********************************************************** Welcome to XBeach version 1.22.4867 Kingsday release date 20-10-2015 10:45:21 URL: http://svn.oss.deltares.nl/repos/xbeach/trunk/ ********************************************************** Simulation started: YYYYMMDD hh:mm:ss time zone (UTC) 20161021 14:32:39 +0200 General Input Module Reading input parameters: -------------------------------- 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) -------------------------------- Grid parameters: gridform = xbeach (no record found, default value used) xori = 412500.0000 yori = 90700.0000 alfa = .0000 nx = 141 ny = 114 posdwn = .0000 depfile = bed.dep vardx = 1 dx = -1.0000 (no record found, default value used) dy = -1.0000 (no record found, default value used) xfile = x.grd yfile = y.grd thetamin = -90.0000 thetamax = 90.0000 thetanaut = 0 (no record found, default value used) dtheta = 20.0000 -------------------------------- Model time parameters: CFL = .7000 (no record found, default value used) tstop = 3700.0000 -------------------------------- Physical constants: rho = 1025.0000 (no record found, default value used) g = 9.8100 (no record found, default value used) depthscale = 1.0000 (no record found, default value used) -------------------------------- Initial conditions: zsinitfile = None specified -------------------------------- Wave boundary condition parameters: instat = jons_table bcfile = waves.txt taper = 100.0000 (no record found, default value used) nmax = .8000 (no record found, default value used) lateralwave = neumann (no record found, default value used) -------------------------------- 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) trepfac = .0100 (no record found, default value used) sprdthr = .0800 (no record found, default value used) Tm01switch = 0 (no record found, default value used) nspectrumloc = 1 (no record found, default value used) -------------------------------- Flow boundary condition parameters: front = abs_2d (no record found, default value used) left = neumann (no record found, default value used) right = neumann (no record found, default value used) back = abs_2d (no record found, default value used) 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) tidetype = velocity (no record found, default value used) -------------------------------- Tide boundary conditions: tideloc = 1 zs0file = tide.txt -------------------------------- 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) -------------------------------- 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 = 2.0000 (no record found, default value used) 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) -------------------------------- Roller parameters: roller = 1 (no record found, default value used) rfb = 0 (no record found, default value used) -------------------------------- Wave-current interaction parameters: wci = 0 (no record found, default value used) hwci = .1000 (no record found, default value used) cats = 4.0000 (no record found, default value used) -------------------------------- Flow parameters: bedfriction = chezy (no record found, default value used) bedfriccoef = 55.0000 (no record found, default value used) nuh = .1000 (no record found, default value used) nuhfac = 1.0000 (no record found, default value used) smag = 1 (no record found, default value used) -------------------------------- Coriolis force parameters: wearth = .0417 (no record found, default value used) lat = .0000 (no record found, default value used) -------------------------------- 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) -------------------------------- Sediment transport parameters: form = vanthiel_vanrijn (no record found, default value use d) waveform = vanthiel (no record found, default value used) 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 (no record found, default value used) facua = .1000 (no record found, default value used) 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 (no record found, default value used) Tbfac = 