----------------------------------------------------
 
Grid input
nx      = 820 
ny      =   2 
dx      =    2.0 
dy      =    2.0 
xori    =       0.00 
yori    =       0.00 
alfa    =       0.00 
depfile = start_2.dep 
posdwn  = -1 
 
----------------------------------------------------
 
General constants
rho      = 1025
g        = 9.81
 
----------------------------------------------------
 
Wave discretisation
thetamin = -90.
thetamax = 90.
dtheta   = 180.
 
----------------------------------------------------
 
Numerics input
CFL      = 0.7
eps      = 0.001
scheme   = 2
 
----------------------------------------------------
 
Boundary condition options
order    = 2
front    = 1
back     = 0
left     = 1
right    = 1
 
 
zs0file  = tide3.txt
tidelen  = 24
tideloc  = 1
 
instat=4
Required for instat 3,4,5,7
bcfile   = jonswap.txt
 
----------------------------------------------------
 
Wave calculation options
break    = 1
wci      = 0
roller   = 1
beta     = 0.1
gamma    = 0.55
gammax   = 2.
alpha    = 1.
delta    = 0.0
n        = 10.
 
----------------------------------------------------
 
Flow calculation options
nuh      = 0.1
nuhfac   = 1.0
hmin     = 0.05
C        = 65.
umin     = 0.0
hswitch  = 0.1
 
----------------------------------------------------
 
Time input
tstart   = 0
tintg    = 120
tintp    = 120
tstop    = 43600
taper    = 0
 
----------------------------------------------------
 
Sediment transport calculation options
dico	 = 1.
D50      = 0.0008
D90      = 0.001
rhos     = 2650
z0       = 0.006
tsfac    = 0.1
lws      = 0
----------------------------------------------------
 
Morphological calculation options
morfac   = 5
morstart = 120
por      = 0.4
dryslp   = 1.0
wetslp   = 0.3
nspr     = 1
facua    = 0.5
 
----------------------------------------------------
 
Output options
npoints = 0
 
------ output at t=tstart + n*tintg (n=0,1,....)
nglobalvar = 8
zb
zs
zs0
H
u
v
ccg
thetamean 
------ output at t=tstart + n*tintm (n=1,....) average over previous tintm
nmeanvar = 0