#---------------- Mesh ----------------

# Number of subdivisions on a main triangle : integer (default=40)
nbp = 40

# Number of vertical layers : integer (default=19)
llm = 19

# Vertical grid : [std|ncar|ncarl30] (default=std)
disvert = std

# Mesh optimisation : number of iterations : integer (default=0)
optim_it = 1000

# Sub splitting of main rhombus : integer (default=1)
nsplit_i = 2
nsplit_j = 2


#---------------- Numerics ----------------

# Advection called every itau_adv time steps : integer (default=2)
itau_adv = 1

# Time step in s : real (default=480)
dt = 480

# Number of tracers : integer (default=1)
nqtot = 0


#---------------- Time and output ----------------

# Time style : [none|dcmip] (default=dcmip)
time_style = none

# Run length in s : real (default=??)
run_length = 103680000

# Interval in s between two outputs : integer (default=??)
write_period = 86400


#---------------- Planet ----------------

# Planetary radius : real (default=6371220)
radius = 6.371e6

# Gravity : real (default=9.80616)
g = 9.8

# Planetary rotation rate : real (default=7.292E-5)
omega = 7.292e-5

# kappa=Rd/cpp : real (default=0.2857143)
kappa = 0.2857143

# Heat capacity at constant pressure : real (default=1004.70885)
cpp = 1004

# Reference pressure : real (default=101325)
preff = 1e5


#---------------- Physical parameters ----------------

# Initial state : 
#   [jablonowsky06|academic|dcmip[1-4]|heldsz|dcmip2_schaer_noshear] (default=jablonowsky06)
etat0 = held_suarez

# Physics package : [none|held_suarez|dcmip] (default=none)
physics = held_suarez

# Dissipation time for grad(div) : real (default=5000)
tau_graddiv = 18000

# Exponent of grad(div) disspation : integer (default=1)
nitergdiv = 2

# Dissipation time for curl(curl) : real (default=5000)
tau_gradrot = 18000

# Exponent of curl(curl) disspation : integer (default=1)
nitergrot = 2

# Dissipation time for div(grad) : real (default=5000)
tau_divgrad = 18000

# Exponent of div(grad) disspation : integer (default=1)
niterdivgrad = 2