********************************************************** Welcome to XBeach version 1.21.3667 Groundhog Day release date 02/11/201 15:50:22 URL: http://svn.oss.deltares.nl/repos/xbeach/trunk/ ********************************************************** Simulation started: YYYYMMDD hh:mm:ss time zone (UTC) 20141027 10:00:59 +0100 General Input Module Reading input parameters: -------------------------------- Physical processes: XBeach reading from params.txt swave = 1 (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) q3d = 0 (no record found, default value used) swrunup = 0 (no record found, default value used) ships = 0 (no record found, default value used) bchwiz = 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 = -7625.1627 yori = .0000 alfa = .0000 nx = 291 ny = 0 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 = 225.0000 Warning: value > recommended value of 180.0000 thetamax = 315.0000 Warning: value > recommended value of 180.0000 dtheta = 90.0000 Warning: value > recommended value of 20.0000 thetanaut = 1 -------------------------------- Model time parameters: CFL = .7000 (no record found, default value used) tstop = 18000.0000 -------------------------------- 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 hotstartflo = 0 (no record found, default value used) -------------------------------- Wave boundary condition parameters: instat = jons bcfile = filelist.txt taper = 100.0000 (no record found, default value used) nmax = .8000 (no record found, default value used) leftwave = neumann (no record found, default value used) rightwave = neumann (no record found, default value used) -------------------------------- Wave-spectrum boundary condition parameters: nonhspectru = 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) oldwbc = 0 (no record found, default value used) correctHm0 = 1 (no record found, default value used) oldnyq = 0 (no record found, default value used) Tm01switch = 0 (no record found, default value used) wbcversion = 3 (no record found, default value used) nspectrumlo = 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) nc = 1 (no record found, default value used) tidetype = velocity (no record found, default value used) -------------------------------- Tide boundary conditions: tideloc = 2 paulrevere = land (no record found, default value used) zs0file = tide.txt -------------------------------- Discharge boundary conditions: disch_loc_f = None specified disch_times = 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) breakerdela = 1 (no record found, default value used) shoaldelay = 0 (no record found, default value used) facsd = 1.0000 (no record found, default value used) facrun = 1.0000 (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) bedfricfile = None specified C = 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) nuhv = 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) -------------------------------- 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) -------------------------------- Sediment transport parameters: form = vanthiel_vanrijn (no record found, default value used) 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 = 1 (no record found, default value used) facDc = 1.0000 (no record found, default value used) jetfac = .0000 (no record found, default value used) -------------------------------- Morphology parameters: morfac = 1.0000 (no record found, default value used) morfacopt = 1 (no record found, default value used) morstart = 120.0000 (no record found, default value used) morstop = 18000.0000 (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 = 60.0000 tspoints = None specified tintp = 1.0000 tscross = None specified tintc = 1.0000 (no record found, default value used) tsmean = None specified tintm = 18000.0000 nglobalvar = 12 nglobalvar: Will generate global output for variable:H nglobalvar: Will generate global output for variable:zb nglobalvar: Will generate global output for variable:zs nglobalvar: Will generate global output for variable:hh nglobalvar: Will generate global output for variable:u nglobalvar: Will generate global output for variable:v nglobalvar: Will generate global output for variable:R