# ------------------ INPUTS TO MAIN PROGRAM ------------------- max_step = 25 stop_time = 0.01 # PROBLEM SIZE & GEOMETRY geometry.is_periodic = 0 0 0 geometry.coord_sys = 0 # 0 => cart geometry.prob_lo = 0 0 0 geometry.prob_hi = 1 1 1 amr.n_cell = 32 32 32 # >>>>>>>>>>>>> BC FLAGS <<<<<<<<<<<<<<<< # 0 = Interior 3 = Symmetry # 1 = Inflow 4 = SlipWall # 2 = Outflow 5 = NoSlipWall # >>>>>>>>>>>>> BC FLAGS <<<<<<<<<<<<<<<< castro.lo_bc = 2 2 2 castro.hi_bc = 2 2 2 # WHICH PHYSICS castro.do_hydro = 1 castro.do_react = 0 castro.ppm_type = 0 castro.allow_negative_energy = 0 # TIME STEP CONTROL castro.dt_cutoff = 5.e-20 # level 0 timestep below which we halt castro.cfl = 0.5 # cfl number for hyperbolic system castro.init_shrink = 0.01 # scale back initial timestep castro.change_max = 1.1 # maximum increase in dt over successive steps # DIAGNOSTICS & VERBOSITY castro.sum_interval = 1 # timesteps between computing mass castro.v = 1 # verbosity in Castro.cpp amr.v = 1 # verbosity in Amr.cpp #amr.grid_log = grdlog # name of grid logging file # REFINEMENT / REGRIDDING amr.max_level = 3 # maximum level number allowed amr.ref_ratio = 2 2 2 2 # refinement ratio amr.regrid_int = 2 # how often to regrid amr.blocking_factor = 4 # block factor in grid generation amr.max_grid_size = 32 # CHECKPOINT FILES amr.check_file = sedov_3d_chk # root name of checkpoint file amr.check_int = 200 # number of timesteps between checkpoints # PLOTFILES amr.plot_file = sedov_3d_plt amr.plot_int = 200 amr.derive_plot_vars=ALL # PROBIN FILENAME amr.probin_file = probin.3d.sph.testsuite