Initializing AMReX (26.05-38-g728cddf4f1c2)... MPI initialized with 1 MPI processes MPI initialized with thread support level 0 OMP initialized with 1 OMP threads AMReX (26.05-38-g728cddf4f1c2) initialized MFIX git describe: 26.05-2-gd5d6603b6a01 AMReX-Hydro git hash: 75da770ea36e4064b5947d7e56baa19f5bc92263 Number of levels: 1 RunType is restart 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_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 ... Restarting from checkpoint chk00005 On level 0 updated BC areas: BC: 0 area: 0 BC: 1 area: 0 BC: 2 area: 0 BC: 3 area: 0.003711795218 Finished reading header Loading vel Loading grad_p Loading epf Loading pert_p Loading rho_g Loading T Computing h from T ================================================================================ File: /scratch/AMReX_RegTesting/mfix/src/setup/mfix_restart.cpp Line: 382 Warning: Averaged thermodynamic pressure differs from inputs value! Computed average: 1.01325e+08 Inputs value: 101325 ================================================================================ Finished reading fluid data Patching particle restart Number of reals in pc: 17 Number of reals read: 19 Finished reading particle data + Loaded level-set parameters: ref = 1 pad = 2 eb_ref = 1 eb_pad = 2 Bounding box for levelset imposed walls (EB box geometry): Lo: 0 1e-06 0.0005 Hi: 1 0.015999 0.0155 Done with mfix::Restart **************************************** 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 Enclosed domain volume is 1.457787975e-05 Time spent in init 0.052493762 Unused ParmParse Variables: [TOP]::amr.par_ascii_file(nvals = 1) :: [vis] [TOP]::amr.par_ascii_int(nvals = 1) :: [-1] [TOP]::mac_proj.bottom_maxiter(nvals = 1) :: [1000] [TOP]::mac_proj.bottom_verbose(nvals = 1) :: [0] [TOP]::mac_proj.maxiter(nvals = 1) :: [2000] [TOP]::mac_proj.verbose(nvals = 1) :: [0] [TOP]::mfix.deposition.redistribution.maxpack.volfrac(nvals = 1) :: [0.65] [TOP]::nodal_proj.bottom_maxiter(nvals = 1) :: [1000] [TOP]::nodal_proj.bottom_verbose(nvals = 1) :: [0] [TOP]::nodal_proj.maxiter(nvals = 1) :: [2000] [TOP]::nodal_proj.verbose(nvals = 1) :: [0] ============ NEW TIME STEP ============ Step 6: from old_time 0.005 to new time 0.006 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4480264582 0.06387901707 0.06343327368 max(abs(gpx/gpy/gpz)) = 21468.2388 13600.95914 13431.10308 Min and Max of epf 0.9164948945 1 After projection: max(abs(u/v/w)) = 0.4636250854 0.06189600051 0.06150468075 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)) = 0.083505106 max(eps(1)) = 0.086137728 max(eps(1) - eps(0)) = 0.008252 max(eps(2)) = 0.086137013 max(eps(2) - eps(1)) = 5.076e-06 max(eps(3)) = 0.086137017 max(eps(3) - eps(2)) = 4.324e-07 Time per fluid step 4.500511961 Time per parcel step 0.009418097 Coupling time per step 0.011054971 Time per step 4.52182208 ============ NEW TIME STEP ============ Step 7: from old_time 0.006 to new time 0.007 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4503949441 0.06107126068 0.05933380252 max(abs(gpx/gpy/gpz)) = 19249.56552 12305.71451 12038.85795 Min and Max of epf 0.9138629827 1 After projection: max(abs(u/v/w)) = 0.4655331375 0.05839880667 0.05770851981 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)) = 0.086137017 max(eps(1)) = 0.087012472 max(eps(1) - eps(0)) = 0.007426 max(eps(2)) = 0.087010424 max(eps(2) - eps(1)) = 4.542e-06 max(eps(3)) = 0.087010426 max(eps(3) - eps(2)) = 5.456e-07 Time per fluid step 3.648284635 Time per parcel step 0.009135482 Coupling time per step 0.010107024 Time per step 3.668165793 ============ NEW TIME STEP ============ Step 8: from old_time 0.007 to new time 0.008 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4516720416 0.05891820049 0.0557781318 max(abs(gpx/gpy/gpz)) = 16787.19318 9516.307527 9181.898727 Min and Max of epf 0.9129895741 1 After projection: max(abs(u/v/w)) = 0.4662416058 0.05586995509 0.0546083063 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)) = 0.087010426 max(eps(1)) = 0.087761027 max(eps(1) - eps(0)) = 0.007062 max(eps(2)) = 0.087758038 max(eps(2) - eps(1)) = 7.613e-06 max(eps(3)) = 0.087758039 max(eps(3) - eps(2)) = 4.797e-07 Time per fluid step 2.840193235 Time per parcel step 0.009493463 Coupling time per step 0.010158383 Time per step 2.860468817 ============ NEW TIME STEP ============ Step 9: from old_time 0.008 to new time 0.009 