0.281c NAVGEM wind, thermal, precip 3-hrly forcing ; LWcorr; GDEM42 SSS relax; 17T Sigma2*; GDEM4 Jan init; KPP; SeaWiFS KPAR; HYCOM+CICE; A=20;Smag=.05; Z(7):1-7,Z(16):8,Z(2):10-16,Z(13):dp00/f/x=36/1.18/262;Z(3):400-600m; NOGAPSsnow sigma:84-14m; depth_GLBb0.08_11; apply offlux to CICE; 2.2.99DHi-900 22 'iversn' = hycom version number x10 930 'iexpt ' = experiment number x10 4500 'idm ' = longitudinal array size 3298 'jdm ' = latitudinal array size 555 'itest ' = grid point where detailed diagnostics are desired 1469 'jtest ' = grid point where detailed diagnostics are desired 41 'kdm ' = number of layers 41 'nhybrd' = number of hybrid levels (0=all isopycnal) 14 'nsigma' = number of sigma levels (nhybrd-nsigma z-levels) 1.00 'dp0k ' = layer 1 deep z-level spacing minimum thickness (m) 1.80 'dp0k ' = layer 2 deep z-level spacing minimum thickness (m) 3.24 'dp0k ' = layer 3 deep z-level spacing minimum thickness (m) 4.68 'dp0k ' = layer 4 deep z-level spacing minimum thickness (m) 4.93 'dp0k ' = layer 5 deep z-level spacing minimum thickness (m) 5.81 'dp0k ' = layer 6 deep z-level spacing minimum thickness (m) 6.87 'dp0k ' = layer 7 deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer 8 deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer 9 deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer 10 deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer 11 deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer 12 deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer 13 deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer 14 deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer A deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer B deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer C deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer D deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer E deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer F deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer G deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer H deep z-level spacing minimum thickness (m) 8.00 'dp0k ' = layer I deep z-level spacing minimum thickness (m) 10.00 'dp0k ' = layer 15 deep z-level spacing minimum thickness (m) 16.40 'dp0k ' = layer 16 deep z-level spacing minimum thickness (m) 35.92 'dp0k ' = layer 17 deep z-level spacing minimum thickness (m) 42.38 'dp0k ' = layer 18 deep z-level spacing minimum thickness (m) 50.02 'dp0k ' = layer 19 deep z-level spacing minimum thickness (m) 59.02 'dp0k ' = layer 20 deep z-level spacing minimum thickness (m) 69.64 'dp0k ' = layer 21 deep z-level spacing minimum thickness (m) 82.18 'dp0k ' = layer 22 deep z-level spacing minimum thickness (m) 96.97 'dp0k ' = layer 23 deep z-level spacing minimum thickness (m) 114.43 'dp0k ' = layer 24 deep z-level spacing minimum thickness (m) 135.02 'dp0k ' = layer 25 deep z-level spacing minimum thickness (m) 159.33 'dp0k ' = layer 26 deep z-level spacing minimum thickness (m) 188.01 'dp0k ' = layer 27 deep z-level spacing minimum thickness (m) 221.84 'dp0k ' = layer 28 deep z-level spacing minimum thickness (m) 261.78 'dp0k ' = layer 29 deep z-level spacing minimum thickness (m) 400.00 'dp0k ' = layer 30 deep z-level spacing minimum thickness (m) 600.00 'dp0k ' = layer 31 deep z-level spacing minimum thickness (m) 600.00 'dp0k ' = layer 32 deep z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 1 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 2 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 3 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 4 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 5 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 6 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 7 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 8 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 9 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 10 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 11 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 12 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 13 shallow z-level spacing minimum thickness (m) 1.00 'ds0k ' = layer 14 shallow z-level spacing minimum thickness (m) 1.0 'dp00i ' = deep iso-pycnal spacing minimum thickness (m) 83.0 'isotop' = shallowest depth for isopycnal layers (m), <0 from file 35.0 'saln0 ' = initial salinity value (psu), only used for iniflg<2 1 'locsig' = locally-referenced pot. density for stability (0=F,1=T) -1 'kapref' = thermobaric ref. state (-1=input,0=none,1,2,3=constant) 2 'thflag' = reference pressure flag (0=Sigma-0, 2=Sigma-2) 34.0 'thbase' = reference density (sigma units) 1 'vsigma' = spacially varying isopycnal target densities (0=F,1=T) 17.00 'sigma ' = layer 1 isopycnal target density (sigma units) 18.00 'sigma ' = layer 2 isopycnal target density (sigma units) 19.00 'sigma ' = layer 3 isopycnal target density (sigma units) 20.00 'sigma ' = layer 4 isopycnal target density (sigma units) 21.00 'sigma ' = layer 5 isopycnal target density (sigma units) 22.00 'sigma ' = layer 6 isopycnal target density (sigma units) 23.00 'sigma ' = layer 7 isopycnal target density (sigma units) 24.00 'sigma ' = layer 8 isopycnal target density (sigma units) 25.00 'sigma ' = layer 9 isopycnal target density (sigma units) 26.00 'sigma ' = layer 10 isopycnal target density (sigma units) 27.00 'sigma ' = layer 11 isopycnal target density (sigma units) 28.00 'sigma ' = layer 12 isopycnal target density (sigma units) 29.00 'sigma ' = layer 13 isopycnal target density (sigma units) 29.90 'sigma ' = layer 14 isopycnal target density (sigma units) 30.65 'sigma ' = layer A isopycnal target density (sigma units) 31.35 'sigma ' = layer B isopycnal target density (sigma units) 31.95 'sigma ' = layer C isopycnal target density (sigma units) 32.55 'sigma ' = layer D isopycnal target density (sigma units) 33.15 'sigma ' = layer E isopycnal target density (sigma units) 33.75 'sigma ' = layer F isopycnal target density (sigma units) 34.30 'sigma ' = layer G isopycnal target density (sigma units) 34.80 'sigma ' = layer H isopycnal target density (sigma units) 35.20 'sigma ' = layer I isopycnal target density (sigma units) 35.50 'sigma ' = layer 15 isopycnal target density (sigma units) 35.80 'sigma ' = layer 16 isopycnal target density (sigma units) 36.04 'sigma ' = layer 17 isopycnal target density (sigma units) 36.20 'sigma ' = layer 18 isopycnal target density (sigma units) 36.38 'sigma ' = layer 19 isopycnal target