nglobalvar: Will generate global output for variable:D nglobalvar: Will generate global output for variable:thetamean nglobalvar: Will generate global output for variable:Fx nglobalvar: Will generate global output for variable:Fy nglobalvar: Will generate global output for variable:wetz 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 = 6 nmeanvar: Will generate mean, min, max and variance output for variable:H nmeanvar: Will generate mean, min, max and variance output for variable:zs nmeanvar: Will generate mean, min, max and variance output for variable:hh nmeanvar: Will generate mean, min, max and variance output for variable:u nmeanvar: Will generate mean, min, max and variance output for variable:v nmeanvar: Will generate mean, min, max and variance output for variable:thetam ean ncross = 0 (no record found, default value used) outputforma = netcdf ncfilename = None specified netcdf output to:xboutput.nc -------------------------------- Output projection: projection = None specified rotate = 1 (no record found, default value used) -------------------------------- Drifters parameters: drifterfile = None specified ndrifter = 0 (no record found, default value used) -------------------------------- Vegetation parameters: vegiefile = None specified vegiemapfil = None specified -------------------------------- Wave numerics parameters: scheme = upwind_2 (no record found, default value used) snells = 1 (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) oldhu = 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) -------------------------------- 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) -------------------------------- Finished reading input parameters -------------------------------- Warning: Setting rugdepth to minimum value greater than eps (.00000) Warning: 2D absorbing boundary condition [front=abs_2d] reduces to a 1D absorbing boundary condition [front=abs_1d] in 1D mode [ny=0] Warning: 2D absorbing boundary condition [back=abs_2d] reduces to a 1D absorbing boundary condition [back=abs_1d] in 1D mode [ny=0] Unknown, unused or multiple statements of parameter TIDELEN in params.txt Unknown, unused or multiple statements of parameter RT in params.txt Unknown, unused or multiple statements of parameter DTBC 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: zb Creating netcdf variable: zs Creating netcdf variable: hh Creating netcdf variable: u Creating netcdf variable: v Creating netcdf variable: R Creating netcdf variable: D Creating netcdf variable: thetamean Creating netcdf variable: Fx Creating netcdf variable: Fy Creating netcdf variable: wetz Creating netcdf variable: H_mean Creating netcdf variable: H_var Creating netcdf variable: H_min Creating netcdf variable: H_max Creating netcdf variable: zs_mean Creating netcdf variable: zs_var Creating netcdf variable: zs_min Creating netcdf variable: zs_max Creating netcdf variable: hh_mean Creating netcdf variable: hh_var Creating netcdf variable: hh_min Creating netcdf variable: hh_max Creating netcdf variable: u_mean Creating netcdf variable: u_var Creating netcdf variable: u_min Creating netcdf variable: u_max Creating netcdf variable: v_mean Creating netcdf variable: v_var Creating netcdf variable: v_min Creating netcdf variable: v_max Creating netcdf variable: thetamean_mean Creating netcdf variable: thetamean_var Creating netcdf variable: thetamean_min Creating netcdf variable: thetamean_max Writing file definition. Setting up boundary conditions -------------------------------- Calculating spectral wave boundary conditions -------------------------------- Reading spectrum at location 1 waveparams: Reading from jonswap_1.txt ... XBeach reading from jonswap_1.txt nmodal = 1 (no record found, default value used) Hm0 = 4.6000 fp = .0826 gammajsp = 3.3000 s = 20.0000 mainang = 270.0000 fnyq = 1.0000 dfj = .0050 (no record found, default value used) Interpreting spectrum at location 1 Values calculated from interpolated spectrum: Hm0 = 4.60 m Trep = 11.07 s Mean dir = 270.00 degN Overall Trep from all spectra calculated: 11.07 s Calculating Fourier components 5.2% done 10.1% done 15.4% done 20.2% done 25.1% done 30.3% done 35.2% done 40.1% done 