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Welcome to XBeach
revision
date Wed Apr 22 11:06:27 CEST 2015
URL:
**********************************************************
Simulation started: YYYYMMDD hh:mm:ss time zone (UTC)
20150422 15:29:11 +0200
running in: /p/xbeach/skillbed/lastrun/MICORE_Mariakerke_and_Ostend_Beach/s116a
General Input Module
MPI version, running on 1 processes
Reading input parameters:
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Physical processes:
XBeach reading from params.txt
cyclic = 0 (no record found, default value used)
swave = 1 (no record found, default value used)
single_dir = 0 (no record found, default value used)
lwave = 1 (no record found, default value used)
flow = 1 (no record found, default value used)
sedtrans = 1 (no record found, default value used)
morphology = 1 (no record found, default value used)
avalanching = 1 (no record found, default value used)
nonh = 0 (no record found, default value used)
gwflow = 0 (no record found, default value used)
ships = 0 (no record found, default value used)
vegetation = 0 (no record found, default value used)
setbathy = 0 (no record found, default value used)
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Grid parameters:
gridform = xbeach (no record found, default value used)
xori = 755.3000
yori = .0000
alfa = 180.0000
nx = 221
ny = 2
posdwn = -1.0000
depfile = bathy_s116a.dep
vardx = 1
dx = -1.0000 (no record found, default value used)
dy = -1.0000 (no record found, default value used)
xfile = x_s116a.txt
yfile = y_s116a.txt
thetamin = -60.0000
thetamax = 60.0000
dtheta = 120.0000 Warning: value > recommended value of 20.0000
thetanaut = 0
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Model time parameters:
CFL = .7000
tstop = 172800.0000
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Physical constants:
rho = 1025.0000
g = 9.8100
depthscale = 1.0000 (no record found, default value used)
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Initial conditions:
zsinitfile = None specified
hotstartflow = 0 (no record found, default value used)
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Wave boundary condition parameters:
instat = jons_table
bcfile = waveinput_1d.txt
taper = 100.0000
nmax = .8000 (no record found, default value used)
lateralwave = neumann (no record found, default value used)
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Wave-spectrum boundary condition parameters:
nonhspectrum = 0 (no record found, default value used)
random = 1 (no record found, default value used)
fcutoff = .0000 (no record found, default value used)
nspr = 0 (no record found, default value used)
trepfac = .0100 (no record found, default value used)
sprdthr = .0800 (no record found, default value used)
Tm01switch = 0 (no record found, default value used)
wbcversion = 3 (no record found, default value used)
nspectrumloc = 1 (no record found, default value used)
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Flow boundary condition parameters:
front = abs_1d
left = wall
right = wall
back = abs_1d
ARC = 1 (no record found, default value used)
order = 2.0000 (no record found, default value used)
carspan = 0 (no record found, default value used)
freewave = 0 (no record found, default value used)
epsi = -1.0000 (no record found, default value used)
nc = 3 (no record found, default value used)
tidetype = velocity (no record found, default value used)
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Tide boundary conditions:
tideloc = 1
zs0file = tideinput.txt
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Discharge boundary conditions:
disch_loc_file = None specified
disch_timeseries_file = None specified
ndischarge = 0 (no record found, default value used)
ntdischarge = 0 (no record found, default value used)
beta = .1000 (no record found, default value used)
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Wave breaking parameters:
break = roelvink2 (no record found, default value used)
gamma = .5500 (no record found, default value used)
alpha = 1.0000 (no record found, default value used)
n = 10.0000 (no record found, default value used)
gammax = 5.0000
delta = .0000 (no record found, default value used)
fw = .0000 (no record found, default value used)
fwcutoff = 1000.0000 (no record found, default value used)
breakerdelay = 1 (no record found, default value used)
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Roller parameters:
roller = 1 (no record found, default value used)
rfb = 0 (no record found, default value used)
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Wave-current interaction parameters:
wci = 0
hwci = .1000 (no record found, default value used)
cats = 4.0000 (no record found, default value used)
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Flow parameters:
bedfriction = chezy (no record found, default value used)
C = 60.0000
Warning: Specification of bed friction using parameter 'C' will not be supported in future versions of XBeach
Use parameters 'bedfriction' and 'bedfriccoef' instead
bedfricfile = None specified
bedfriccoef = 55.0000 (no record found, default value used)
nuh = .5000
nuhfac = 1.0000 (no record found, default value used)
smag = 1 (no record found, default value used)
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Coriolis force parameters:
wearth = .0417 (no record found, default value used)
lat = .0000 (no record found, default value used)
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Wind parameters:
rhoa = 1.2500 (no record found, default value used)
Cd = .0020 (no record found, default value used)
windfile = None specified
windv = .0000 (no record found, default value used)
windth = 270.0000 (no record found, default value used)
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Sediment transport parameters:
form = vanthiel_vanrijn
waveform = vanthiel
sws = 1 (no record found, default value used)
lws = 1 (no record found, default value used)
BRfac = 1.0000 (no record found, default value used)
facsl = 1.6000 (no record found, default value used)
z0 = .0060 (no record found, default value used)
smax = -1.0000 (no record found, default value used)
tsfac = .1000
facua = .1000
facSk = .1000 (no record found, default value used)
facAs = .1000 (no record found, default value used)
turbadv = none (no record found, default value used)
turb = bore_averaged
Tbfac = 1.0000 (no record found, default value used)
Tsmin = .2000
lwt = 0 (no record found, default value used)
betad = 1.0000 (no record found, default value used)
sus = 1 (no record found, default value used)
bed = 1 (no record found, default value used)
bulk = 0 (no record found, default value used)
facDc = 1.0000 (no record found, default value used)
fallvelred = 0 (no record found, default value used)
dilatancy = 0 (no record found, default value used)
reposeangle = 30.0000 (no record found, default value used)
bdslpeffmag = roelvink_total (no record found, default value used)
bdslpeffini = none (no record found, default value used)
bdslpeffdir = none (no record found, default value used)
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Bed composition parameters:
ngd = 1 (no record found, default value used)
nd = 3 (no record found, default value used)
por = .4000 (no record found, default value used)
D50 = .0002
D90 = .0003
rhos = 2650.0000 (no record found, default value used)
dzg = .1000 (no record found, default value used)
dzg1 = .1000 (no record found, default value used)
dzg2 = .1000 (no record found, default value used)
dzg3 = .1000 (no record found, default value used)
sedcal = 1.0000 (no record found, default value used)
ucrcal = 1.0000 (no record found, default value used)
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Morphology parameters:
morfac = 1.0000
morfacopt = 1 (no record found, default value used)
morstart = 120.0000 (no record found, default value used)
