# ------------------  INPUTS TO MAIN PROGRAM  -------------------
remora.max_step = 10

remora.omp_tile_size = 1024 1024 1024

# PROBLEM SIZE & GEOMETRY
remora.prob_lo     =      0.     0.    -150.
remora.prob_hi     =  41000. 80000.       0.

remora.n_cell           =  41     80      16

remora.is_periodic = 1 0 0

remora.bc.ylo.type = "SlipWall"
remora.bc.yhi.type = "SlipWall"

# TIME STEP CONTROL
remora.fixed_dt       = 300.0 # Timestep size (seconds)

remora.fixed_fast_dt  = 10.0 # Baratropic timestep size (seconds)

#remora.fixed_ndtfast_ratio  = 30 # Ratio of baroclinic to barotropic time step

# DIAGNOSTICS & VERBOSITY
remora.sum_interval  = 1       # timesteps between integrated/max quantities, if remora.v > 0
remora.v             = 0       # verbosity in REMORA.cpp (0: none, 1: integrated quantities, etc, 2: print boxes)

# CHECKPOINT FILES
remora.check_file      = chk        # root name of checkpoint file
remora.check_int       = -57600      # number of timesteps between checkpoints

# PLOTFILES
remora.plot_file     = plt        # prefix of plotfile name
remora.plot_int      = 100        # number of timesteps between plotfiles
remora.plot_vars_3d  = salt temp x_velocity y_velocity z_velocity
remora.plotfile_type = amrex

# SOLVER CHOICE
remora.flat_bathymetry = false
remora.tracer_horizontal_advection_scheme = "upstream3" # upstream3 or centered4

# Linear EOS parameters
remora.R0    = 1027.0  # background density value (Kg/m3) used in Linear Equation of State
remora.S0    = 35.0    # background salinity (nondimensional) constant
remora.T0    = 14.0    # background potential temperature (Celsius) constant
remora.Tcoef = 1.7e-4  # linear equation of state parameter (1/Celsius)
remora.Scoef = 0.0     # linear equation of state parameter (nondimensional)
remora.rho0  = 1025.0  # Mean density (Kg/m3) used when Boussinesq approx is inferred

remora.tcline = 25.0

# Coriolis params
remora.use_coriolis = true
remora.coriolis_type = beta_plane
remora.coriolis_f0 = -8.26e-5
remora.coriolis_beta = 0.0