density (sigma units) 36.52 'sigma ' = layer 20 isopycnal target density (sigma units) 36.62 'sigma ' = layer 21 isopycnal target density (sigma units) 36.70 'sigma ' = layer 22 isopycnal target density (sigma units) 36.77 'sigma ' = layer 23 isopycnal target density (sigma units) 36.83 'sigma ' = layer 24 isopycnal target density (sigma units) 36.89 'sigma ' = layer 25 isopycnal target density (sigma units) 36.97 'sigma ' = layer 26 isopycnal target density (sigma units) 37.02 'sigma ' = layer 27 isopycnal target density (sigma units) 37.06 'sigma ' = layer 28 isopycnal target density (sigma units) 37.10 'sigma ' = layer 29 isopycnal target density (sigma units) 37.17 'sigma ' = layer 30 isopycnal target density (sigma units) 37.30 'sigma ' = layer 31 isopycnal target density (sigma units) 37.42 'sigma ' = layer 32 isopycnal target density (sigma units) 2 'iniflg' = initial state flag (0=levl, 1=zonl, 2=clim) -1 'jerlv0' = initial jerlov water type (1 to 5; 0 for KPAR, -1 for CHL) 3 'yrflag' = days in year flag (0=360, 1=366, 2=366J1, 3=actual) 1 'sshflg' = diagnostic SSH flag (0=SSH,1=SSH&stericSSH) .04166667 'dsurfq' = number of days between model diagnostics at the surface -0.250 'diagfq' = number of days between model diagnostics 0.0 'proffq' = number of days between model diagnostics at selected locs 0.0 'tilefq' = number of days between model diagnostics on selected tiles 0.0 'meanfq' = number of days between model diagnostics (time averaged) 0.250 'rstrfq' = number of days between model restart output 0.0 'bnstfq' = number of days between baro nesting archive input 0.0 'nestfq' = number of days between 3-d nesting archive input .04166667 'cplifq' = number of days (or time steps) between sea ice coupling 80.0 'baclin' = baroclinic time step (seconds), int. divisor of 86400 6.6666667 'batrop' = barotropic time step (seconds), int. div. of baclin/2 -2 'incflg' = incremental update flag (-ve for inc) (0=no, 1=yes, 2=full-velocity) 270 'incstp' = no. timesteps for full update (1=direct insertion) 1 'incupf' = number of days of incremental updating input 0.125 'ra2fac' = weight for Robert-Asselin time filter 0.125 'wbaro ' = weight for time smoothing of barotropic fields 1 'btrlfr' = leapfrog barotropic time step (0=F,1=T) 0 'btrmas' = barotropic is mass conserving (0=F,1=T) 0 'hybraf' = HYBGEN: Robert-Asselin flag (0=F,1=T) 16.0 'hybrlx' = HYBGEN: inverse relaxation coefficient (time steps) 0.01 'hybiso' = HYBGEN: Use PCM if layer is within hybiso of target density 3 'hybmap' = HYBGEN: remapper flag (0=PCM, 1=PLM, 2=PPM, 3=WENO-like) 0 'hybflg' = HYBGEN: generator flag (0=T&S, 1=th&S, 2=th&T) 0 'advflg' = thermal advection flag (0=T&S, 1=th&S, 2=th&T) 2 'advtyp' = scalar advection type (0=PCM,1=MPDATA,2=FCT2,4=FCT4) 2 'momtyp' = momentum advection type (2=2nd order, 4=4th order) -1.0 'slip ' = +1 for free-slip, -1 for non-slip boundary conditions 0.05 'visco2' = deformation-dependent Laplacian viscosity factor 0.0 'visco4' = deformation-dependent biharmonic viscosity factor 0.0 'facdf4' = speed-dependent biharmonic viscosity factor -0.00286 'veldf2' = diffusion velocity (m/s) for Laplacian momentum dissip. -0.02 'veldf4' = diffusion velocity (m/s) for biharmonic momentum dissip. 