Skip to content

Instantly share code, notes, and snippets.

@matsbn

matsbn/limits Secret

Created April 29, 2021 13:31
Show Gist options
  • Save matsbn/718c1419cc1ecc064d78d18f5687439f to your computer and use it in GitHub Desktop.
Save matsbn/718c1419cc1ecc064d78d18f5687439f to your computer and use it in GitHub Desktop.
Download ZIP
Namelist for fuk95 test case
Raw
gistfile1.txt
! LIMITS NAMELIST
!
! CONTENTS:
!
! NDAY1 : First day of integration (i)
! NDAY2 : Last day of integration (i)
! IDATE : Model date in YYYYMMDD (i)
! IDATE0 : Initial experiment date in YYYYMMDD (i)
! RUNID : Experiment name (a)
! EXPCNF : Experiment configuration (a)
! RUNTYP : CESM run type (a)
! GRFILE : Name of file containing grid specification (a)
! ICFILE : Name of file containing initial conditions, that is either
! a valid restart file or 'inicon.nc' if climatological based
! initial conditions are desired (a)
! PREF : Reference pressure for potential density (g/cm/s2) (f)
! BACLIN : Baroclinic time step (sec) (f)
! BATROP : Barotropic time step (sec) (f)
! MDV2HI : Laplacian diffusion velocity for momentum dissipation (cm/s) (f)
! MDV2LO : Laplacian diffusion velocity for momentum dissipation (cm/s) (f)
! MDV4HI : Biharmonic diffusion velocity for momentum dissipation (cm/s) (f)
! MDV4LO : Biharmonic diffusion velocity for momentum dissipation (cm/s) (f)
! MDC2HI : Laplacian diffusivity for momentum dissipation (cm**2/s) (f)
! MDC2LO : Laplacian diffusivity for momentum dissipation (cm**2/s) (f)
! VSC2HI : Parameter in deformation-dependent Laplacian viscosity (f)
! VSC2LO : Parameter in deformation-dependent Laplacian viscosity (f)
! VSC4HI : Parameter in deformation-dependent Biharmonic viscosity (f)
! VSC4LO : Parameter in deformation-dependent Biharmonic viscosity (f)
! CBAR : rms flow speed for linear bottom friction law (cm/s) (f)
! CB : Nondiemnsional coefficient of quadratic bottom friction (f)
! CWBDTS : Coastal wave breaking damping resiprocal time scale (1/s) (f)
! CWBDLS : Coastal wave breaking damping length scale (m) (f)
! MOMMTH : Momentum equation discretization method. Valid methods:
! 'enscon' (Sadourny (1975) enstrophy conserving), 'enecon'
! (Sadourny (1975) energy conserving), 'enedis' (Sadourny
! (1975) energy conserving with some dissipation) (a)
! EITMTH : Eddy-induced transport parameterization method. Valid
! methods: 'intdif', 'gm' (a)
! EDRITP : Type of Richardson number used in eddy diffusivity
! computation. Valid types: 'shear', 'large scale' (a)
! BMCMTH : Baroclinic mass flux correction method. Valid methods:
! 'uc' (upstream column), 'dluc' (depth limited upstream
! column) (a)
! RMPMTH : Method of applying eddy-induced transport in the remap
! transport algorithm. Valid methods: 'eitvel', 'eitflx' (a)
! EDWMTH : Method to estimate eddy diffusivity weight as a function of
! the ration of Rossby radius of deformation to the
! horizontal grid spacing. Valid methods: 'smooth', 'step' (a)
! MLRTTP : Type of mixed layer restratification time scale. Valid
! types: 'variable', 'constant', 'limited' (a)
! EDSPRS : Apply eddy mixing suppression away from steering level (l)
! EGC : Parameter c in Eden and Greatbatch (2008) parameterization (f)
! EGGAM : Parameter gamma in E. & G. (2008) param. (f)
! EGLSMN : Minimum eddy length scale in E. & G. (2008) param. (cm) (f)
! EGMNDF : Minimum diffusivity in E. & G. (2008) param. (cm**2/s) (f)
! EGMXDF : Maximum diffusivity in E. & G. (2008) param. (cm**2/s) (f)
! EGIDFQ : Factor relating the isopycnal diffusivity to the layer
! interface diffusivity in the Eden and Greatbatch (2008)