45.3% done 50.2% done 55.1% done 60.3% done 65.2% done 70.0% done 75.3% done 80.1% done 85.0% done 90.3% done 95.1% done 100.0% done Wave energy outside computational domain at offshore boundary: 1.1% Calculating short wave time series for theta bin 1 of 1 Y-point 1 of 1 done. Wave bin 1 contains 100.00% of total energy Writing wave energy to E_series00001.bcf ... file done Calculating primary wave interaction 5.3% done 10.2% done 15.0% done 20.3% done 25.2% done 30.1% done 35.3% done 40.2% done 45.1% done 50.0% done 55.3% done 60.2% done 65.0% done 70.3% done 75.2% done 80.1% done 85.3% done 90.2% done 95.1% done 100.0% done Calculating flux at boundary Flux 1 of 1 Writing long wave mass flux to q_series00001.bcf ... file done -------------------------------- Spectral wave boundary conditions complete -------------------------------- Boundary conditions complete, starting computation Simulation 0.8 percent complete. Average dt 0.140 seconds Time remaining 9 minutes and 47 seconds Simulation 2.1 percent complete. Average dt 0.142 seconds Time remaining 6 minutes and 24 seconds Simulation 3.3 percent complete. Average dt 0.142 seconds Time remaining 6 minutes and 39 seconds Simulation 4.6 percent complete. Average dt 0.142 seconds Time remaining 6 minutes and 31 seconds Simulation 5.8 percent complete. Average dt 0.138 seconds Time remaining 6 minutes and 6 seconds Simulation 7.1 percent complete. Average dt 0.141 seconds Time remaining 6 minutes and 1 seconds Simulation 8.4 percent complete. Average dt 0.142 seconds Time remaining 6 minutes and 9 seconds Simulation 9.7 percent complete. Average dt 0.142 seconds Time remaining 5 minutes and 50 seconds Simulation 10.9 percent complete. Average dt 0.140 seconds Time remaining 5 minutes and 58 seconds Simulation 12.2 percent complete. Average dt 0.142 seconds Time remaining 5 minutes and 36 seconds Simulation 13.4 percent complete. Average dt 0.136 seconds Time remaining 5 minutes and 57 seconds Simulation 14.6 percent complete. Average dt 0.142 seconds Time remaining 5 minutes and 57 seconds Simulation 15.8 percent complete. Average dt 0.142 seconds Time remaining 5 minutes and 49 seconds Simulation 17.0 percent complete. Average dt 0.139 seconds Time remaining 5 minutes and 54 seconds Simulation 18.2 percent complete. Average dt 0.140 seconds Time remaining 5 minutes and 52 seconds Simulation 19.3 percent complete. Average dt 0.136 seconds Time remaining 5 minutes and 56 seconds -------------------------------- Calculating spectral wave boundary conditions -------------------------------- Reading spectrum at location 1 waveparams: Reading from jonswap_2.txt ... XBeach reading from jonswap_2.txt nmodal = 1 (no record found, default value used) Hm0 = 4.6000 fp = .0826 gammajsp = 3.3000 s = 20.0000 mainang = 270.0000 fnyq = 1.0000 dfj = .0050 (no record found, default value used) Interpreting spectrum at location 1 Values calculated from interpolated spectrum: Hm0 = 4.60 m Trep = 11.07 s Mean dir = 270.00 degN Overall Trep from all spectra calculated: 11.07 s Calculating Fourier components 5.2% done 10.1% done 15.4% done 20.2% done 25.1% done 30.3% done 35.2% done 40.1% done 45.3% done 50.2% done 55.1% done 60.3% done 65.2% done 70.0% done 75.3% done 80.1% done 85.0% done 90.3% done 95.1% done 100.0% done Wave energy outside computational domain at offshore boundary: .4% Calculating short wave time series for theta bin 1 of 1 Y-point 1 of 1 done. Wave bin 1 contains 100.00% of total energy Writing wave energy to E_series00002.bcf ... file done Calculating primary wave interaction 5.3% done 10.2% done 15.0% done 20.3% done 25.2% done 30.1% done 35.3% done 40.2% done 45.1% done 50.0% done 55.3% done 60.2% done 65.0% done 70.3% done 75.2% done 80.1% done 85.3% done 90.2% done 95.1% done 100.0% done Calculating flux at boundary Flux 1 of 1 Writing long wave mass flux to q_series00002.bcf ... file done -------------------------------- Spectral wave boundary conditions complete -------------------------------- Simulation 20.0 percent complete. Average dt 0.137 seconds Time remaining 11 minutes Simulation 21.2 percent complete. Average dt 0.133 seconds Time remaining 5 