0.0 'thkdf2' = diffusion velocity (m/s) for Laplacian thickness diffus. -0.01 'thkdf4' = diffusion velocity (m/s) for biharmonic thickness diffus. 0.005 'temdf2' = diffusion velocity (m/s) for Laplacian temp/saln diffus. 1.0 'temdfc' = temp diffusion conservation (0.0,1.0 all dens,temp resp.) 0.0 'vertmx' = diffusion velocity (m/s) for momentum at MICOM M.L.base 0.0 'cbar ' = rms flow speed (m/s) for linear bottom friction -2.5e-3 'cb ' = coefficient of quadratic bottom friction (-ve input) 0.0 'drglim' = limiter for explicit friction (1.0 none, 0.0 implicit) 10.0 'thkbot' = thickness of bottom boundary layer (m) 0.02 'sigjmp' = minimum density jump across interfaces (kg/m**3) 0.3 'tmljmp' = equivalent temperature jump across mixed-layer (degC) 15.0 'thkmls' = reference mixed-layer thickness for SSS relaxation (m) 0.0 'thkmlt' = reference mixed-layer thickness for SST relaxation (m) 6.0 'thkriv' = nominal thickness of river inflow (m) 3.0 'thkcdw' = thickness for near-surface currents in ice-ocean stress (m) 20.0 'thkfrz' = maximum thickness of near-surface freezing zone (m) 2 'iceflg' = sea ice model flag (0=none,1=energy loan,2,4=coupled/esmf) 0.0 'tfrz_0' = ENLN: ice melting point (degC) at S=0psu -0.054 'tfrz_s' = ENLN: gradient of ice melting point (degC/psu) .04166667 'frzifq' = e-folding time scale back to tfrz (days or -ve time steps) 0.0 'ticegr' = ENLN: temp. grad. inside ice (deg/m); =0 use surtmp 0.5 'hicemn' = ENLN: minimum ice thickness (m) 99.0 'hicemx' = ENLN: maximum ice thickness (m) 0 'ishelf' = ice shelf flag (0=none,1=ice shelf over ocean) 0 'ntracr' = number of tracers (0=none,negative to initialize) 0 'trcflg' = tracer flags (one digit per tr, most sig. replicated) 180 'tsofrq' = number of time steps between anti-drift offset calcs 0.0 'tofset' = temperature anti-drift offset (degC/century) 0.0 'sofset' = salnity anti-drift offset (psu/century) 1 'mlflag' = mixed layer flag (0=none,1=KPP,2-3=KT,4=PWP,5=MY,6=GISS) 1 'pensol' = KT: activate penetrating solar rad. (0=F,1=T) 999.0 'dtrate' = KT: maximum permitted m.l. detrainment rate (m/day) 19.2 'thkmin' = KT/PWP: minimum mixed-layer thickness (m) 1 'dypflg' = KT/PWP: diapycnal mixing flag (0=none, 1=KPP, 2=explicit) 90 'mixfrq' = KT/PWP: number of time steps between diapycnal mix calcs 1.e-7 'diapyc' = KT/PWP: diapycnal diffusivity x buoyancy freq. (m**2/s**2) 0.25 'rigr ' = PWP: critical gradient richardson number 0.65 'ribc ' = PWP: critical bulk richardson number 0.7 'rinfty' = KPP: maximum gradient richardson number (shear inst.) 0.25 'ricr ' = KPP: critical bulk richardson number 0.0 'bldmin' = KPP: minimum surface boundary layer thickness (m) 1200.0 'bldmax' = K-PROF: maximum surface boundary layer thickness (m) 0.7 'cekman' = KPP/KT: scale factor for Ekman depth 1.0 'cmonob' = KPP: scale factor for Monin-Obukov depth 0 'bblkpp' = KPP: activate bottom boundary layer (0=F,1=T) 1 'shinst' = KPP: activate shear instability mixing (0=F,1=T) 1 'dbdiff' = KPP: activate double diffusion mixing (0=F,1=T) 1 'nonloc' = KPP: activate nonlocal b. layer mixing (0=F,1=T) 0 'botdiw' = K-PROF: activate bot.enhan.int.wav mixing (0=F,1=T) 0 'difout' = K-PROF: output visc/diff coffs in archive (0=F,1=T) 14 'difsmo' = K-PROF: number of layers with