morstop = 172800.0000 (no record found, default value used)
wetslp = .3000 (no record found, default value used)
dryslp = 1.0000 (no record found, default value used)
hswitch = .1000 (no record found, default value used)
dzmax = .0500 (no record found, default value used)
struct = 1
ne_layer = hardlayer_s116a.dep
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Output variables:
timings = 1 (no record found, default value used)
tunits = None specified
tstart = .0000
tint = 1.0000 (no record found, default value used)
tsglobal = None specified
tintg = 172800.0000 Warning: value > recommended value of 100000.0000
tspoints = None specified
tintp = 1.0000 (no record found, default value used)
tsmean = None specified
tintm = 172800.0000 (no record found, default value used)
nglobalvar = 1
nglobalvar: Will generate global output for variable:zb
npoints = 0 (no record found, default value used)
nrugauge = 0 (no record found, default value used)
npointvar = 0 (no record found, default value used)
nrugdepth = 1 (no record found, default value used)
rugdepth = .0000 (no record found, default value used)
nmeanvar = 0 (no record found, default value used)
ncross = 0 (no record found, default value used)
outputformat = fortran (no record found, default value used)
ncfilename = None specified
netcdf output to:xboutput.nc
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Output projection:
projection = None specified
rotate = 1 (no record found, default value used)
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Wave numerics parameters:
scheme = upwind_2 (no record found, default value used)
snells = 0 (no record found, default value used)
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Flow numerics parameters:
eps = .0050
eps_sd = .5000 (no record found, default value used)
umin = .1000
hmin = .2000
secorder = 0 (no record found, default value used)
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Sediment transport numerics parameters:
thetanum = 1.0000 (no record found, default value used)
sourcesink = 0 (no record found, default value used)
cmax = .1000 (no record found, default value used)
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Bed update numerics parameters:
frac_dz = .7000 (no record found, default value used)
nd_var = 2 (no record found, default value used)
split = 1.0100 (no record found, default value used)
merge = .0100 (no record found, default value used)
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MPI parameters:
mpiboundary = auto (no record found, default value used)
mmpi = 2 (no record found, default value used)
nmpi = 4 (no record found, default value used)
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Finished reading input parameters
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Unknown, unused or multiple statements of parameter HWCI in params.txt
Unknown, unused or multiple statements of parameter TIDELEN in params.txt
Unknown, unused or multiple statements of parameter PAULREVERE in params.txt
Unknown, unused or multiple statements of parameter SWTABLE in params.txt
Unknown, unused or multiple statements of parameter DZSDX_CR in params.txt
Unknown, unused or multiple statements of parameter FACTHR in params.txt
Unknown, unused or multiple statements of parameter DICO in params.txt
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Building Grid and Bathymetry
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processor grid: 1 X 1
Initializing .....
readtide: reading tide time series from tideinput.txt ...
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Initializing spectral wave boundary conditions
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MPI implementation:
Distribution of matrix on processors
proc is lm js ln
0 1 222 1 3
proc left right top bot
0 T T T T
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computational domains on processors
proc icgs icge jcgs jcge icls icle jcls jcle
0 1 222 1 3 1 222 1 3
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Fortran outputformat
Setting up boundary conditions
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.11 m
Trep = 4.40 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.40 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00001.bcf ...
file done
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Calculating flux at boundary
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Writing long wave mass flux to q_series00001.bcf ...
file done
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Spectral wave boundary conditions complete
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Boundary conditions complete, starting computation
Simulation 0.1 percent complete. Average dt 0.191 seconds
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.18 m
Trep = 4.69 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.69 s
Calculating Fourier components
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Writing wave energy to E_series00002.bcf ...
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file done
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Spectral wave boundary conditions complete
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Simulation 1.0 percent complete. Average dt 0.194 seconds
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.20 m
Trep = 4.86 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.86 s
Calculating Fourier components
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00003.bcf ...
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Writing long wave mass flux to q_series00003.bcf ...
file done
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Spectral wave boundary conditions complete
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Time remaining 48 minutes
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.17 m
Trep = 4.89 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.89 s
Calculating Fourier components
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Writing wave energy to E_series00004.bcf ...
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Writing long wave mass flux to q_series00004.bcf ...
file done
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Spectral wave boundary conditions complete
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Simulation 3.1 percent complete. Average dt 0.204 seconds
Time remaining 1 hours and 5 minutes
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Time remaining 37 minutes
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.22 m
Trep = 4.91 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.91 s
Calculating Fourier components
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Writing long wave mass flux to q_series00005.bcf ...
file done
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Spectral wave boundary conditions complete
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Simulation 4.4 percent complete. Average dt 0.208 seconds
Time remaining 38 minutes
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Time remaining 34 minutes
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.20 m
Trep = 4.69 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.69 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00006.bcf ...
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Writing long wave mass flux to q_series00006.bcf ...
file done
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Spectral wave boundary conditions complete
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Simulation 5.4 percent complete. Average dt 0.209 seconds
Time remaining 35 minutes
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Time remaining 31 minutes
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.29 m
Trep = 4.90 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.90 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00007.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00007.bcf ...