minutes and 42 seconds Simulation 22.3 percent complete. Average dt 0.134 seconds Time remaining 5 minutes and 27 seconds Simulation 23.5 percent complete. Average dt 0.138 seconds Time remaining 5 minutes and 38 seconds Simulation 24.6 percent complete. Average dt 0.134 seconds Time remaining 5 minutes and 31 seconds Simulation 25.7 percent complete. Average dt 0.137 seconds Time remaining 5 minutes and 52 seconds Simulation 26.8 percent complete. Average dt 0.135 seconds Time remaining 5 minutes and 15 seconds Simulation 28.0 percent complete. Average dt 0.137 seconds Time remaining 5 minutes and 9 seconds Simulation 29.0 percent complete. Average dt 0.140 seconds Time remaining 5 minutes and 41 seconds Simulation 30.2 percent complete. Average dt 0.137 seconds Time remaining 5 minutes and 11 seconds Simulation 31.4 percent complete. Average dt 0.137 seconds Time remaining 4 minutes and 47 seconds Simulation 32.4 percent complete. Average dt 0.138 seconds Time remaining 5 minutes and 19 seconds Simulation 33.5 percent complete. Average dt 0.134 seconds Time remaining 5 minutes and 23 seconds Simulation 34.6 percent complete. Average dt 0.134 seconds Time remaining 4 minutes and 57 seconds Simulation 35.6 percent complete. Average dt 0.136 seconds Time remaining 5 minutes and 5 seconds Simulation 36.7 percent complete. Average dt 0.135 seconds Time remaining 4 minutes and 58 seconds Simulation 37.7 percent complete. Average dt 0.141 seconds Time remaining 5 minutes and 4 seconds Simulation 38.2 percent complete. Average dt 0.142 seconds Time remaining 11 minutes Simulation 39.1 percent complete. Average dt 0.140 seconds Time remaining 5 minutes and 37 seconds -------------------------------- Calculating spectral wave boundary conditions -------------------------------- Reading spectrum at location 1 waveparams: Reading from jonswap_3.txt ... XBeach reading from jonswap_3.txt nmodal = 1 (no record found, default value used) Hm0 = 4.6000 fp = .0826 gammajsp = 3.3000 s = 20.0000 mainang = 270.0000 fnyq = 1.0000 dfj = .0050 (no record found, default value used) Interpreting spectrum at location 1 Values calculated from interpolated spectrum: Hm0 = 4.60 m Trep = 11.07 s Mean dir = 270.00 degN Overall Trep from all spectra calculated: 11.07 s Calculating Fourier components 5.2% done 10.1% done 15.4% done 20.2% done 25.1% done 30.3% done 35.2% done 40.1% done 45.3% done 50.2% done 55.1% done 60.3% done 65.2% done 70.0% done 75.3% done 80.1% done 85.0% done 90.3% done 95.1% done 100.0% done Wave energy outside computational domain at offshore boundary: .4% Calculating short wave time series for theta bin 1 of 1 Y-point 1 of 1 done. Wave bin 1 contains 100.00% of total energy Writing wave energy to E_series00003.bcf ... file done Calculating primary wave interaction 5.3% done 10.2% done 15.0% done 20.3% done 25.2% done 30.1% done 35.3% done 40.2% done 45.1% done 50.0% done 55.3% done 60.2% done 65.0% done 70.3% done 75.2% done 80.1% done 85.3% done 90.2% done 95.1% done 100.0% done Calculating flux at boundary Flux 1 of 1 Writing long wave mass flux to q_series00003.bcf ... file done -------------------------------- Spectral wave boundary conditions complete -------------------------------- Simulation 40.0 percent complete. Average dt 0.139 seconds Time remaining 7 minutes and 29 seconds Simulation 40.9 percent complete. Average dt 0.137 seconds Time remaining 5 minutes and 31 seconds Simulation 41.8 percent complete. Average dt 0.138 seconds Time remaining 5 minutes and 10 seconds Simulation 42.8 percent complete. Average dt 0.137 seconds Time remaining 4 minutes and 49 seconds Simulation 43.1 percent complete. Average dt 0.142 seconds Time remaining 17 minutes Simulation 43.5 percent complete. Average dt 0.142 seconds Time remaining 11 minutes Simulation 44.7 percent complete. Average dt 0.136 seconds Time remaining 3 minutes and 55 seconds Simulation 45.8 percent complete. Average dt 0.130 seconds Time remaining 3 minutes and 54 seconds Simulation 47.1 percent complete. Average dt 0.141 seconds Time remaining 3 minutes and 33 seconds Simulation 48.4 percent complete. Average dt 0.141 seconds Time remaining 3 minutes and 18 