! parameterization. egidfq=difint/difiso () (f)
! RI0 : Critical gradient richardson number for shear driven
! vertical mixing () (f)
! RM0 : Efficiency factor of wind TKE generation in the Oberhuber
! (1993) TKE closure () (f)
! RM5 : Efficiency factor of TKE generation by momentum
! entrainment in the Oberhuber (1993) TKE closure () (f)
! CE : Efficiency factor for the restratification by mixed layer
! eddies (Fox-Kemper et al., 2008) () (f)
! BDMTYP : Type of background diapycnal mixing. If bdmtyp=1 the
! background diffusivity is a constant divided by the
! Brunt-Vaisala frequency, if bdmtyp=2 the background
! diffusivity is constant () (i)
! BDMC1 : Background diapycnal diffusivity times buoyancy frequency
! frequency (cm**2/s**2) (f)
! BDMC2 : Background diapycnal diffusivity (cm**2/s) (f)
! TDFILE : Name of file containing tidal wave energy dissipation
! divided by by bottom buoyancy frequency (a)
! TKEPF : Fraction of surface TKE that penetrates beneath mixed layer
! () (f)
! NIWGF : Global factor applied to the energy input by near-intertial
! motions () (f)
! NIWBF : Fraction of near-inertial energy dissipated in the boundary
! layer () (f)
! NIWLF : Fraction of near-inertial energy dissipated locally beneath
! the boundary layer () (f)
! SWAMTH : Shortwave radiation absorption method. Valid methods:
! 'top-layer', 'jerlov', 'chlorophyll' (a)
! JWTYPE : Number indicating the Jerlov (1968) water type (i)
! CHLOPT : Chlorophyll concentration option. Valid options:
! 'climatology' (a)
! CCFILE : Name of file containing chlorophyll concentration climatology (a)
! TRXDAY : e-folding time scale (days) for SST relax., if 0 no relax. (f)
! SRXDAY : e-folding time scale (days) for SSS relax., if 0 no relax. (f)
! TRXDPT : Maximum mixed layer depth for e-folding SST relaxation (m) (f)
! SRXDPT : Maximum mixed layer depth for e-folding SSS relaxation (m) (f)
! TRXLIM : Max. absolute value of SST difference in relaxation (degC) (f)
! SRXLIM : Max. absolute value of SSS difference in relaxation (psu) (f)
! APTFLX : Apply diagnosed heat flux flag (l)
! APSFLX : Apply diagnosed freshwater flux flag (l)
! DITFLX : Diagnose heat flux flag (l)
! DISFLX : Diagnose freshwater flux flag (l)
! SRXBAL : Balance the SSS relaxation (l)
! SCFILE : Name of file containing SSS climatology used for relaxation (a)
! SMTFRC : Smooth CESM forcing (l)
! SPRFAC : Send precipitation/runoff factor to CESM coupler (l)
! ATM_PATH : Path to forcing fields in case of EXPCNF 'ben02clim' or
! 'ben02syn' (a)
! ITEST : Global i-index of point diagnostics (i)
! JTEST : Global j-index of point diagnostics (i)
! RSTFRQ : Restart frequency in days (30=1month,365=1year) (i)
! RSTFMT : Format of restart file (valid arguments are 0 for classic,
! 1 for 64-bit offset and 2 for netcdf4/hdf5 format) (i)
! RSTCMP : Compression flag for restart file (i)
! IOTYPE : 0 = netcdf, 1 = pnetcdf
&LIMITS
NDAY1 = 0
NDAY2 = 10
IDATE = 20000101
IDATE0 = 20000101
RUNID = 'BLOM_fuk95'
EXPCNF = 'fuk95'
RUNTYP = 'unset'
GRFILE = 'unset'
ICFILE = 'unset'
PREF = 0.
BACLIN = 180.
BATROP = 6.
MDV2HI = 0.
MDV2LO = 0.
MDV4HI = 0.
MDV4LO = 0.
MDC2HI = 0.
MDC2LO = 0.
VSC2HI = .2
VSC2LO = .2
VSC4HI = 0.
VSC4LO = 0.
CBAR = 5.
CB = .002
CWBDTS = 0.
CWBDLS = 25.
MOMMTH = 'enscon'
EITMTH = 'gm'
EDRITP = 'large scale'
BMCMTH = 'uc'
RMPMTH = 'eitvel'
EDWMTH = 'smooth'
MLRTTP = 'constant'
EDSPRS = .true.
EGC = 0.
EGGAM = 200.
EGLSMN = 4000.e2
EGMNDF = 0.
EGMXDF = 1500.e4
EGIDFQ = 1.
RI0 = 1.2
RM0 = 1.2
RM5 = 0.
CE = 0.
BDMTYP = 2
BDMC1 = 5.e-4
BDMC2 = .15
TDFILE = 'unset'
TKEPF = 0.
NIWGF = 0.