1.0000 (no record found, default value used) Tsmin = .5000 (no record found, default value used) 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) -------------------------------- 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 (no record found, default value used) D90 = .0003 (no record found, default value used) 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) -------------------------------- Morphology parameters: morfac = 5.0000 morfacopt = 1 (no record found, default value used) morstart = 100.0000 morstop = 3700.0000 (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 = 0 (no record found, default value used) -------------------------------- 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 = 100.0000 tspoints = None specified tintp = 1.0000 (no record found, default value used) tsmean = None specified tintm = 3700.0000 (no record found, default value used) nglobalvar = -1 (no record found, default value used) 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) outputformat = netcdf outputprecision = double (no record found, default value used) ncfilename = None specified netcdf output to:xboutput.nc -------------------------------- Output projection: projection = None specified rotate = 1 (no record found, default value used) -------------------------------- Wave numerics parameters: scheme = upwind_2 (no record found, default value used) snells = 0 (no record found, default value used) -------------------------------- Flow numerics parameters: eps = .0050 (no record found, default value used) eps_sd = .5000 (no record found, default value used) umin = .0000 (no record found, default value used) hmin = .2000 (no record found, default value used) secorder = 0 (no record found, default value used) -------------------------------- 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) -------------------------------- 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) -------------------------------- Finished reading input parameters -------------------------------- Unknown, unused or multiple statements of parameter NGLOBAL in params.txt ------------------------------------ Building Grid and Bathymetry ------------------------------------ Initializing ..... readtide: reading tide time series from tide.txt ... -------------------------------- Initializing spectral wave boundary conditions -------------------------------- NetCDF outputformat Creating netcdf variable: H Creating netcdf variable: zs Creating netcdf variable: zs0 Creating netcdf variable: zb Creating netcdf variable: hh Creating netcdf variable: u Creating netcdf variable: v Creating netcdf variable: ue Creating netcdf variable: ve Creating netcdf variable: urms Creating netcdf variable: Fx Creating netcdf variable: Fy Creating netcdf variable: ccg Creating netcdf variable: ceqsg Creating netcdf variable: ceqbg Creating netcdf variable: Susg Creating netcdf variable: Svsg Creating netcdf variable: E Creating netcdf variable: R Creating netcdf variable: D Creating netcdf variable: DR Writing file definition. Setting up boundary conditions -------------------------------- Calculating spectral wave boundary conditions -------------------------------- Reading spectrum at location 1 waveparams: Reading from table waves.txt ... Interpreting spectrum at location 1 Values calculated from interpolated spectrum: Hm0 = 2.58 m Trep = 8.04 s Mean dir = 270.41 degN Overall Trep from all spectra calculated: 8.04 s Calculating Fourier components 5.0% done 10.0% done 15.0% done 20.0% done 25.0% done 30.0% done 35.0% done 40.0% done 45.0% done 50.0% done 55.0% done 60.0% done 65.0% done 70.0% done 75.0% done 80.0% done 85.0% done 90.0% done 95.0% done 100.0% done Wave energy outside computational domain at offshore boundary: .0% Calculating short wave time series for theta bin 1 of 9 Calculating short wave time series for theta bin 2 of 9 Calculating short wave time series for theta bin 3 of 9 Calculating short wave time series for theta bin 4 of 9 Calculating short wave time series for theta bin 5 of 9 Calculating short wave time series for theta bin 6 of 9 Calculating short wave time series for theta bin 7 of 9 Calculating short wave time series for theta bin 8 of 9 Calculating short wave time series for theta bin 9 of 9 Y-point 1 of 115 done. 