=============================================================================== CAMR Job Information =============================================================================== job name: inputs file: inputs number of MPI processes: 2 CPU time used since start of simulation (CPU-hours): 0.000275261 =============================================================================== Plotfile Information =============================================================================== output data / time: Apr 23 2026 01:45:20 output dir: /scratch/regtester/RegTesting/rt-CAMR/CAMR-tests/2026-04-23/DoubleRamp-mol-2d =============================================================================== Build Information =============================================================================== build date: 2026-04-23 01:45:09.513161 build machine: Linux garuda 6.14.0-24-generic #24~24.04.3-Ubuntu SMP PREEMPT_DYNAMIC Mon Jul 7 16:39:17 UTC 2 x86_64 x86_64 x86_64 GNU/Linux build dir: /home/regtester/git/CAMR/Exec/DoubleRamp AMReX dir: /home/regtester/git/amrex/ COMP: g++ COMP version: 12.6 FCOMP: FCOMP version: CAMR git hash: 8f87fa8 AMReX git hash: 26.04-100-g9aaff4128a =============================================================================== Grid Information =============================================================================== level: 0 number of boxes = 2 maximum zones = 32 32 Boundary conditions -x: Outflow +x: Outflow -y: SlipWall +y: SlipWall =============================================================================== Species Information =============================================================================== index name A Z -------------------------------------------------------------------------------- =============================================================================== Inputs File Parameters =============================================================================== CAMR.cfl = 0.3 CAMR.do_mol = 1 CAMR.do_mol = 1 CAMR.geometry = "cylinder" CAMR.hi_bc = Outflow SlipWall SlipWall CAMR.lo_bc = Outflow SlipWall SlipWall CAMR.redistribution_type = FluxRedist CAMR.redistribution_type = StateRedist CAMR.sum_interval = 1 CAMR.v = 2 DistributionMapping.verbose = 0 amr.blocking_factor = 8 amr.blocking_factor = 16 amr.box1.in_box_hi = 0.85 0.65 0.7 amr.box1.in_box_lo = 0.0 0.0 0.0 amr.box1.max_level = 1 amr.check_file = chk amr.check_file = DoubleRamp-mol-2d_chk amr.check_input = true amr.check_int = 100 amr.check_per = -1.0 amr.checkpoint_files_output = 0 amr.checkpoint_files_output = 0 amr.checkpoint_nfiles = 64 amr.checkpoint_on_restart = false amr.compute_new_dt_on_regrid = false amr.derive_plot_vars = x_velocity y_velocity z_velocity vfrac amr.file_name_digits = 5 amr.force_regrid_level_zero = false amr.grid_eff = 0.99 amr.max_grid_iterations = 4 amr.max_grid_size = 16 amr.max_grid_size = 64 amr.max_level = 1 amr.max_level = 0 amr.message_int = 10 amr.n_cell = 64 64 64 amr.n_cell = 32 32 32 amr.n_error_buf = 0 0 0 0 amr.n_proper = 1 amr.plot_file = plt amr.plot_file = DoubleRamp-mol-2d_plt amr.plot_files_output = 1 amr.plot_int = 10 amr.plot_log_per = -1.0 amr.plot_max_level = 0 amr.plot_nfiles = 64 amr.plot_per = -1.0 amr.plotfile_on_restart = false amr.ref_ratio(nvals = 4) :: [2, 2, 2, 2] amr.refine_grid_layout = true amr.refinement_indicators = box1 amr.regrid_int(nvals = 4) :: [2, 2, 2, 2] amr.regrid_on_restart = false amr.small_plot_file = "smallplt" amr.small_plot_int = -1 amr.small_plot_log_per = -1.0 amr.small_plot_per = -1.0 amr.subcycling_mode = "Auto" amr.v = 1 amr.write_plotfile_with_checkpoint = true amrex.abort_on_out_of_gpu_memory = false amrex.abort_on_unused_inputs = false amrex.async_out = false amrex.async_out_nfiles = 64 amrex.fpe_trap_invalid = 1 amrex.fpe_trap_overflow = false amrex.fpe_trap_zero = false amrex.handle_sigabrt = true amrex.handle_sigfpe = true amrex.handle_sigill = true amrex.handle_sigint = true amrex.handle_sigsegv = true amrex.handle_sigterm = false amrex.init_snan = true amrex.max_gpu_streams = 4 amrex.mf.alloc_single_chunk = false amrex.signal_handling = true amrex.the_arena_defragmentation = true amrex.the_arena_init_size = 0 amrex.the_arena_init_size = 512000000 amrex.the_arena_is_managed = false amrex.the_arena_release_threshold = 9223372036854775807 amrex.the_comms_arena_defragmentation = true amrex.the_comms_arena_init_size = 8388608 amrex.the_comms_arena_release_threshold = 9223372036854775807 amrex.the_device_arena_defragmentation = true amrex.the_device_arena_init_size = 8388608 amrex.the_device_arena_release_threshold = 9223372036854775807 amrex.the_managed_arena_defragmentation = true amrex.the_managed_arena_init_size = 8388608 amrex.the_managed_arena_release_threshold = 9223372036854775807 amrex.the_pinned_arena_defragmentation = true amrex.the_pinned_arena_init_size = 8388608 amrex.the_pinned_arena_release_threshold = 2088009728 amrex.throw_exception = false amrex.use_gpu_aware_mpi = false amrex.vector_growth_factor = 1.5 amrex.verbose = 1 cylinder.center = 0.0 0.0 0.0 cylinder.direction = 0 cylinder.height(nvals = 1) :: [-1.0] cylinder.internal_flow = true cylinder.radius = 0.172 cylinder.rotation = 30 cylinder.rotation_axe = 2 device.verbose = 0 eb2.cover_multiple_cuts = false eb2.extend_domain_face = true eb2.max_grid_size = 64 eb2.maxiter = 32 eb2.num_coarsen_opt = 0 eb2.small_volfrac = 1e-14 fabarray.comm_tile_size = 1024000 1024000 fabarray.mfiter_tile_size = 1024000 1024000 geometry.coord_sys = 0 geometry.is_periodic = 0 0 0 geometry.prob_hi = 1.0 1.0 1.0 geometry.prob_lo = -1.0 -1.0 -1.0 max_step = 10 prob.p_l = 1.0 prob.p_r = 0.1 prob.rho_l = 1.0 prob.rho_r = 0.125 prob.u_l = 0.0 prob.u_r = 0.0 stop_time = 0.2