NIWBF = .35
NIWLF = .5
SWAMTH = 'jerlov'
JWTYPE = 3
CHLOPT = 'climatology'
CCFILE = 'unset'
TRXDAY = 0.
SRXDAY = 0.
TRXDPT = 1.
SRXDPT = 1.
TRXLIM = 1.5
SRXLIM = .5
APTFLX = .false.
APSFLX = .false.
DITFLX = .false.
DISFLX = .false.
SRXBAL = .false.
SCFILE = 'unset'
SMTFRC = .false.
SPRFAC = .false.
ATM_PATH = 'unset'
ITEST = 78
JTEST = 16
RSTFRQ = 1
RSTFMT = 1
RSTCMP = 1
IOTYPE = 0
/
! NAMELIST FOR CHANNEL WIDTH MODIFICATIONS
!
! CONTENTS:
!
! CWMTAG : Array of geographical names of channels to be modified (a)
! CWMEDG : Array of C grid cell edges to be modified. Valid options:
! 'u' or 'v' (a)
! CWMI : Array of grid cell i-indices (i)
! CWMJ : Array of grid cell j-indices (i)
! CWMWTH : Array of modified grid cell widths (m) (f)
!
!&CWMOD
! CWMTAG =
! CWMEDG =
! CWMI =
! CWMJ =
! CWMWTH =
!/
! NAMELIST FOR MERIDIONAL OVERTURNING AND FLUX DIAGNOSTICS
!
! CONTENTS:
!
! MER_ORFILE : Name of file containing ocean region specification (a)
! MER_MIFILE : Name of file containing zonal section specification for
! meridional transport computation (a)
! MER_REGNAM : Array of region names for meridional overturning and flux
! diagnostics (a)
! MER_REGFLG : Array of mask flags in ocean regions file to be included
! for each region (i)
! MER_MINLAT : Minimum latitude to be considered for each region (f)
! MER_MAXLAT : Maximum latitude to be considered for each region (f)
!
!&MERDIA
! MER_ORFILE =
! MER_MIFILE =
! MER_REGNAM =
! MER_REGFLG(1,:) =
! MER_MINLAT =
! MER_MAXLAT =
!/
! NAMELIST FOR SECTION TRANSPORT DIAGNOSTICS
!
! CONTENTS:
!
! SEC_SIFILE : Name of file containing section specification for section
! transport computation (a)
!
!&SECDIA
! SEC_SIFILE =
!/
! IO-NAMELIST FOR DIAGNOSTIC OUTPUT
!
! Description:
! BLOM supports multiple output groups for its diagnostic output.
! Each output group is represented by one column in the namlist and may
! have its own output format, averaging period, and file frequency.
! The maximum number of output groups is currently limited to 10 but
! can be changed easily in mod_dia.F.
!
! The output precision can be choosen on a per-variable basis.
!
! Multiple time-slices can be written to the same output file
! provided that no variable is written in packed data format
! (i.e. as int2 with scale factor and offset).
!
! Compression of the output (i.e. storage of only wet points)
! and the file format can be choosen on a per-file basis.
!
! All time periods are specified in number of days for positive
! integer values and fraction of day for negative integer values.
! The length of the actual calendar month is used if 30 is written.
! The length of the actual calendar year is used if 365 is written.
! A variable is not written when 0 is specified.
!
! Namelist acronyms:
! GLB_ - global parameters i.e. valid for entire output group
! H2D_ - 2d fields with the horizontal dimensions
! LYR_ - 3d fields with sigma layers as vertical coordinate
! LVL_ - 3d fields with levitus leves as vertical coordinate
! MSC_ - miscellanous, non-gridded fields
!
! Global parameters:
! FNAMETAG - tag used in file name (c10)
! AVEPERIO - average period in days (i)
! FILEFREQ - how often to start a new file in days (i)
! COMPFLAG - switch for compressed/uncompressed output (i)
! NCFORMAT - netcdf format (valid arguments are 0 for classic,
! 1 for 64-bit offset and 2 for netcdf4/hdf5 format)
!
! Arguments for diagnostic variables:
! 0 - variable is not written
! 2 - variable is written as int2 with scale factor and offset
! 4 - variable is written as real4
! 8 - variable is written as real8
!
