# INITIAL MODEL
maestro.model_file = "sub_chandra/sub_chandra.M_WD-1.00.M_He-0.05.hse.C.768"
maestro.stop_time = 1.e0
maestro.max_step = 100

# GRIDDING AND REFINEMENT
amr.max_level          = 0       # maximum level number allowed
amr.n_cell             = 128 64
amr.max_grid_size      = 64
amr.refine_grid_layout = 0       # chop grids up into smaller grids if nprocs > ngrids
maestro.spherical = 1

# PROBLEM SIZE
geometry.prob_lo     =  0.0 0.0
geometry.prob_hi     =  7.5e8 7.5e8
maestro.evolve_base_state = true
maestro.do_initial_projection = false
maestro.init_divu_iter        = 0
maestro.init_iter             = 0
maestro.cfl = 0.7e0

# BOUNDARY CONDITIONS
# 0 = Interior   3 = Symmetry
# 1 = Inflow     4 = Slipwall
# 2 = Outflow    5 = NoSlipWall
maestro.lo_bc = 2 2
maestro.hi_bc = 2 2
geometry.is_periodic =  0 0

# VERBOSITY
maestro.v              = 1       # verbosity
maestro.plot_int        = -1
maestro.chk_int         = -1

# HYDRODYNAMICS
maestro.anelastic_cutoff_density = 3.e4
maestro.base_cutoff_density = 1.e4

&probin

 heating_time  = 25.e0
 heating_rad   = 4.2e8
 heating_peak  = 1.e15
 heating_sigma = 1.e7

 prob_type = 3

 use_eos_coulomb = T
/