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Wave bin 1 contains .00% of total energy Wave bin 2 contains .31% of total energy Wave bin 3 contains 5.45% of total energy Wave bin 4 contains 22.49% of total energy Wave bin 5 contains 44.93% of total energy Wave bin 6 contains 22.21% of total energy Wave bin 7 contains 4.25% of total energy Wave bin 8 contains .36% of total energy Wave bin 9 contains .00% of total energy Writing wave energy to E_series00001.bcf ... file done Calculating primary wave interaction 5.0% done 10.1% done 15.1% done 20.1% done 25.1% done 30.2% done 35.2% done 40.2% done 45.2% done 50.3% done 55.3% done 60.3% done 65.3% done 70.4% done 75.4% done 80.4% done 85.4% done 90.5% done 95.5% done 100.0% done Calculating flux at boundary Flux 1 of 115 Flux 2 of 115 Flux 3 of 115 Flux 4 of 115 Flux 5 of 115 Flux 6 of 115 Flux 7 of 115 Flux 8 of 115 Flux 9 of 115 Flux 10 of 115 Flux 11 of 115 Flux 12 of 115 Flux 13 of 115 Flux 14 of 115 Flux 15 of 115 Flux 16 of 115 Flux 17 of 115 Flux 18 of 115 Flux 19 of 115 Flux 20 of 115 Flux 21 of 115 Flux 22 of 115 Flux 23 of 115 Flux 24 of 115 Flux 25 of 115 Flux 26 of 115 Flux 27 of 115 Flux 28 of 115 Flux 29 of 115 Flux 30 of 115 Flux 31 of 115 Flux 32 of 115 Flux 33 of 115 Flux 34 of 115 Flux 35 of 115 Flux 36 of 115 Flux 37 of 115 Flux 38 of 115 Flux 39 of 115 Flux 40 of 115 Flux 41 of 115 Flux 42 of 115 Flux 43 of 115 Flux 44 of 115 Flux 45 of 115 Flux 46 of 115 Flux 47 of 115 Flux 48 of 115 Flux 49 of 115 Flux 50 of 115 Flux 51 of 115 Flux 52 of 115 Flux 53 of 115 Flux 54 of 115 Flux 55 of 115 Flux 56 of 115 Flux 57 of 115 Flux 58 of 115 Flux 59 of 115 Flux 60 of 115 Flux 61 of 115 Flux 62 of 115 Flux 63 of 115 Flux 64 of 115 Flux 65 of 115 Flux 66 of 115 Flux 67 of 115 Flux 68 of 115 Flux 69 of 115 Flux 70 of 115 Flux 71 of 115 Flux 72 of 115 Flux 73 of 115 Flux 74 of 115 Flux 75 of 115 Flux 76 of 115 Flux 77 of 115 Flux 78 of 115 Flux 79 of 115 Flux 80 of 115 Flux 81 of 115 Flux 82 of 115 Flux 83 of 115 Flux 84 of 115 Flux 85 of 115 Flux 86 of 115 Flux 87 of 115 Flux 88 of 115 Flux 89 of 115 Flux 90 of 115 Flux 91 of 115 Flux 92 of 115 Flux 93 of 115 Flux 94 of 115 Flux 95 of 115 Flux 96 of 115 Flux 97 of 115 Flux 98 of 115 Flux 99 of 115 Flux 100 of 115 Flux 101 of 115 Flux 102 of 115 Flux 103 of 115 Flux 104 of 115 Flux 105 of 115 Flux 106 of 115 Flux 107 of 115 Flux 108 of 115 Flux 109 of 115 Flux 110 of 115 Flux 111 of 115 Flux 112 of 115 Flux 113 of 115 Flux 114 of 115 Flux 115 of 115 Writing long wave mass flux to q_series00001.bcf ... file done -------------------------------- Spectral wave boundary conditions complete -------------------------------- Boundary conditions complete, starting computation Simulation 0.5 percent complete. Average dt 0.303 seconds Time remaining 16 minutes Simulation 2.7 percent complete. Average dt 0.303 seconds Time remaining 4 minutes and 53 seconds Simulation 4.8 percent complete. Average dt 0.303 seconds Time remaining 4 minutes and 24 seconds Simulation 7.0 percent complete. Average dt 0.303 seconds Time remaining 4 minutes and 7 seconds Simulation 9.0 percent complete. Average dt 0.303 seconds Time remaining 3 minutes and 58 seconds Simulation 11.1 percent complete. Average dt 0.303 seconds Time remaining 3 minutes and 51 seconds Simulation 13.1 percent complete. Average dt 0.303 seconds Time remaining 3 minutes and 49 seconds Simulation 15.1 percent complete. Average dt 0.300 seconds Time remaining 3 minutes and 42 seconds Simulation 16.9 percent complete. Average dt 0.298 seconds Time remaining 3 minutes and 44 seconds Simulation 18.9 percent complete. Average dt 0.299 seconds Time remaining 3 minutes and 31 seconds Simulation 20.6 percent complete. 