! Output variables:
! ABSWND - absolute wind speed [m s-1]
! ALB - surface albedo []
! BTMSTR - Barotropic mass streamfunction [kg s-1]
! BRNFLX - brine flux [kg m-2 s-1]
! BRNPD - brine plume depth [m]
! DFL - non-solar heat flux derivative [W m-2 K-1]
! EVA - evaporation [kg m-2 s-1]
! FICE - ice concentration [%]
! FMLTFZ - fresh water flux due to melting/freezing [kg m-2 s-1]
! HICE - ice thickness [m]
! HMLTFZ - heat flux due to melting/freezing [W m-2]
! HSNW - snow depth [m]
! IAGE - ice age [d]
! IDKEDT - mixed layer inertial kinetic energy tendency [kg s-3]
! LIP - liquid precipitation [kg m-2 s-1]
! MAXMLD - maximum mixed layer depth [m]
! MLD - mixed layer depth [m]
! MLDU - mixed layer depth at u-point [m]
! MLDV - mixed layer depth at v-point [m]
! MLTS - mixed layer thickness using "sigma-t" criterion [m]
! MLTSMN - minimum mixed layer thickness using "sigma-t" criterion [m]
! MLTSMX - maximum mixed layer thickness using "sigma-t" criterion [m]
! MLTSSQ - mixed layer thickness squared using "sigma-t" criterion [m2]
! MTKEUS - mixed layer TKE tendency related to friction velocity [kg s-3]
! MTKENI - mixed layer TKE tendency related to near inertial mot. [kg s-3]
! MTKEBF - mixed layer TKE tendency related to buoyancy forcing [kg s-3]
! MTKERS - mixed layer TKE tendency related to eddy restrat. [kg s-3]
! MTKEPE - mixed layer TKE tendency related to pot. energy change [kg s-3]
! MTKEKE - mixed layer TKE tendency related to kin. energy change [kg s-3]
! MTY - wind stress y-component [N m-2]
! MXLU - mixed layer velocity x-component [m s-1]
! MXLV - mixed layer velocity y-component [m s-1]
! NSF - non-solar heat flux [W m-2]
! PBOT - bottom pressure [Pa]
! PSRF - surface pressure [Pa]
! RFIFLX - frozen runoff [kg m-2 s-1]
! RNFFLX - liquid runoff [kg m-2 s-1]
! SALFLX - salt flux received by ocean [kg m-2 s-1]
! SALRLX - restoring salt flux received by ocean [kg m-2 s-1]
! SBOT - bottom salinity [g kg-1]
! SEALV - sea level [m]
! SLVSQ - sea level squared [m2]
! SFL - salt flux [kg m-2 s-1]
! SOP - solid precipitation [kg m-2 s-1]
! SIGMX - mixed layer density [kg m-3]
! SSS - ocean surface salinity [g kg-1]
! SSSSQ - ocean surface salinity squared [g2 kg-2]
! SST - ocean surface temperature [degC]
! SSTSQ - ocean surface temperature squared [degC2]
! SURFLX - heat flux received by ocean [W m-2]
! SURRLX - restoring heat flux received by ocean [W m-2]
! SWA - short-wave heat flux [W m-2]
! T20D - 20C isoterm depth [m]
! TAUX - momentum flux received by ocean x-component [N m-2]
! TAUY - momentum flux received by ocean y-component [N m-2]
! TBOT - bottom temperature [degC]
! TICE - ice temperature [degC]
! TSRF - surface temperature [degC]
! UB - barotropic velocity x-component [m s-1]
! UICE - ice velocity x-component [m s-1]
! USTAR - friction velocity [m s-1]
! USTAR3 - friction velocity cubed [m3 s-3]
! VB - barotropic velocity y-component [m s-1]
! VICE - ice velocity y-component [m s-1]
! ZTX - wind stress x-component [N m-2]
! BFSQ - buoyancy frequency squared [s-1]
! DIFDIA - diapycnal diffusivity [log10(m2 s-1)]
! DIFINT - layer interface diffusivity [log10(m2 s-1)]
! DIFISO - isopycnal diffusivity [log10(m2 s-1)]
! DP - layer pressure thickness [Pa]
! DZ - layer thickness [m]
! SALN - salinity [g kg-1]
! TEMP - temperature [degC]