file done
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Spectral wave boundary conditions complete
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Simulation 6.5 percent complete. Average dt 0.203 seconds
Time remaining 33 minutes
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Time remaining 30 minutes
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.32 m
Trep = 5.13 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.13 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00008.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00008.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 7.5 percent complete. Average dt 0.201 seconds
Time remaining 31 minutes
Simulation 7.9 percent complete. Average dt 0.199 seconds
Time remaining 29 minutes
Simulation 8.2 percent complete. Average dt 0.198 seconds
Time remaining 28 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.35 m
Trep = 4.99 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.99 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00009.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00009.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 8.5 percent complete. Average dt 0.196 seconds
Time remaining 30 minutes
Simulation 8.9 percent complete. Average dt 0.196 seconds
Time remaining 28 minutes
Simulation 9.3 percent complete. Average dt 0.194 seconds
Time remaining 27 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.31 m
Trep = 4.95 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.95 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00010.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00010.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 9.4 percent complete. Average dt 0.193 seconds
Time remaining 38 minutes
Simulation 9.8 percent complete. Average dt 0.191 seconds
Time remaining 27 minutes
Simulation 10.1 percent complete. Average dt 0.186 seconds
Time remaining 27 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.29 m
Trep = 5.08 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.08 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00011.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00011.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 10.4 percent complete. Average dt 0.182 seconds
Time remaining 33 minutes
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Time remaining 27 minutes
Simulation 11.1 percent complete. Average dt 0.169 seconds
Time remaining 28 minutes
Simulation 11.4 percent complete. Average dt 0.166 seconds
Time remaining 28 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.50 m
Trep = 4.83 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.83 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00012.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00012.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 11.5 percent complete. Average dt 0.162 seconds
Time remaining 40 minutes
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Time remaining 28 minutes
Simulation 12.1 percent complete. Average dt 0.152 seconds
Time remaining 28 minutes
Simulation 12.4 percent complete. Average dt 0.147 seconds
Time remaining 28 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.57 m
Trep = 4.98 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 4.98 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00013.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00013.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 12.6 percent complete. Average dt 0.142 seconds
Time remaining 31 minutes
Simulation 12.9 percent complete. Average dt 0.138 seconds
Time remaining 29 minutes
Simulation 13.1 percent complete. Average dt 0.134 seconds
Time remaining 29 minutes
Simulation 13.4 percent complete. Average dt 0.131 seconds
Time remaining 30 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.04 m
Trep = 5.32 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.32 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00014.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00014.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 13.6 percent complete. Average dt 0.127 seconds
Time remaining 32 minutes
Simulation 13.8 percent complete. Average dt 0.124 seconds
Time remaining 30 minutes
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Time remaining 30 minutes
Simulation 14.3 percent complete. Average dt 0.118 seconds
Time remaining 31 minutes
Simulation 14.5 percent complete. Average dt 0.114 seconds
Time remaining 31 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.23 m
Trep = 5.56 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.56 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00015.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00015.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 14.7 percent complete. Average dt 0.112 seconds
Time remaining 33 minutes
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Time remaining 32 minutes
Simulation 15.1 percent complete. Average dt 0.105 seconds
Time remaining 32 minutes
Simulation 15.3 percent complete. Average dt 0.102 seconds
Time remaining 33 minutes
Simulation 15.5 percent complete. Average dt 0.098 seconds
Time remaining 33 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.32 m
Trep = 5.74 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.74 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00016.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00016.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 15.7 percent complete. Average dt 0.096 seconds
Time remaining 35 minutes
Simulation 15.9 percent complete. Average dt 0.093 seconds
Time remaining 34 minutes
Simulation 16.0 percent complete. Average dt 0.092 seconds
Time remaining 34 minutes
Simulation 16.2 percent complete. Average dt 0.092 seconds
Time remaining 34 minutes
Simulation 16.4 percent complete. Average dt 0.093 seconds
Time remaining 34 minutes
Simulation 16.6 percent complete. Average dt 0.091 seconds
Time remaining 34 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.81 m
Trep = 6.34 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.34 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00017.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00017.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 16.7 percent complete. Average dt 0.089 seconds
Time remaining 49 minutes
Simulation 16.9 percent complete. Average dt 0.087 seconds
Time remaining 35 minutes
Simulation 17.0 percent complete. Average dt 0.084 seconds
Time remaining 35 minutes
Simulation 17.2 percent complete. Average dt 0.081 seconds
Time remaining 36 minutes
Simulation 17.4 percent complete. Average dt 0.084 seconds
Time remaining 35 minutes
Simulation 17.5 percent complete. Average dt 0.080 seconds
Time remaining 36 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.03 m
Trep = 6.72 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.72 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00018.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00018.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 17.7 percent complete. Average dt 0.087 seconds
Time remaining 36 minutes
Simulation 17.9 percent complete. Average dt 0.080 seconds
Time remaining 36 minutes
Simulation 18.0 percent complete. Average dt 0.080 seconds
Time remaining 36 minutes
Simulation 18.2 percent complete. Average dt 0.082 seconds
Time remaining 36 minutes
Simulation 18.4 percent complete. Average dt 0.084 seconds
Time remaining 35 minutes
Simulation 18.5 percent complete. Average dt 0.083 seconds
Time remaining 35 minutes
Simulation 18.7 percent complete. Average dt 0.080 seconds
Time remaining 36 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.94 m
Trep = 6.78 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.78 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00019.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00019.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 18.8 percent complete. Average dt 0.083 seconds
Time remaining 40 minutes
Simulation 19.0 percent complete. Average dt 0.083 seconds
Time remaining 35 minutes
Simulation 19.2 percent complete. Average dt 0.082 seconds
Time remaining 35 minutes
Simulation 19.3 percent complete. Average dt 0.079 seconds
Time remaining 36 minutes
Simulation 19.5 percent complete. Average dt 0.080 seconds
Time remaining 36 minutes
Simulation 19.7 percent complete. Average dt 0.079 seconds
Time remaining 36 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.65 m
Trep = 7.31 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.31 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00020.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00020.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 19.8 percent complete. Average dt 0.080 seconds
Time remaining 49 minutes
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Time remaining 35 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.43 m
Trep = 7.21 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.21 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00021.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00021.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 20.9 percent complete. Average dt 0.077 seconds
Time remaining 43 minutes
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Simulation 21.7 percent complete. Average dt 0.082 seconds
Time remaining 35 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.29 m
Trep = 7.06 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.06 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00022.bcf ...
