------------------------------
Grid input
nx       = 401
           349  no foreshore
           380  foreshore
ny       = 0
xori     = 0.
yori     = 0.
alfa   =  0.
thetamin = -90.
thetamax = 90.
dtheta   = 180.
depfile  = profB1_JimXB.zgr
posdwn   = -1
vardx    = 1

Required if vardx 0
dx       = 4.
dy       = 10.

Required if vardx 1
xfile = profB1_JimXB.xgr

------------------------------
Numerics input
CFL      = 0.8
eps      = 0.001
scheme = 2

------------------------------
Time input

tstop     72000. (20 h)
tstop    = 73000.
taper    = 1000.

------------------------------
General constants
rho      = 1025.
g        = 9.81

------------------------------
Wind boundary conditions
rhoa
Cd
windv
windth

------------------------------
Water level boundary conditions
tideloc=1
tidelen=6
zs0file=surge.txt

Required if tideloc 0
zs0      = 1.25

------------------------------
Boundary wave conditions absorbing
front 
left = 1
right = 1  
back 

------------------------------
Boundary wave conditions generating
instat   = 41
bcfile = jonswap.txt
oldwbc = 0
trepfac = 0.05


Required for instat 5
dthetaS_XB

sprdthr  = 0.01

------------------------------
Wave calculation options
break    = 1
wci      = 0
roller   = 1
beta     = 0.1
gamma    = 0.52
gammax   = 2.
alpha    = 1.
delta    = 0.0 
n        = 10.


------------------------------
Flow calculation options
nuh      = 0.1
nuhfac   = 1
nuhv     = 1
hmin     = 0.05
C        = 65.
umin     = 0.0

------------------------------
Sediment transport calculation options
dico     = 1
D50      = 0.0002
D90      = 0.0003
rhos     = 2650
z0       = 0.006
smax     = -1.0

------------------------------
Morphological calculation options
morfac   = 5.
morstart = 1000.
por      = 0.4
dryslp   = 1.0
wetslp   = 0.3 
hswitch  = 0.1

------------------------------
A  
turn off coriolis
omega   =  0
------------------------------
outputformat = netcdf
tstart   = 1000.

tintg = 3600
nglobalvar = 4
zs
zb
H
ue

tintm = 7200
nmeanvar = 2
ue
H