horiz smooth diff coeffs 50.0e-4 'difm0 ' = KPP: max viscosity due to shear instability (m**2/s) 50.0e-4 'difs0 ' = KPP: max diffusivity due to shear instability (m**2/s) 0.3e-4 'difmiw' = KPP: background/internal wave viscosity (m**2/s) 0.1e-4 'difsiw' = KPP: background/internal wave diffusivity (m**2/s) 10.0e-4 'dsfmax' = KPP: salt fingering diffusivity factor (m**2/s) 1.9 'rrho0 ' = KPP: salt fingering rp=(alpha*delT)/(beta*delS) 98.96 'cs ' = KPP: value for nonlocal flux term 10.0 'cstar ' = KPP: value for nonlocal flux term 0.0 'cv ' = KPP: buoyancy frequency ratio (0.0 to use a fn. of N) 5.0 'c11 ' = KPP: value for turb velocity scale 2 'hblflg' = KPP: b. layer interp. flag (0=const.,1=linear,2=quad.) 2 'niter ' = KPP: iterations for semi-implicit soln. (2 recomended) 0 'langmr' = KPP: Langmuir flag (0=no;1=Sul;2=Smy;3=Har;4=Tak) 0 'fltflg' = FLOATS: synthetic float flag (0=no; 1=yes) 4 'nfladv' = FLOATS: advect every nfladv bacl. time steps (even, >=4) 1 'nflsam' = FLOATS: output (0=every nfladv steps; >0=no. of days) 0 'intpfl' = FLOATS: horiz. interp. (0=2nd order+n.n.; 1=n.n. only) 0 'iturbv' = FLOATS: add horiz. turb. advection velocity (0=no; 1=yes) 1 'ismpfl' = FLOATS: sample water properties at float (0=no; 1=yes) 4.63e-6 'tbvar ' = FLOATS: horizontal turb. vel. variance scale (m**2/s**2) 0.4 'tdecri' = FLOATS: inverse decorrelation time scale (1/day) 0 'lbflag' = lateral barotropic bndy flag (0=none, 1=port, 2=input) 0 'tidflg' = TIDES: tidal forcing flag (0=none,1=open-bdy,2=bdy&body) 0 'tidein' = TIDES: tide field input flag (0=no;1=yes;2=sal) 00000001 'tidcon' = TIDES: 1 digit per (Q1K2P1N2O1K1S2M2), 0=off,1=on 0.06 'tidsal' = TIDES: scalar self attraction and loading factor 0 'tiddrg' = TIDES: tidal drag flag (0=no;1=scalar;2=tensor) 500.0 'thkdrg' = TIDES: thickness of tidal drag bottom boundary layer (m) 0.0 'drgscl' = TIDES: scale factor for tidal drag (0.0 when tiddrg=0) 1 'tidgen' = TIDES: generic time (0=F,1=T) 1.0 'tidrmp' = TIDES: ramp time (days) 0.0 'tid_t0' = TIDES: origin for ramp time (model day) 12 'clmflg' = climatology frequency flag (6=bimonthly, 12=monthly) 4 'wndflg' = wind stress input flag (0=none,1=u/v-grid,2,3=p-grid,4=10m) 4 'ustflg' = ustar forcing flag (3=input,1,2=wndspd,4=stress) 4 'flxflg' = thermal forcing flag (0=none,3=net_flx,1-2,4-6=sst-based) 4 'empflg' = E-P forcing flag (0=none,3=net_E-P,1-2,4-6=sst-bas_E) 0 'dswflg' = diurnal shortwave flag (0=none,1=daily to diurnal corr.) 0 'albflg' = ocean albedo flag (0=none,1=const,2=L&Y) -1 'sssflg' = SSS relaxation flag (0=none,1=clim,-1=clim&rmx) 2 'lwflag' = longwave (SST) flag (0=none,1=clim,2=nwp,-1=lwdn) 2 'sstflg' = SST relaxation flag (0=none,1=clim,2=atmos,3=observed) 3 'icmflg' = ice mask flag (0=none,1=clim,2=atmos,3=obs/coupled) 1.e5 'prsbas' = msl pressure is input field + prsbas (Pa) 0 'mslprf' = msl pressure forcing flag (0=F,1=T) 0 'stroff' = net strs offset flag (0=F,1=T) 1 'flxoff' = net flux offset flag (0=F,1=T) 0 'flxsmo' = smooth surface fluxes (0=F,1=T) 0 'relax ' = activate lateral boundary nudging (0=F,1=T) 0 'trcrlx' = activate lat. bound. tracer nudging (0=F,1=T) 1 'priver' = rivers as a precipitation bogas (0=F,1=T) 0 'epmass' = treat evap-precip as a mass exchange (0=F,1=T)