file done
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00022.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 21.9 percent complete. Average dt 0.084 seconds
Time remaining 36 minutes
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Simulation 22.8 percent complete. Average dt 0.091 seconds
Time remaining 33 minutes
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Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.31 m
Trep = 7.37 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.37 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00023.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00023.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 22.9 percent complete. Average dt 0.092 seconds
Time remaining 41 minutes
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Simulation 23.9 percent complete. Average dt 0.099 seconds
Time remaining 31 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.32 m
Trep = 7.24 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.24 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00024.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00024.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 24.1 percent complete. Average dt 0.097 seconds
Time remaining 33 minutes
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Time remaining 31 minutes
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Simulation 24.9 percent complete. Average dt 0.110 seconds
Time remaining 30 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.43 m
Trep = 7.44 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.44 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00025.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00025.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 25.1 percent complete. Average dt 0.109 seconds
Time remaining 31 minutes
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Simulation 26.0 percent complete. Average dt 0.115 seconds
Time remaining 29 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.32 m
Trep = 7.31 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.31 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00026.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00026.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 26.1 percent complete. Average dt 0.120 seconds
Time remaining 39 minutes
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Time remaining 28 minutes
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Time remaining 28 minutes
Simulation 27.0 percent complete. Average dt 0.121 seconds
Time remaining 28 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.21 m
Trep = 7.35 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.35 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00027.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00027.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 27.1 percent complete. Average dt 0.123 seconds
Time remaining 38 minutes
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Simulation 27.9 percent complete. Average dt 0.128 seconds
Time remaining 27 minutes
Simulation 28.1 percent complete. Average dt 0.128 seconds
Time remaining 27 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.95 m
Trep = 7.10 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.10 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00028.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00028.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 28.3 percent complete. Average dt 0.132 seconds
Time remaining 27 minutes
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Time remaining 26 minutes
Simulation 28.8 percent complete. Average dt 0.135 seconds
Time remaining 26 minutes
Simulation 29.1 percent complete. Average dt 0.138 seconds
Time remaining 25 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.97 m
Trep = 7.23 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.23 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00029.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00029.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 29.3 percent complete. Average dt 0.138 seconds
Time remaining 26 minutes
Simulation 29.6 percent complete. Average dt 0.139 seconds
Time remaining 25 minutes
Simulation 29.9 percent complete. Average dt 0.142 seconds
Time remaining 25 minutes
Simulation 30.1 percent complete. Average dt 0.141 seconds
Time remaining 25 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.15 m
Trep = 7.49 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.49 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00030.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00030.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 30.4 percent complete. Average dt 0.144 seconds
Time remaining 25 minutes
Simulation 30.6 percent complete. Average dt 0.143 seconds
Time remaining 24 minutes
Simulation 30.9 percent complete. Average dt 0.140 seconds
Time remaining 24 minutes
Simulation 31.1 percent complete. Average dt 0.141 seconds
Time remaining 24 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.95 m
Trep = 7.39 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.39 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00031.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00031.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 31.3 percent complete. Average dt 0.139 seconds
Time remaining 33 minutes
Simulation 31.6 percent complete. Average dt 0.142 seconds
Time remaining 24 minutes
Simulation 31.8 percent complete. Average dt 0.138 seconds
Time remaining 24 minutes
Simulation 32.1 percent complete. Average dt 0.142 seconds
Time remaining 24 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.99 m
Trep = 7.44 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.44 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00032.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00032.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 32.3 percent complete. Average dt 0.137 seconds
Time remaining 25 minutes
Simulation 32.6 percent complete. Average dt 0.139 seconds
Time remaining 24 minutes
Simulation 32.8 percent complete. Average dt 0.138 seconds
Time remaining 24 minutes
Simulation 33.1 percent complete. Average dt 0.139 seconds
Time remaining 24 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.05 m
Trep = 7.54 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.54 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00033.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00033.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 33.3 percent complete. Average dt 0.137 seconds
Time remaining 24 minutes
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Simulation 34.3 percent complete. Average dt 0.130 seconds
Time remaining 24 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.02 m
Trep = 7.39 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.39 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00034.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00034.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 34.5 percent complete. Average dt 0.130 seconds
Time remaining 32 minutes
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Time remaining 24 minutes
Simulation 35.0 percent complete. Average dt 0.130 seconds
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Simulation 35.2 percent complete. Average dt 0.130 seconds
Time remaining 23 minutes
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Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.13 m
Trep = 7.62 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.62 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00035.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00035.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 35.4 percent complete. Average dt 0.125 seconds
Time remaining 24 minutes
Simulation 35.7 percent complete. Average dt 0.126 seconds
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Simulation 35.9 percent complete. Average dt 0.126 seconds
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Simulation 36.2 percent complete. Average dt 0.130 seconds
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Simulation 36.4 percent complete. Average dt 0.127 seconds
Time remaining 23 minutes
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Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.09 m
Trep = 7.48 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.48 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00036.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00036.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 36.6 percent complete. Average dt 0.126 seconds
Time remaining 24 minutes
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Time remaining 23 minutes
Simulation 37.1 percent complete. Average dt 0.127 seconds
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Simulation 37.3 percent complete. Average dt 0.119 seconds
Time remaining 23 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.32 m
Trep = 7.66 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.66 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00037.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00037.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 37.6 percent complete. Average dt 0.121 seconds
Time remaining 24 minutes
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Simulation 38.4 percent complete. Average dt 0.110 seconds
Time remaining 24 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.42 m
Trep = 7.87 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.87 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00038.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00038.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 38.6 percent complete. Average dt 0.104 seconds
Time remaining 25 minutes
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Time remaining 24 minutes
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Simulation 39.6 percent complete. Average dt 0.093 seconds
Time remaining 25 minutes
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Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.53 m
Trep = 7.93 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.93 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00039.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00039.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 39.7 percent complete. Average dt 0.091 seconds
Time remaining 26 minutes
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Simulation 40.6 percent complete. Average dt 0.081 seconds
Time remaining 26 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.35 m
Trep = 7.53 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.53 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00040.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00040.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 40.7 percent complete. Average dt 0.078 seconds
Time remaining 28 minutes
Simulation 40.9 percent complete. Average dt 0.080 seconds
Time remaining 26 minutes
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Simulation 41.4 percent complete. Average dt 0.082 seconds
Time remaining 26 minutes
Simulation 41.6 percent complete. Average dt 0.076 seconds
Time remaining 27 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.36 m
Trep = 7.62 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.62 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00041.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00041.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 41.7 percent complete. Average dt 0.078 seconds
Time remaining 28 minutes
Simulation 41.9 percent complete. Average dt 0.076 seconds
