
# INITIAL MODEL
maestro.model_file = "model.hse"

maestro.ppm_type = 0

# GRIDDING AND REFINEMENT
amr.max_level          = 0       # maximum level number allowed
amr.n_cell             = 320 512
amr.max_grid_size      = 64
amr.refine_grid_layout = 0       # chop grids up into smaller grids if nprocs > ngrids

# PROBLEM SIZE
geometry.prob_lo     =  0.0    0.0
geometry.prob_hi     =  2.5e8  4.0e8

maestro.do_sponge = 1
maestro.sponge_center_density = 3.e6
maestro.sponge_start_factor = 33.333
maestro.sponge_kappa = 100.

maestro.max_step  = 1000
maestro.do_initial_projection = true
maestro.init_divu_iter        = 1
maestro.init_iter             = 1

maestro.anelastic_cutoff_density = 3.e6
maestro.base_cutoff_density = 3.e6

maestro.stop_time = 100.

# PLOTFILES
maestro.plot_base_name  = plt    # root name of plot file
maestro.plot_int   = 10   # number of timesteps between plot files

# CHECKPOINT
maestro.check_base_name = chk
maestro.chk_int         = 100

# TIME STEPPING
maestro.cfl       = 0.7    # cfl number for hyperbolic system
                           # In this test problem, the velocity is
		           # time-dependent.  We could use 0.9 in
		           # the 3D test, but need to use 0.7 in 2D
		           # to satisfy CFL condition.
maestro.init_shrink = 0.1

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

maestro.do_heating = true

# VERBOSITY
maestro.v              = 1       # verbosity

# tolerances for the initial projection
maestro.eps_init_proj_cart = 1.e-12
maestro.eps_init_proj_sph  = 1.e-10
# tolerances for the divu iterations
maestro.eps_divu_cart      = 1.e-12
maestro.eps_divu_sph       = 1.e-10
maestro.divu_iter_factor   = 100.
maestro.divu_level_factor  = 10.
# tolerances for the MAC projection
maestro.eps_mac            = 1.e-10
maestro.eps_mac_max        = 1.e-8
maestro.mac_level_factor   = 10.
maestro.eps_mac_bottom     = 1.e-3
# tolerances for the nodal projection
maestro.eps_hg             = 1.e-10
maestro.eps_hg_max         = 1.e-9
maestro.hg_level_factor    = 10.
maestro.eps_hg_bottom      = 1.e-4

&probin

  ! override the default values of the probin namelist values here
  apply_vel_field = T
  velpert_scale = 5.d6
  velpert_amplitude = 1.d5
  velpert_height_loc = 1.2e8
  num_vortices = 2

  !extern

  ! Note that some of the parameters in this
  ! namelist are specific to the default EOS,
  ! network, and/or integrator used in the
  ! makefile. If you try a different set of
  ! microphysics routines be sure to check that
  ! the parameters in here are consistent, as
  ! Fortran does not like seeing unknown variables
  ! in the namelist.

  use_eos_coulomb = F

/