seconds Simulation 49.6 percent complete. Average dt 0.136 seconds Time remaining 3 minutes and 22 seconds Simulation 50.4 percent complete. Average dt 0.132 seconds Time remaining 5 minutes and 8 seconds Simulation 51.7 percent complete. Average dt 0.137 seconds Time remaining 3 minutes and 8 seconds Simulation 53.0 percent complete. Average dt 0.139 seconds Time remaining 2 minutes and 59 seconds Simulation 54.3 percent complete. Average dt 0.139 seconds Time remaining 2 minutes and 57 seconds Simulation 55.5 percent complete. Average dt 0.131 seconds Time remaining 3 minutes and 6 seconds Simulation 56.8 percent complete. Average dt 0.137 seconds Time remaining 2 minutes and 48 seconds Simulation 58.1 percent complete. Average dt 0.138 seconds Time remaining 2 minutes and 41 seconds Simulation 59.4 percent complete. Average dt 0.138 seconds Time remaining 2 minutes and 36 seconds -------------------------------- Calculating spectral wave boundary conditions -------------------------------- Reading spectrum at location 1 waveparams: Reading from jonswap_4.txt ... XBeach reading from jonswap_4.txt nmodal = 1 (no record found, default value used) Hm0 = 4.6000 fp = .0826 gammajsp = 3.3000 s = 20.0000 mainang = 270.0000 fnyq = 1.0000 dfj = .0050 (no record found, default value used) Interpreting spectrum at location 1 Values calculated from interpolated spectrum: Hm0 = 4.60 m Trep = 11.07 s Mean dir = 270.00 degN Overall Trep from all spectra calculated: 11.07 s Calculating Fourier components 5.2% done 10.1% done 15.4% done 20.2% done 25.1% done 30.3% done 35.2% done 40.1% done 45.3% done 50.2% done 55.1% done 60.3% done 65.2% done 70.0% done 75.3% done 80.1% done 85.0% done 90.3% done 95.1% done 100.0% done Wave energy outside computational domain at offshore boundary: .9% Calculating short wave time series for theta bin 1 of 1 Y-point 1 of 1 done. Wave bin 1 contains 100.00% of total energy Writing wave energy to E_series00004.bcf ... file done Calculating primary wave interaction 5.3% done 10.2% done 15.0% done 20.3% done 25.2% done 30.1% done 35.3% done 40.2% done 45.1% done 50.0% done 55.3% done 60.2% done 65.0% done 70.3% done 75.2% done 80.1% done 85.3% done 90.2% done 95.1% done 100.0% done Calculating flux at boundary Flux 1 of 1 Writing long wave mass flux to q_series00004.bcf ... file done -------------------------------- Spectral wave boundary conditions complete -------------------------------- Simulation 60.3 percent complete. Average dt 0.140 seconds Time remaining 3 minutes and 49 seconds Simulation 61.6 percent complete. Average dt 0.136 seconds Time remaining 2 minutes and 30 seconds Simulation 62.9 percent complete. Average dt 0.141 seconds Time remaining 2 minutes and 22 seconds Simulation 64.1 percent complete. Average dt 0.137 seconds Time remaining 2 minutes and 25 seconds Simulation 65.3 percent complete. Average dt 0.132 seconds Time remaining 2 minutes and 28 seconds Simulation 66.5 percent complete. Average dt 0.135 seconds Time remaining 2 minutes and 12 seconds Simulation 67.8 percent complete. Average dt 0.133 seconds Time remaining 2 minutes and 13 seconds Simulation 69.0 percent complete. Average dt 0.134 seconds Time remaining 2 minutes and 5 seconds Simulation 70.2 percent complete. Average dt 0.139 seconds Time remaining 2 minutes and 1 seconds Simulation 71.4 percent complete. Average dt 0.142 seconds Time remaining 2 minutes and 3 seconds Simulation 72.6 percent complete. Average dt 0.133 seconds Time remaining 1 minutes and 53 seconds Simulation 73.8 percent complete. Average dt 0.135 seconds Time remaining 1 minutes and 54 seconds Simulation 75.0 percent complete. Average dt 0.139 seconds Time remaining 1 minutes and 40 seconds Simulation 76.3 percent complete. Average dt 0.141 seconds Time remaining 1 minutes and 32 seconds Simulation 77.5 percent complete. Average dt 0.131 seconds Time remaining 1 minutes and 32 seconds Simulation 78.8 percent complete. Average dt 0.135 seconds Time remaining 1 minutes and 25 seconds Simulation 79.9 percent complete. Average dt 0.129 seconds Time remaining 1 minutes and 25 seconds -------------------------------- Calculating spectral wave boundary