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4520071125 0.05657747129 0.05320654949 max(abs(gpx/gpy/gpz)) = 15624.26513 6859.248935 6626.608106 Min and Max of epf 0.9122419607 1 After projection: max(abs(u/v/w)) = 0.4667856091 0.05336697326 0.05210866136 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)) = 0.087758039 max(eps(1)) = 0.088000154 max(eps(1) - eps(0)) = 0.007196 max(eps(2)) = 0.087998838 max(eps(2) - eps(1)) = 7.613e-06 max(eps(3)) = 0.087998839 max(eps(3) - eps(2)) = 2.425e-07 Time per fluid step 2.300435601 Time per parcel step 0.009223431 Coupling time per step 0.01011401 Time per step 2.32046363 ============ NEW TIME STEP ============ Step 10: from old_time 0.009 to new time 0.01 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4528888707 0.05426837111 0.05087298219 max(abs(gpx/gpy/gpz)) = 15245.76798 4560.56832 4492.235197 Min and Max of epf 0.9120011613 1 After projection: max(abs(u/v/w)) = 0.4669113687 0.05089866378 0.05007098682 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)) = 0.087998839 max(eps(1)) = 0.087932897 max(eps(1) - eps(0)) = 0.007263 max(eps(2)) = 0.087931382 max(eps(2) - eps(1)) = 3.928e-06 max(eps(3)) = 0.087931383 max(eps(3) - eps(2)) = 1.956e-07 Time per fluid step 1.438400928 Time per parcel step 0.00942892 Coupling time per step 0.010116862 Time per step 1.45860707 ============ NEW TIME STEP ============ Step 11: from old_time 0.01 to new time 0.011 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4538328192 0.05192035805 0.04860433737 max(abs(gpx/gpy/gpz)) = 14887.48069 4368.557186 4330.378187 Min and Max of epf 0.912068617 1 After projection: max(abs(u/v/w)) = 0.4669636436 0.04850180439 0.04836054587 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)) = 0.087931383 max(eps(1)) = 0.087566656 max(eps(1) - eps(0)) = 0.00728 max(eps(2)) = 0.087565548 max(eps(2) - eps(1)) = 1.588e-06 max(eps(3)) = 0.087565549 max(eps(3) - eps(2)) = 1.174e-07 Time per fluid step 0.853729136 Time per parcel step 0.009258778 Coupling time per step 0.009838823 Time per step 0.873555448 ============ NEW TIME STEP ============ Step 12: from old_time 0.011 to new time 0.012 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4545538724 0.04953909345 0.04696166346 max(abs(gpx/gpy/gpz)) = 14271.80299 4127.991871 4087.615296 Min and Max of epf 0.9124344509 1 After projection: max(abs(u/v/w)) = 0.4678580514 0.04693293508 0.04684774185 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)) = 0.087565549 max(eps(1)) = 0.087968324 max(eps(1) - eps(0)) = 0.008156 max(eps(2)) = 0.087967423 max(eps(2) - eps(1)) = 3.409e-06 max(eps(3)) = 0.087967422 max(eps(3) - eps(2)) = 8.448e-08 Time per fluid step 0.529693923 Time per parcel step 0.009203563 Coupling time per step 0.010065587 Time per step 0.549648848 ============ NEW TIME STEP ============ Step 13: from old_time 0.012 to new time 0.013 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4550175822 0.04710094759 0.0454936011 max(abs(gpx/gpy/gpz)) = 13271.3415 3853.719765 3816.413995 Min and Max of epf 0.9120325778 1 After projection: max(abs(u/v/w)) = 0.4687330155 0.04543713926 0.04540873088 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)) = 0.087967422 max(eps(1)) = 0.087181255 max(eps(1) - eps(0)) = 0.00736 max(eps(2)) = 0.087179831 max(eps(2) - eps(1)) = 3.085e-06 max(eps(3)) = 0.087179832 max(eps(3) - eps(2)) = 1.106e-07 Time per fluid step 0.331363291 Time per parcel step 0.009973575 Coupling time per step 0.010248176 Time per step 0.352307671 ============ NEW TIME STEP ============ Step 14: from old_time 0.013 to new time 0.014 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4566935709 0.04489593213 0.04409089095 max(abs(gpx/gpy/gpz)) = 13562.92991 3503.244497 3494.13657 Min and Max of epf 0.9128201683 1 After projection: max(abs(u/v/w)) = 0.4699971418 0.04393388637 0.04396931827 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)) = 0.087179832 max(eps(1)) = 0.087369704 max(eps(1) - eps(0)) = 0.01083 max(eps(2)) = 0.087367278 max(eps(2) - eps(1)) = 4.053e-06 max(eps(3)) = 0.08736728 max(eps(3) - eps(2)) = 2.323e-07 Time per fluid step 0.248337071 Time per parcel step 0.010023874 Coupling time per step 0.010648768 Time per step 0.269864957 ============ NEW TIME STEP ============ Step 15: from old_time 0.014 to new time 0.015 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4578264379 0.04271017164 0.04267514269 max(abs(gpx/gpy/gpz)) = 14049.81183 