Time remaining 27 minutes
Simulation 42.0 percent complete. Average dt 0.080 seconds
Time remaining 26 minutes
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Simulation 42.3 percent complete. Average dt 0.072 seconds
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Simulation 42.5 percent complete. Average dt 0.072 seconds
Time remaining 27 minutes
Simulation 42.6 percent complete. Average dt 0.076 seconds
Time remaining 26 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.34 m
Trep = 7.55 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.55 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00042.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00042.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 42.8 percent complete. Average dt 0.074 seconds
Time remaining 28 minutes
Simulation 42.9 percent complete. Average dt 0.075 seconds
Time remaining 26 minutes
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Simulation 43.2 percent complete. Average dt 0.072 seconds
Time remaining 27 minutes
Simulation 43.4 percent complete. Average dt 0.075 seconds
Time remaining 26 minutes
Simulation 43.5 percent complete. Average dt 0.074 seconds
Time remaining 26 minutes
Simulation 43.7 percent complete. Average dt 0.078 seconds
Time remaining 26 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.42 m
Trep = 7.72 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.72 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00043.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00043.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 43.8 percent complete. Average dt 0.076 seconds
Time remaining 27 minutes
Simulation 44.0 percent complete. Average dt 0.076 seconds
Time remaining 26 minutes
Simulation 44.2 percent complete. Average dt 0.074 seconds
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Time remaining 26 minutes
Simulation 44.5 percent complete. Average dt 0.079 seconds
Time remaining 25 minutes
Simulation 44.6 percent complete. Average dt 0.074 seconds
Time remaining 26 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.02 m
Trep = 7.42 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.42 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00044.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00044.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 44.8 percent complete. Average dt 0.078 seconds
Time remaining 26 minutes
Simulation 45.0 percent complete. Average dt 0.078 seconds
Time remaining 25 minutes
Simulation 45.1 percent complete. Average dt 0.084 seconds
Time remaining 24 minutes
Simulation 45.3 percent complete. Average dt 0.083 seconds
Time remaining 24 minutes
Simulation 45.5 percent complete. Average dt 0.086 seconds
Time remaining 24 minutes
Simulation 45.6 percent complete. Average dt 0.086 seconds
Time remaining 24 minutes
Simulation 45.8 percent complete. Average dt 0.088 seconds
Time remaining 23 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 3.16 m
Trep = 7.47 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.47 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00045.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00045.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 46.0 percent complete. Average dt 0.089 seconds
Time remaining 24 minutes
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Time remaining 23 minutes
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Time remaining 22 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.77 m
Trep = 7.10 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.10 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00046.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00046.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 46.9 percent complete. Average dt 0.090 seconds
Time remaining 23 minutes
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Time remaining 22 minutes
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Time remaining 21 minutes
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Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.76 m
Trep = 7.06 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.06 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00047.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00047.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 48.1 percent complete. Average dt 0.107 seconds
Time remaining 21 minutes
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Time remaining 20 minutes
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Simulation 48.8 percent complete. Average dt 0.117 seconds
Time remaining 19 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.84 m
Trep = 7.16 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.16 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00048.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00048.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 49.0 percent complete. Average dt 0.123 seconds
Time remaining 22 minutes
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Simulation 49.9 percent complete. Average dt 0.131 seconds
Time remaining 18 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.60 m
Trep = 7.00 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.00 s
Calculating Fourier components
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Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00049.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00049.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 50.2 percent complete. Average dt 0.133 seconds
Time remaining 19 minutes
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Time remaining 18 minutes
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Simulation 51.0 percent complete. Average dt 0.150 seconds
Time remaining 17 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.57 m
Trep = 6.92 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.92 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00050.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00050.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 51.2 percent complete. Average dt 0.152 seconds
Time remaining 17 minutes
Simulation 51.5 percent complete. Average dt 0.156 seconds
Time remaining 16 minutes
Simulation 51.8 percent complete. Average dt 0.158 seconds
Time remaining 16 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.54 m
Trep = 6.94 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.94 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00051.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00051.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 52.1 percent complete. Average dt 0.164 seconds
Time remaining 17 minutes
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Time remaining 16 minutes
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Time remaining 15 minutes
Simulation 53.0 percent complete. Average dt 0.178 seconds
Time remaining 15 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.46 m
Trep = 7.15 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 7.15 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00052.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00052.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 53.3 percent complete. Average dt 0.182 seconds
Time remaining 17 minutes
Simulation 53.6 percent complete. Average dt 0.187 seconds
Time remaining 15 minutes
Simulation 53.9 percent complete. Average dt 0.185 seconds
Time remaining 15 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.24 m
Trep = 6.86 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.86 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00053.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00053.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 54.2 percent complete. Average dt 0.187 seconds
Time remaining 18 minutes
Simulation 54.5 percent complete. Average dt 0.192 seconds
Time remaining 14 minutes
Simulation 54.9 percent complete. Average dt 0.194 seconds
Time remaining 14 minutes
Simulation 55.2 percent complete. Average dt 0.194 seconds
Time remaining 14 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.23 m
Trep = 6.81 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.81 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00054.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00054.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 55.5 percent complete. Average dt 0.196 seconds
Time remaining 15 minutes
Simulation 55.8 percent complete. Average dt 0.197 seconds
Time remaining 14 minutes
Simulation 56.2 percent complete. Average dt 0.198 seconds
Time remaining 13 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.29 m
Trep = 6.81 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.81 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00055.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00055.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 56.5 percent complete. Average dt 0.197 seconds
Time remaining 15 minutes
Simulation 56.8 percent complete. Average dt 0.197 seconds
Time remaining 13 minutes
Simulation 57.2 percent complete. Average dt 0.197 seconds
Time remaining 13 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.37 m
Trep = 6.79 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.79 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00056.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00056.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 57.4 percent complete. Average dt 0.196 seconds
Time remaining 14 minutes
Simulation 57.8 percent complete. Average dt 0.195 seconds
Time remaining 13 minutes
Simulation 58.1 percent complete. Average dt 0.195 seconds
Time remaining 13 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.26 m
Trep = 6.49 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.49 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00057.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00057.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 58.4 percent complete. Average dt 0.195 seconds
Time remaining 13 minutes
Simulation 58.8 percent complete. Average dt 0.196 seconds
Time remaining 13 minutes
Simulation 59.1 percent complete. Average dt 0.196 seconds
Time remaining 12 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.26 m
Trep = 6.39 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.39 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00058.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00058.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 59.4 percent complete. Average dt 0.195 seconds
Time remaining 15 minutes
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Time remaining 12 minutes
Simulation 60.1 percent complete. Average dt 0.195 seconds
Time remaining 12 minutes
Simulation 60.4 percent complete. Average dt 0.191 seconds
Time remaining 12 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.28 m
Trep = 6.71 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.71 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00059.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00059.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 60.7 percent complete. Average dt 0.188 seconds
Time remaining 12 minutes
Simulation 61.0 percent complete. Average dt 0.183 seconds
Time remaining 12 minutes
Simulation 61.4 percent complete. Average dt 0.185 seconds
Time remaining 12 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.32 m
Trep = 6.79 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.79 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00060.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00060.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 61.6 percent complete. Average dt 0.179 seconds
