STEP ============ Step 13: from old_time 0.01184816831 to new time 0.01284816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5123878208 0.0597245806 0.0565606239 max(abs(gpx/gpy/gpz)) = 111.4388764 37.10305087 31.56095337 Min and Max of epf 0.8894195737 1 After projection: max(abs(u/v/w)) = 0.593518001 0.07877990517 0.07160253365 Before projection: max(abs(u/v/w)) = 0.5110713427 0.05959677261 0.05643968238 max(abs(gpx/gpy/gpz)) = 117.1177515 37.76496971 32.23509043 Min and Max of epf 0.8894195737 1 After projection: max(abs(u/v/w)) = 0.5949323089 0.07868122628 0.07152118343 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)) = 0.11058043 max(eps(1)) = 0.1151503 max(eps(1) - eps(0)) = 0.004957 max(eps(2)) = 0.1151476 max(eps(2) - eps(1)) = 2.705e-06 max(eps(3)) = 0.1151476 max(eps(3) - eps(2)) = 4.239e-08 Time per fluid step 0.157550791 Time per parcel step 0.003326616 Coupling time per step 0.004765354 Time per step 0.166801227 ============ NEW TIME STEP ============ Step 14: from old_time 0.01284816831 to new time 0.01384816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5188457891 0.0590243464 0.05585301268 max(abs(gpx/gpy/gpz)) = 118.1794831 37.78177506 32.29413647 Min and Max of epf 0.8848524005 1 After projection: max(abs(u/v/w)) = 0.6025986979 0.07905173366 0.07182767381 Before projection: max(abs(u/v/w)) = 0.5175492679 0.05885072455 0.05569494901 max(abs(gpx/gpy/gpz)) = 126.5129159 39.03561519 33.19415388 Min and Max of epf 0.8848524005 1 After projection: max(abs(u/v/w)) = 0.6043854218 0.07895817663 0.07176782065 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)) = 0.1151476 max(eps(1)) = 0.12029342 max(eps(1) - eps(0)) = 0.005333 max(eps(2)) = 0.12029013 max(eps(2) - eps(1)) = 3.29e-06 max(eps(3)) = 0.12029013 max(eps(3) - eps(2)) = 4.12e-08 Time per fluid step 0.15125689 Time per parcel step 0.00352173 Coupling time per step 0.00473253 Time per step 0.160678851 ============ NEW TIME STEP ============ Step 15: from old_time 0.01384816831 to new time 0.01484816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5263247384 0.05830594773 0.05511205609 max(abs(gpx/gpy/gpz)) = 127.999471 39.1885563 33.32843215 Min and Max of epf 0.8797098697 1 After projection: max(abs(u/v/w)) = 0.6125314035 0.07949415399 0.07224948444 Before projection: max(abs(u/v/w)) = 0.5252332217 0.05810193264 0.05491816588 max(abs(gpx/gpy/gpz)) = 137.5735956 40.54192476 34.40772268 Min and Max of epf 0.8797098697 1 After projection: max(abs(u/v/w)) = 0.613888005 0.07945354839 0.07223104375 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)) = 0.12029013 max(eps(1)) = 0.12600911 max(eps(1) - eps(0)) = 0.005766 max(eps(2)) = 0.12600521 max(eps(2) - eps(1)) = 3.902e-06 max(eps(3)) = 0.12600521 max(eps(3) - eps(2)) = 4.096e-08 Time per fluid step 0.149133772 Time per parcel step 0.003314196 Coupling time per step 0.004689654 Time per step 0.1583334 ============ NEW TIME STEP ============ Step 16: from old_time 0.01484816831 to new time 0.01584816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5334577765 0.05756570802 0.05436001715 max(abs(gpx/gpy/gpz)) = 139.3648847 40.80187813 34.65000166 Min and Max of epf 0.8739947903 1 After projection: max(abs(u/v/w)) = 0.6216099353 0.08010906599 0.0728649477 Before projection: max(abs(u/v/w)) = 0.5322339774 0.05734150316 0.05413514482 max(abs(gpx/gpy/gpz)) = 150.4284665 42.28353571 35.83677193 Min and Max of epf 0.8739947903 1 After projection: max(abs(u/v/w)) = 0.6223788464 0.08011396759 0.07287377493 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)) = 0.12600521 max(eps(1)) = 0.1322849 max(eps(1) - eps(0)) = 0.006321 max(eps(2)) = 0.13227871 max(eps(2) - eps(1)) = 6.195e-06 max(eps(3)) = 0.13227872 max(eps(3) - eps(2)) = 4.207e-08 Time per fluid step 0.153912076 Time per parcel step 0.003409378 Coupling time per step 0.004898092 Time per step 0.163472029 ============ NEW TIME STEP ============ Step 17: from old_time 0.01584816831 to new time 0.01684816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5394712495 0.05720411476 0.05355611643 max(abs(gpx/gpy/gpz)) = 152.6409467 42.64888784 