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Interpreting spectrum at location 1 Values calculated from interpolated spectrum: Hm0 = 2.58 m Trep = 8.04 s Mean dir = 270.41 degN Overall Trep from all spectra calculated: 8.04 s Calculating Fourier components 5.0% done 10.0% done 15.0% done 20.0% done 25.0% done 30.0% done 35.0% done 40.0% done 45.0% done 50.0% done 55.0% done 60.0% done 65.0% done 70.0% done 75.0% done 80.0% done 85.0% done 90.0% done 95.0% done 100.0% done Wave energy outside computational domain at offshore boundary: .0% Calculating short wave time series for theta bin 1 of 9 Calculating short wave time series for theta bin 2 of 9 Calculating short wave time series for theta bin 3 of 9 Calculating short wave time series for theta bin 4 of 9 Calculating short wave time series for theta bin 5 of 9 Calculating short wave time series for theta bin 6 of 9 Calculating short wave time series for theta bin 7 of 9 Calculating short wave time series for theta bin 8 of 9 Calculating short wave time series for theta bin 9 of 9 Y-point 1 of 115 done. 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Wave bin 1 contains .00% of total energy Wave bin 2 contains .00% of total energy Wave bin 3 contains 7.07% of total energy Wave bin 4 contains 23.82% of total energy Wave bin 5 contains 41.29% of total energy Wave bin 6 contains 23.37% of total energy Wave bin 7 contains 4.44% of total energy Wave bin 8 contains .00% of total energy Wave bin 9 contains .00% of total energy Writing wave energy to E_series00002.bcf ... file done Calculating primary wave interaction 5.0% done 10.1% done 15.1% done 20.1% done 25.1% done 30.2% done 35.2% done 40.2% done 45.2% done 50.3% done 55.3% done 60.3% done 65.3% done 70.4% done 75.4% done 80.4% done 85.4% done 90.5% done 95.5% done 100.0% done Calculating flux at boundary Flux 1 of 115 Flux 2 of 115 Flux 3 of 115 Flux 4 of 115 Flux 5 of 115 Flux 6 of 115 Flux 7 of 115 Flux 8 of 115 Flux 9 of 115 Flux 10 of 115 Flux 11 of 115 Flux 12 of 115 Flux 13 of 115 Flux 14 of 115 Flux 15 of 115 Flux 16 of 115 Flux 17 of 115 Flux 18 of 115 Flux 19 of 115 Flux 20 of 115 Flux 21 of 115 Flux 22 of 115 Flux 23 of 115 Flux 24 of 115 Flux 25 of 115 Flux 26 of 115 Flux 27 of 115 Flux 28 of 115 Flux 29 of 115 Flux 30 of 115 Flux 31 of 115 Flux 32 of 115 Flux 33 of 115 Flux 34 of 115 Flux 35 of 115 Flux 36 of 115 Flux 37 of 115 Flux 38 of 115 Flux 39 of 115 Flux 40 of 115 Flux 41 of 115 Flux 42 of 115 Flux 43 of 115 Flux 44 of 115 Flux 45 of 115 Flux 46 of 115 Flux 47 of 115 Flux 48 of 115 Flux 49 of 115 Flux 50 of 115 Flux 51 of 115 Flux 52 of 115 Flux 53 of 115 Flux 54 of 115 Flux 55 of 115 Flux 56 of 115 Flux 57 of 115 Flux 58 of 115 Flux 59 of 115 Flux 60 of 115 Flux 61 of 115 Flux 62 of 115 Flux 63 of 115 Flux 64 of 115 Flux 65 of 115 Flux 66 of 115 Flux 67 of 115 Flux 68 of 115 Flux 69 of 115 Flux 70 of 115 Flux 71 of 115 Flux 72 of 115 Flux 73 of 115 Flux 74 of 115 Flux 75 of 115 Flux 76 of 115 Flux 77 of 115 Flux 78 of 115 Flux 79 of 115 Flux 80 of 115 Flux 81 of 115 Flux 82 of 115 Flux 83 of 115 Flux 84 of 115 Flux 85 of 115 Flux 86 of 115 Flux 87 of 115 Flux 88 of 115 Flux 89 of 115 Flux 90 of 115 Flux 91 of 115 Flux 92 of 115 Flux 93 of 115 Flux 94 of 115 Flux 95 of 115 Flux 96 of 115 Flux 97 of 115 Flux 98 of 115 Flux 99 of 115 Flux 100 of 115 Flux 101 of 115 Flux 102 of 115 Flux 103 of 115 Flux 104 of 115 Flux 105 of 115 Flux 106 of 115 Flux 107 of 115 Flux 108 of 115 Flux 109 of 115 Flux 110 of 115 Flux 111 of 115 Flux 112 of 115 Flux 113 of 115 Flux 114 of 115 Flux 115 of 115 Writing long wave mass flux to q_series00002.bcf ... file done -------------------------------- Spectral wave boundary conditions complete -------------------------------- Simulation 97.3 percent complete. Average dt 0.294 seconds Time remaining 13 seconds Simulation 99.3 percent complete. Average dt 0.294 seconds Time remaining 2 seconds Duration : 220.476213300000 seconds Timesteps : 2477 Average dt : 0.298748486071861 seconds Unit speed : 5.450665740241947E-006 seconds/1 End of program xbeach