3140.494689 3101.663189 Min and Max of epf 0.9126327204 1 After projection: max(abs(u/v/w)) = 0.4715249571 0.04238922136 0.04249064507 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)) = 0.08736728 max(eps(1)) = 0.087093281 max(eps(1) - eps(0)) = 0.005717 max(eps(2)) = 0.087092217 max(eps(2) - eps(1)) = 2.784e-06 max(eps(3)) = 0.087092218 max(eps(3) - eps(2)) = 1.782e-07 Time per fluid step 0.184609349 Time per parcel step 0.009476971 Coupling time per step 0.010204288 Time per step 0.205016289 ============ NEW TIME STEP ============ Step 16: from old_time 0.015 to new time 0.016 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4593713069 0.04107209963 0.04123881308 max(abs(gpx/gpy/gpz)) = 13079.53321 2790.946753 2769.61344 Min and Max of epf 0.9129077819 1 After projection: max(abs(u/v/w)) = 0.4730082305 0.04081765451 0.04098825124 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)) = 0.087092218 max(eps(1)) = 0.086327008 max(eps(1) - eps(0)) = 0.005116 max(eps(2)) = 0.086327021 max(eps(2) - eps(1)) = 1.639e-06 max(eps(3)) = 0.086327021 max(eps(3) - eps(2)) = 1.216e-07 Time per fluid step 0.142318847 Time per parcel step 0.009402201 Coupling time per step 0.009886474 Time per step 0.162252596 ============ NEW TIME STEP ============ Step 17: from old_time 0.016 to new time 0.017 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4606868982 0.03947064781 0.0397542679 max(abs(gpx/gpy/gpz)) = 13037.72854 2501.702183 2485.041698 Min and Max of epf 0.913672979 1 After projection: max(abs(u/v/w)) = 0.4747901931 0.03915097133 0.03943685953 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)) = 0.086327021 max(eps(1)) = 0.085937665 max(eps(1) - eps(0)) = 0.004995 max(eps(2)) = 0.085937337 max(eps(2) - eps(1)) = 2.085e-06 max(eps(3)) = 0.085937337 max(eps(3) - eps(2)) = 1.425e-07 Time per fluid step 0.123944721 Time per parcel step 0.009203867 Coupling time per step 0.009916679 Time per step 0.143724455 ============ NEW TIME STEP ============ Step 18: from old_time 0.017 to new time 0.018 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4612715941 0.03772389198 0.03811710247 max(abs(gpx/gpy/gpz)) = 12170.17298 2244.762214 2225.565122 Min and Max of epf 0.9140626628 1 After projection: max(abs(u/v/w)) = 0.4761499959 0.03740466896 0.03779762874 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)) = 0.085937337 max(eps(1)) = 0.088738059 max(eps(1) - eps(0)) = 0.006383 max(eps(2)) = 0.088736057 max(eps(2) - eps(1)) = 2.443e-06 max(eps(3)) = 0.088736058 max(eps(3) - eps(2)) = 1.622e-07 Time per fluid step 0.110186878 Time per parcel step 0.009233337 Coupling time per step 0.010330486 Time per step 0.130396616 ============ NEW TIME STEP ============ Step 19: from old_time 0.018 to new time 0.019 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.4624277022 0.03603803621 0.03651783974 max(abs(gpx/gpy/gpz)) = 12151.31288 1965.715874 1958.692903 Min and Max of epf 0.9112639418 1 After projection: max(abs(u/v/w)) = 0.4790864591 0.03566428916 0.03614273336 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)) = 0.088736058 max(eps(1)) = 0.091870406 max(eps(1) - eps(0)) = 0.006935 max(eps(2)) = 0.091861588 max(eps(2) - eps(1)) = 9.5e-06 max(eps(3)) = 0.091861592 max(eps(3) - eps(2)) = 2.475e-07 Time per fluid step 0.103691147 Time per parcel step 0.009517597 Coupling time per step 0.010288645 Time per step 0.124121509 ============ NEW TIME STEP ============ Step 20: from old_time 0.019 to new time 0.02 with dt = 0.001 Before projection: max(abs(u/v/w)) = 0.464140574 0.03400456403 0.03456335441 max(abs(gpx/gpy/gpz)) = 13561.06267 1680.666685 1673.315476 Min and Max of epf 0.9081384075 1 After projection: max(abs(u/v/w)) = 0.4820262424 0.03383347104 0.03438806506 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)) = 0.091861592 max(eps(1)) = 0.092382138 max(eps(1) - eps(0)) = 0.00837 max(eps(2)) = 0.092382419 max(eps(2) - eps(1)) = 2.163e-06 max(eps(3)) = 0.092382418 max(eps(3) - eps(2)) = 1.808e-07 Time per fluid step 0.100772554 Time per parcel step 0.009416335 Coupling time per step 0.009934695 Time per step 0.120752515 Writing plotfile BENCH08-PIC-Patil-restart_plt00020 at time 0.02 Time spent in main (after init) 17.76499641 Time spent in main 17.81749017 Unused ParmParse Variables: [TOP]::amr.par_ascii_file(nvals = 1) :: [vis] [TOP]::amr.par_ascii_int(nvals = 1) :: [-1] AMReX (26.05-38-g728cddf4f1c2) finalized