36.15854632 Min and Max of epf 0.8677212843 1 After projection: max(abs(u/v/w)) = 0.630075803 0.08089476031 0.07364593766 Before projection: max(abs(u/v/w)) = 0.5382032523 0.05733097667 0.05329651444 max(abs(gpx/gpy/gpz)) = 165.2456219 44.33683349 37.49995194 Min and Max of epf 0.8677212843 1 After projection: max(abs(u/v/w)) = 0.631119226 0.08092350155 0.07368251336 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)) = 0.13227872 max(eps(1)) = 0.13911229 max(eps(1) - eps(0)) = 0.006956 max(eps(2)) = 0.1391052 max(eps(2) - eps(1)) = 7.088e-06 max(eps(3)) = 0.13910521 max(eps(3) - eps(2)) = 4.511e-08 Time per fluid step 0.158211716 Time per parcel step 0.003438405 Coupling time per step 0.005654012 Time per step 0.168852197 ============ NEW TIME STEP ============ Step 18: from old_time 0.01684816831 to new time 0.01784816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5458750285 0.05731786492 0.05265932495 max(abs(gpx/gpy/gpz)) = 167.9211161 44.79529056 37.898396 Min and Max of epf 0.8608947906 1 After projection: max(abs(u/v/w)) = 0.6388619779 0.08181417896 0.07459799694 Before projection: max(abs(u/v/w)) = 0.5447433634 0.05746259019 0.05234553909 max(abs(gpx/gpy/gpz)) = 182.5786511 46.7054707 39.42502197 Min and Max of epf 0.8608947906 1 After projection: max(abs(u/v/w)) = 0.6394797437 0.08185759886 0.07464729266 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)) = 0.13910521 max(eps(1)) = 0.14679534 max(eps(1) - eps(0)) = 0.008018 max(eps(2)) = 0.14678955 max(eps(2) - eps(1)) = 5.891e-06 max(eps(3)) = 0.14678955 max(eps(3) - eps(2)) = 2.378e-07 Time per fluid step 0.158651117 Time per parcel step 0.003573174 Coupling time per step 0.005323359 Time per step 0.168981974 ============ NEW TIME STEP ============ Step 19: from old_time 0.01784816831 to new time 0.01884816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5547583423 0.05754096387 0.05160545879 max(abs(gpx/gpy/gpz)) = 185.8311535 47.25708333 39.90958946 Min and Max of epf 0.8532104485 1 After projection: max(abs(u/v/w)) = 0.6469104797 0.08295702358 0.07573214819 Before projection: max(abs(u/v/w)) = 0.5545459505 0.05772593176 0.05121205991 max(abs(gpx/gpy/gpz)) = 203.5630795 49.58077894 41.68686023 Min and Max of epf 0.8532104485 1 After projection: max(abs(u/v/w)) = 0.6470628942 0.08300860296 0.07578359733 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)) = 0.14678955 max(eps(1)) = 0.15476337 max(eps(1) - eps(0)) = 0.008472 max(eps(2)) = 0.15475098 max(eps(2) - eps(1)) = 1.239e-05 max(eps(3)) = 0.15475101 max(eps(3) - eps(2)) = 5.383e-08 Time per fluid step 0.158043891 Time per parcel step 0.003324204 Coupling time per step 0.0048601 Time per step 0.167599942 ============ NEW TIME STEP ============ Step 20: from old_time 0.01884816831 to new time 0.01984816831 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.5642976447 0.05776674834 0.05136813688 max(abs(gpx/gpy/gpz)) = 207.7141763 50.28525662 42.27935977 Min and Max of epf 0.8452489871 1 After projection: max(abs(u/v/w)) = 0.6529947296 0.0842414671 0.07704894521 Before projection: max(abs(u/v/w)) = 0.5638108803 0.05798862603 0.05110478075 max(abs(gpx/gpy/gpz)) = 203.0005747 51.76397703 43.46047233 Min and Max of epf 0.8452489871 1 After projection: max(abs(u/v/w)) = 0.6533360284 0.08430580591 0.07713662924 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)) = 0.15475101 max(eps(1)) = 0.16190473 max(eps(1) - eps(0)) = 0.007702 max(eps(2)) = 0.16189647 max(eps(2) - eps(1)) = 8.321e-06 max(eps(3)) = 0.16189648 max(eps(3) - eps(2)) = 5.886e-08 Time per fluid step 0.158546077 Time per parcel step 0.003301939 Coupling time per step 0.004746865 Time per step 0.167791339 Writing plotfile BENCH08-PIC-Patil_plt00020 at time 0.01984816831 Time spent in main (after init) 3.354341366 Time spent in main 3.669099949 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: [6689 ... 6689] [The Arena] max space (MB) allocated spread across MPI: [41 ... 41] [The Arena] max space (MB) used spread across MPI: [38 ... 38] [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 (26.04-116-g93329ebb8af9) finalized