Time remaining 13 minutes
Simulation 62.0 percent complete. Average dt 0.182 seconds
Time remaining 12 minutes
Simulation 62.3 percent complete. Average dt 0.179 seconds
Time remaining 12 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.31 m
Trep = 6.62 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.62 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00061.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00061.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 62.6 percent complete. Average dt 0.175 seconds
Time remaining 12 minutes
Simulation 62.9 percent complete. Average dt 0.176 seconds
Time remaining 11 minutes
Simulation 63.2 percent complete. Average dt 0.174 seconds
Time remaining 11 minutes
Simulation 63.5 percent complete. Average dt 0.171 seconds
Time remaining 11 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.36 m
Trep = 6.83 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.83 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00062.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00062.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 63.8 percent complete. Average dt 0.163 seconds
Time remaining 13 minutes
Simulation 64.1 percent complete. Average dt 0.163 seconds
Time remaining 11 minutes
Simulation 64.3 percent complete. Average dt 0.156 seconds
Time remaining 11 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.17 m
Trep = 6.44 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.44 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
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Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00063.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00063.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 64.6 percent complete. Average dt 0.152 seconds
Time remaining 12 minutes
Simulation 64.9 percent complete. Average dt 0.152 seconds
Time remaining 11 minutes
Simulation 65.2 percent complete. Average dt 0.148 seconds
Time remaining 11 minutes
Simulation 65.4 percent complete. Average dt 0.144 seconds
Time remaining 11 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.17 m
Trep = 6.37 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.37 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00064.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00064.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 65.6 percent complete. Average dt 0.139 seconds
Time remaining 15 minutes
Simulation 65.9 percent complete. Average dt 0.137 seconds
Time remaining 11 minutes
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Time remaining 12 minutes
Simulation 66.4 percent complete. Average dt 0.130 seconds
Time remaining 12 minutes
Simulation 66.6 percent complete. Average dt 0.123 seconds
Time remaining 12 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.23 m
Trep = 6.35 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.35 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00065.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00065.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 66.7 percent complete. Average dt 0.121 seconds
Time remaining 16 minutes
Simulation 67.0 percent complete. Average dt 0.117 seconds
Time remaining 12 minutes
Simulation 67.2 percent complete. Average dt 0.114 seconds
Time remaining 12 minutes
Simulation 67.4 percent complete. Average dt 0.111 seconds
Time remaining 12 minutes
Simulation 67.6 percent complete. Average dt 0.111 seconds
Time remaining 12 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.27 m
Trep = 6.35 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.35 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00066.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00066.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 67.8 percent complete. Average dt 0.105 seconds
Time remaining 17 minutes
Simulation 68.0 percent complete. Average dt 0.101 seconds
Time remaining 12 minutes
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Time remaining 12 minutes
Simulation 68.4 percent complete. Average dt 0.103 seconds
Time remaining 12 minutes
Simulation 68.6 percent complete. Average dt 0.102 seconds
Time remaining 12 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.09 m
Trep = 6.10 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.10 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00067.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00067.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 68.8 percent complete. Average dt 0.102 seconds
Time remaining 15 minutes
Simulation 69.0 percent complete. Average dt 0.105 seconds
Time remaining 12 minutes
Simulation 69.2 percent complete. Average dt 0.103 seconds
Time remaining 12 minutes
Simulation 69.4 percent complete. Average dt 0.103 seconds
Time remaining 12 minutes
Simulation 69.6 percent complete. Average dt 0.105 seconds
Time remaining 11 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.08 m
Trep = 5.90 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.90 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00068.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00068.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 69.8 percent complete. Average dt 0.108 seconds
Time remaining 12 minutes
Simulation 70.0 percent complete. Average dt 0.108 seconds
Time remaining 11 minutes
Simulation 70.2 percent complete. Average dt 0.108 seconds
Time remaining 11 minutes
Simulation 70.4 percent complete. Average dt 0.109 seconds
Time remaining 11 minutes
Simulation 70.7 percent complete. Average dt 0.111 seconds
Time remaining 11 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.29 m
Trep = 6.34 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.34 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00069.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00069.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 70.8 percent complete. Average dt 0.112 seconds
Time remaining 14 minutes
Simulation 71.0 percent complete. Average dt 0.107 seconds
Time remaining 11 minutes
Simulation 71.3 percent complete. Average dt 0.110 seconds
Time remaining 10 minutes
Simulation 71.5 percent complete. Average dt 0.111 seconds
Time remaining 10 minutes
Simulation 71.7 percent complete. Average dt 0.115 seconds
Time remaining 10 minutes
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.34 m
Trep = 6.16 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.16 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00070.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00070.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 71.9 percent complete. Average dt 0.116 seconds
Time remaining 13 minutes
Simulation 72.1 percent complete. Average dt 0.116 seconds
Time remaining 10 minutes
Simulation 72.3 percent complete. Average dt 0.119 seconds
Time remaining 10 minutes
Simulation 72.6 percent complete. Average dt 0.122 seconds
Time remaining 10 minutes
Simulation 72.8 percent complete. Average dt 0.125 seconds
Time remaining 9 minutes and 50 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.28 m
Trep = 6.23 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.23 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00071.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00071.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 73.0 percent complete. Average dt 0.126 seconds
Time remaining 10 minutes
Simulation 73.3 percent complete. Average dt 0.129 seconds
Time remaining 9 minutes and 34 seconds
Simulation 73.5 percent complete. Average dt 0.129 seconds
Time remaining 9 minutes and 28 seconds
Simulation 73.8 percent complete. Average dt 0.131 seconds
Time remaining 9 minutes and 21 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.36 m
Trep = 6.03 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.03 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00072.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00072.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 74.0 percent complete. Average dt 0.135 seconds
Time remaining 9 minutes and 35 seconds
Simulation 74.3 percent complete. Average dt 0.136 seconds
Time remaining 9 minutes and 5 seconds
Simulation 74.5 percent complete. Average dt 0.140 seconds
Time remaining 8 minutes and 53 seconds
Simulation 74.8 percent complete. Average dt 0.143 seconds
Time remaining 8 minutes and 43 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.20 m
Trep = 6.02 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.02 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00073.bcf ...
file done
Calculating primary wave interaction
5.1% done
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00073.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 75.1 percent complete. Average dt 0.149 seconds
Time remaining 8 minutes and 53 seconds
Simulation 75.3 percent complete. Average dt 0.153 seconds
Time remaining 8 minutes and 19 seconds
Simulation 75.6 percent complete. Average dt 0.157 seconds
Time remaining 8 minutes and 8 seconds
Simulation 75.9 percent complete. Average dt 0.163 seconds
Time remaining 7 minutes and 55 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.17 m
Trep = 6.03 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.03 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00074.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00074.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 76.2 percent complete. Average dt 0.169 seconds
Time remaining 8 minutes and 2 seconds
Simulation 76.5 percent complete. Average dt 0.174 seconds
Time remaining 7 minutes and 32 seconds
Simulation 76.9 percent complete. Average dt 0.180 seconds
Time remaining 7 minutes and 20 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.01 m
Trep = 5.98 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.98 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00075.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00075.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 77.2 percent complete. Average dt 0.182 seconds
Time remaining 7 minutes and 30 seconds
Simulation 77.5 percent complete. Average dt 0.187 seconds
Time remaining 7 minutes and 2 seconds
Simulation 77.8 percent complete. Average dt 0.191 seconds
Time remaining 6 minutes and 53 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.00 m
Trep = 5.89 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.89 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00076.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00076.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 78.1 percent complete. Average dt 0.193 seconds
Time remaining 7 minutes and 37 seconds
Simulation 78.5 percent complete. Average dt 0.194 seconds
Time remaining 6 minutes and 39 seconds
Simulation 78.8 percent complete. Average dt 0.196 seconds
Time remaining 6 minutes and 32 seconds
Simulation 79.2 percent complete. Average dt 0.198 seconds
Time remaining 6 minutes and 24 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.86 m
Trep = 5.65 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.65 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00077.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00077.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 79.4 percent complete. Average dt 0.199 seconds
Time remaining 8 minutes and 21 seconds
Simulation 79.7 percent complete. Average dt 0.200 seconds
Time remaining 6 minutes and 13 seconds
Simulation 80.1 percent complete. Average dt 0.201 seconds
Time remaining 6 minutes and 6 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.01 m
Trep = 5.82 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.82 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00078.bcf ...