conditions -------------------------------- Reading spectrum at location 1 waveparams: Reading from jonswap_5.txt ... XBeach reading from jonswap_5.txt nmodal = 1 (no record found, default value used) Hm0 = 4.6000 fp = .0826 gammajsp = 3.3000 s = 20.0000 mainang = 270.0000 fnyq = 1.0000 dfj = .0050 (no record found, default value used) Interpreting spectrum at location 1 Values calculated from interpolated spectrum: Hm0 = 4.60 m Trep = 11.07 s Mean dir = 270.00 degN Overall Trep from all spectra calculated: 11.07 s Calculating Fourier components 5.2% done 10.1% done 15.4% done 20.2% done 25.1% done 30.3% done 35.2% done 40.1% done 45.3% done 50.2% done 55.1% done 60.3% done 65.2% done 70.0% done 75.3% done 80.1% done 85.0% done 90.3% done 95.1% done 100.0% done Wave energy outside computational domain at offshore boundary: 1.9% Calculating short wave time series for theta bin 1 of 1 Y-point 1 of 1 done. Wave bin 1 contains 100.00% of total energy Writing wave energy to E_series00005.bcf ... file done Calculating primary wave interaction 5.3% done 10.2% done 15.0% done 20.3% done 25.2% done 30.1% done 35.3% done 40.2% done 45.1% done 50.0% done 55.3% done 60.2% done 65.0% done 70.3% done 75.2% done 80.1% done 85.3% done 90.2% done 95.1% done 100.0% done Calculating flux at boundary Flux 1 of 1 Writing long wave mass flux to q_series00005.bcf ... file done -------------------------------- Spectral wave boundary conditions complete -------------------------------- Simulation 80.6 percent complete. Average dt 0.140 seconds Time remaining 2 minutes and 41 seconds Simulation 81.6 percent complete. Average dt 0.128 seconds Time remaining 1 minutes and 30 seconds Simulation 82.8 percent complete. Average dt 0.136 seconds Time remaining 1 minutes and 11 seconds Simulation 83.9 percent complete. Average dt 0.135 seconds Time remaining 1 minutes and 11 seconds Simulation 85.1 percent complete. Average dt 0.132 seconds Time remaining 1 minutes and 1 seconds Simulation 86.4 percent complete. Average dt 0.137 seconds Time remaining 53 seconds Simulation 87.7 percent complete. Average dt 0.133 seconds Time remaining 50 seconds Simulation 88.8 percent complete. Average dt 0.138 seconds Time remaining 49 seconds Simulation 90.1 percent complete. Average dt 0.136 seconds Time remaining 40 seconds Simulation 91.4 percent complete. Average dt 0.141 seconds Time remaining 33 seconds Simulation 92.7 percent complete. Average dt 0.135 seconds Time remaining 29 seconds Simulation 93.9 percent complete. Average dt 0.134 seconds Time remaining 24 seconds Simulation 95.1 percent complete. Average dt 0.135 seconds Time remaining 20 seconds Simulation 96.1 percent complete. Average dt 0.123 seconds Time remaining 21 seconds Simulation 97.1 percent complete. Average dt 0.130 seconds Time remaining 14 seconds Simulation 98.2 percent complete. Average dt 0.133 seconds Time remaining 8 seconds Simulation 99.5 percent complete. Average dt 0.136 seconds Time remaining 2 seconds -------------------------------- Calculating spectral wave boundary conditions -------------------------------- Reading spectrum at location 1 waveparams: Reading from jonswap_6.txt ... XBeach reading from jonswap_6.txt nmodal = 1 (no record found, default value used) Hm0 = 4.6000 fp = .0826 gammajsp = 3.3000 s = 20.0000 mainang = 270.0000 fnyq = 1.0000 dfj = .0050 (no record found, default value used) Interpreting spectrum at location 1 Values calculated from interpolated spectrum: Hm0 = 4.60 m Trep = 11.07 s Mean dir = 270.00 degN Overall Trep from all spectra calculated: 11.07 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: 2.2% Calculating short wave time series for theta bin 1 of 1 Y-point 1 of 1 done. Wave bin 1 contains 100.00% of total energy Writing wave energy to E_series00006.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 1 Writing long wave mass flux to q_series00006.bcf ... file done -------------------------------- Spectral wave boundary conditions complete -------------------------------- Duration : 419.205887200000 seconds Timesteps : 131671 Average dt : 0.136704361628605 seconds Unit speed : 1.090321027409225E-005 seconds/1 End of program xbeach