file done
Calculating primary wave interaction
5.3% done
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00078.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 80.2 percent complete. Average dt 0.203 seconds
Time remaining 7 minutes and 55 seconds
Simulation 80.6 percent complete. Average dt 0.203 seconds
Time remaining 5 minutes and 55 seconds
Simulation 81.0 percent complete. Average dt 0.204 seconds
Time remaining 5 minutes and 48 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.88 m
Trep = 5.68 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.68 s
Calculating Fourier components
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100.0% done
Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00079.bcf ...
file done
Calculating primary wave interaction
5.1% done
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00079.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 81.3 percent complete. Average dt 0.205 seconds
Time remaining 6 minutes and 4 seconds
Simulation 81.6 percent complete. Average dt 0.206 seconds
Time remaining 5 minutes and 34 seconds
Simulation 82.0 percent complete. Average dt 0.206 seconds
Time remaining 5 minutes and 27 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.70 m
Trep = 5.54 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.54 s
Calculating Fourier components
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85.3% done
90.3% done
95.3% done
100.0% done
Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00080.bcf ...
file done
Calculating primary wave interaction
5.1% done
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95.3% done
100.0% done
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00080.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 82.3 percent complete. Average dt 0.206 seconds
Time remaining 5 minutes and 37 seconds
Simulation 82.6 percent complete. Average dt 0.206 seconds
Time remaining 5 minutes and 14 seconds
Simulation 83.0 percent complete. Average dt 0.206 seconds
Time remaining 5 minutes and 8 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.88 m
Trep = 5.64 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.64 s
Calculating Fourier components
5.1% done
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85.4% done
90.1% done
95.3% done
100.0% done
Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00081.bcf ...
file done
Calculating primary wave interaction
5.2% done
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100.0% done
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00081.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 83.3 percent complete. Average dt 0.205 seconds
Time remaining 5 minutes and 59 seconds
Simulation 83.7 percent complete. Average dt 0.204 seconds
Time remaining 4 minutes and 56 seconds
Simulation 84.0 percent complete. Average dt 0.203 seconds
Time remaining 4 minutes and 50 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.82 m
Trep = 5.62 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.62 s
Calculating Fourier components
5.1% done
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85.2% done
90.2% done
95.3% done
100.0% done
Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00082.bcf ...
file done
Calculating primary wave interaction
5.1% done
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80.0% done
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95.3% done
100.0% done
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00082.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 84.4 percent complete. Average dt 0.202 seconds
Time remaining 4 minutes and 56 seconds
Simulation 84.7 percent complete. Average dt 0.201 seconds
Time remaining 4 minutes and 37 seconds
Simulation 85.1 percent complete. Average dt 0.199 seconds
Time remaining 4 minutes and 31 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.07 m
Trep = 5.84 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.84 s
Calculating Fourier components
5.3% done
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80.0% done
85.3% done
90.2% done
95.1% done
100.0% done
Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00083.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00083.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 85.4 percent complete. Average dt 0.198 seconds
Time remaining 4 minutes and 53 seconds
Simulation 85.8 percent complete. Average dt 0.195 seconds
Time remaining 4 minutes and 20 seconds
Simulation 86.1 percent complete. Average dt 0.193 seconds
Time remaining 4 minutes and 14 seconds
Simulation 86.4 percent complete. Average dt 0.193 seconds
Time remaining 4 minutes and 7 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.00 m
Trep = 5.90 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.90 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00084.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00084.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 86.8 percent complete. Average dt 0.192 seconds
Time remaining 4 minutes and 13 seconds
Simulation 87.1 percent complete. Average dt 0.189 seconds
Time remaining 3 minutes and 56 seconds
Simulation 87.4 percent complete. Average dt 0.187 seconds
Time remaining 3 minutes and 51 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.04 m
Trep = 5.89 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.89 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00085.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00085.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 87.7 percent complete. Average dt 0.185 seconds
Time remaining 4 minutes and 21 seconds
Simulation 88.0 percent complete. Average dt 0.181 seconds
Time remaining 3 minutes and 43 seconds
Simulation 88.3 percent complete. Average dt 0.181 seconds
Time remaining 3 minutes and 36 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.16 m
Trep = 6.18 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.18 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00086.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00086.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 88.6 percent complete. Average dt 0.174 seconds
Time remaining 3 minutes and 43 seconds
Simulation 88.9 percent complete. Average dt 0.166 seconds
Time remaining 3 minutes and 32 seconds
Simulation 89.2 percent complete. Average dt 0.166 seconds
Time remaining 3 minutes and 26 seconds
Simulation 89.5 percent complete. Average dt 0.159 seconds
Time remaining 3 minutes and 24 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.03 m
Trep = 5.82 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.82 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00087.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00087.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 89.7 percent complete. Average dt 0.159 seconds
Time remaining 4 minutes and 33 seconds
Simulation 90.0 percent complete. Average dt 0.155 seconds
Time remaining 3 minutes and 17 seconds
Simulation 90.2 percent complete. Average dt 0.149 seconds
Time remaining 3 minutes and 14 seconds
Simulation 90.5 percent complete. Average dt 0.145 seconds
Time remaining 3 minutes and 11 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.21 m
Trep = 5.92 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.92 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00088.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00088.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 90.7 percent complete. Average dt 0.141 seconds
Time remaining 3 minutes and 17 seconds
Simulation 91.0 percent complete. Average dt 0.134 seconds
Time remaining 3 minutes and 5 seconds
Simulation 91.2 percent complete. Average dt 0.127 seconds
Time remaining 3 minutes and 4 seconds
Simulation 91.5 percent complete. Average dt 0.125 seconds
Time remaining 3 minutes and 0 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.09 m
Trep = 5.79 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.79 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00089.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00089.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 91.7 percent complete. Average dt 0.120 seconds
Time remaining 3 minutes and 51 seconds
Simulation 91.9 percent complete. Average dt 0.115 seconds
Time remaining 2 minutes and 57 seconds
Simulation 92.1 percent complete. Average dt 0.111 seconds
Time remaining 2 minutes and 55 seconds
Simulation 92.3 percent complete. Average dt 0.107 seconds
Time remaining 2 minutes and 53 seconds
Simulation 92.5 percent complete. Average dt 0.101 seconds
Time remaining 2 minutes and 53 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.27 m
Trep = 5.90 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.90 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00090.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00090.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 92.7 percent complete. Average dt 0.104 seconds
Time remaining 2 minutes and 55 seconds
Simulation 92.9 percent complete. Average dt 0.098 seconds
Time remaining 2 minutes and 47 seconds
Simulation 93.1 percent complete. Average dt 0.099 seconds
Time remaining 2 minutes and 41 seconds
Simulation 93.3 percent complete. Average dt 0.096 seconds
Time remaining 2 minutes and 39 seconds
Simulation 93.5 percent complete. Average dt 0.094 seconds
Time remaining 2 minutes and 36 seconds
Simulation 93.7 percent complete. Average dt 0.093 seconds
Time remaining 2 minutes and 32 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.28 m
Trep = 6.43 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.43 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00091.bcf ...
file done
Calculating primary wave interaction
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Warning: shallow water so long wave variance is reduced using par%nmax
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00091.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 93.9 percent complete. Average dt 0.094 seconds
Time remaining 2 minutes and 35 seconds
Simulation 94.0 percent complete. Average dt 0.088 seconds
Time remaining 2 minutes and 28 seconds
Simulation 94.2 percent complete. Average dt 0.092 seconds
Time remaining 2 minutes and 20 seconds
Simulation 94.4 percent complete. Average dt 0.090 seconds
Time remaining 2 minutes and 17 seconds
Simulation 94.6 percent complete. Average dt 0.093 seconds
Time remaining 2 minutes and 10 seconds
Simulation 94.8 percent complete. Average dt 0.090 seconds
Time remaining 2 minutes and 8 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 2.00 m
Trep = 6.33 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.33 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00092.bcf ...
file done
Calculating primary wave interaction
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00092.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 94.9 percent complete. Average dt 0.094 seconds
Time remaining 2 minutes and 52 seconds
Simulation 95.1 percent complete. Average dt 0.094 seconds
Time remaining 1 minutes and 58 seconds
Simulation 95.3 percent complete. Average dt 0.093 seconds
Time remaining 1 minutes and 54 seconds
Simulation 95.5 percent complete. Average dt 0.093 seconds
Time remaining 1 minutes and 49 seconds
Simulation 95.7 percent complete. Average dt 0.095 seconds
Time remaining 1 minutes and 44 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.96 m
Trep = 6.35 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.35 s
Calculating Fourier components
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Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00093.bcf ...
file done
Calculating primary wave interaction
5.3% done
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00093.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 95.8 percent complete. Average dt 0.096 seconds
Time remaining 2 minutes and 5 seconds
Simulation 96.0 percent complete. Average dt 0.096 seconds
Time remaining 1 minutes and 35 seconds
Simulation 96.2 percent complete. Average dt 0.099 seconds
Time remaining 1 minutes and 28 seconds
Simulation 96.4 percent complete. Average dt 0.103 seconds
Time remaining 1 minutes and 22 seconds
Simulation 96.6 percent complete. Average dt 0.103 seconds
Time remaining 1 minutes and 17 seconds
Simulation 96.9 percent complete. Average dt 0.102 seconds
Time remaining 1 minutes and 13 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.79 m
Trep = 6.25 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.25 s
Calculating Fourier components
5.2% done
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100.0% done
Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00094.bcf ...
file done
Calculating primary wave interaction
5.3% done
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Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00094.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 97.0 percent complete. Average dt 0.106 seconds
Time remaining 1 minutes and 12 seconds
Simulation 97.3 percent complete. Average dt 0.111 seconds
Time remaining 1 minutes and 1 seconds
Simulation 97.5 percent complete. Average dt 0.114 seconds
Time remaining 55 seconds
Simulation 97.7 percent complete. Average dt 0.113 seconds
Time remaining 50 seconds
--------------------------------
Calculating spectral wave boundary conditions
--------------------------------
Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.65 m
Trep = 6.10 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 6.10 s
Calculating Fourier components
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85.4% done
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100.0% done
Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00095.bcf ...
file done
Calculating primary wave interaction
5.2% done
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100.0% done
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00095.bcf ...
file done
--------------------------------
Spectral wave boundary conditions complete
--------------------------------
Simulation 97.9 percent complete. Average dt 0.116 seconds
Time remaining 57 seconds
Simulation 98.2 percent complete. Average dt 0.119 seconds
Time remaining 40 seconds
Simulation 98.4 percent complete. Average dt 0.121 seconds
Time remaining 34 seconds
Simulation 98.6 percent complete. Average dt 0.126 seconds
Time remaining 29 seconds
Simulation 98.9 percent complete. Average dt 0.128 seconds
Time remaining 23 seconds
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Calculating spectral wave boundary conditions
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Reading spectrum at location 1
waveparams: Reading from table waveinput_1d.txt ...
Interpreting spectrum at location 1
Values calculated from interpolated spectrum:
Hm0 = 1.40 m
Trep = 5.65 s
Mean dir = 90.52 degN
Overall Trep from all spectra calculated: 5.65 s
Calculating Fourier components
5.1% done
10.3% done
15.0% done
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25.3% done
30.0% done
35.2% done
40.3% done
45.1% done
50.2% done
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60.1% done
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80.2% done
85.4% done
90.1% done
95.3% done
100.0% done
Wave energy outside computational domain at offshore boundary: .0%
Calculating short wave time series for theta bin 1 of 1
Y-point 1 of 3 done.
Y-point 2 of 3 done.
Y-point 3 of 3 done.
Wave bin 1 contains 100.00% of total energy
Writing wave energy to E_series00096.bcf ...
file done
Calculating primary wave interaction
5.2% done
10.3% done
15.1% done
20.2% done
25.0% done
30.2% done
35.3% done
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45.2% done
50.0% done
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90.1% done
95.2% done
100.0% done
Calculating flux at boundary
Flux 1 of 3
Flux 2 of 3
Flux 3 of 3
Writing long wave mass flux to q_series00096.bcf ...
file done
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Spectral wave boundary conditions complete
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Simulation 99.0 percent complete. Average dt 0.133 seconds
Time remaining 28 seconds
Simulation 99.3 percent complete. Average dt 0.135 seconds
Time remaining 15 seconds
Simulation 99.6 percent complete. Average dt 0.139 seconds
Time remaining 9 seconds
Simulation 99.8 percent complete. Average dt 0.142 seconds
Time remaining 4 seconds
Duration : 2132.6817830000000 seconds
Timesteps : 1338518
Average dt : 0.12909800241759917 seconds
Unit speed : 2.3923659595159718E-006 seconds/1
MPI timing : procs : 1
seconds : total : 2194.9956469535828 seconds
loop : 2192.0830488204956 seconds
End of program xbeach