! TRC - tracer []
! UFLX - mass flux in x-direction [kg s-1]
! UTFLX - heat flux in x-direction [W]
! USFLX - salt flux in x-direction [kg s-1]
! UMFLTD - mass flux due to thickness diffusion in x-direction [kg s-1]
! UTFLTD - heat flux due to thickness diffusion in x-direction [W]
! UTFLLD - heat flux due to lateral diffusion in x-direction [W]
! USFLTD - salt flux due to thickness diffusion in x-direction [kg s-1]
! USFLLD - salt flux due to lateral diffusion in x-direction [kg s-1]
! UVEL - velocity x-component [m s-1]
! VFLX - mass flux in y-direction [kg s-1]
! VTFLX - heat flux in y-direction [W]
! VSFLX - salt flux in y-direction [kg s-1]
! VMFLTD - mass flux due to thickness diffusion in y-direction [kg s-1]
! VTFLTD - heat flux due to thickness diffusion in y-direction [W]
! VTFLLD - heat flux due to lateral diffusion in y-direction [W]
! VSFLTD - salt flux due to thickness diffusion in y-direction [kg s-1]
! VSFLLD - salt flux due to lateral diffusion in y-direction [kg s-1]
! VVEL - velocity x-component [m s-1]
! WFLX - vertical mass flux [kg s-1]
! WFLX2 - vertical mass flux squared [kg2 s-2]
! PV - potential vorticity [m-1 s-1]
! TKE - turbulent kinetic energy [m2 s-2]
! GLS_PSI - generic length scale [m2 s-3]
! IDLAGE - ideal age [year]
! MMFLXL - meridional overturning circ. (MOC) on isopycnic layers [kg s-1]
! MMFLXD - MOC on z-levels [kg s-1]
! MMFTDL - MOC due to thickness diffusion on isopycnic layers [kg s-1]
! MMFTDD - MOC due to thickness diffusion on z-levels [kg s-1]
! MHFLX - meridional heat flux [W]
! MHFTD - meridional heat flux due to thickness diffusion [W]
! MHFLD - meridional heat flux due to lateral diffusion [W]
! MSFLX - meridional salt flux [kg s-1]
! MSFTD - meridional salt flux due to thickness diffusion [kg s-1]
! MSFLD - meridional salt flux due to lateral diffusion [kg s-1]
! VOLTR - section transports [kg s-1]
! MASSGS - global sum of mass [kg]
! VOLGS - global sum of volume [m3]
! SALNGA - global average temperature [degC]
! TEMPGA - global average temperature [degC]
! SSSGA - global average sea surface salinity [g kg-1]
! SSTGA - global average sea surface temperature [degC]
!
&DIAPHY
GLB_FNAMETAG = 'hd','hm'
GLB_AVEPERIO =-8, -8
GLB_FILEFREQ =-8, -8
GLB_COMPFLAG = 0, 0
GLB_NCFORMAT = 0, 0
H2D_ABSWND = 0, 0
H2D_ALB = 0, 0
H2D_BTMSTR = 0, 4
H2D_BRNFLX = 0, 0
H2D_BRNPD = 0, 0
H2D_DFL = 0, 0
H2D_EVA = 0, 0
H2D_FICE = 0, 0
H2D_FMLTFZ = 0, 0
H2D_HICE = 0, 0
H2D_HMLTFZ = 0, 0
H2D_HSNW = 0, 0
H2D_IAGE = 0, 0
H2D_IDKEDT = 0, 4
H2D_LIP = 0, 0
H2D_MAXMLD = 4, 4
H2D_MLD = 0, 4
H2D_MLDU = 0, 0
H2D_MLDV = 0, 0
H2D_MLTS = 0, 4
H2D_MLTSMN = 0, 4
H2D_MLTSMX = 0, 4
H2D_MLTSSQ = 0, 4
H2D_MTKEUS = 0, 0
H2D_MTKENI = 0, 0
H2D_MTKEBF = 0, 0
H2D_MTKERS = 0, 0
H2D_MTKEPE = 0, 4
H2D_MTKEKE = 0, 4
H2D_MTY = 0, 0
H2D_MXLU = 4, 4
H2D_MXLV = 4, 4
H2D_NSF = 0, 0
H2D_PBOT = 0, 4
H2D_PSRF = 0, 0
H2D_RFIFLX = 0, 0
H2D_RNFFLX = 0, 0
H2D_SALFLX = 0, 0
H2D_SALRLX = 0, 0
H2D_SBOT = 0, 4
H2D_SEALV = 4, 4
H2D_SLVSQ = 0, 4
H2D_SFL = 0, 4
H2D_SOP = 0, 4
H2D_SIGMX = 0, 4
H2D_SSS = 0, 4
H2D_SSSSQ = 0, 4
H2D_SST = 4, 4
H2D_SSTSQ = 4, 4
H2D_SURFLX = 0, 0
H2D_SURRLX = 0, 0
H2D_SWA = 0, 0
H2D_T20D = 0, 0
H2D_TAUX = 0, 0
H2D_TAUY = 0, 0
H2D_TBOT = 0, 4
H2D_TICE = 0, 0
H2D_TSRF = 0, 0
H2D_UB = 4, 4
H2D_UICE = 0, 0
H2D_USTAR = 0, 0
H2D_USTAR3 = 0, 0
H2D_VB = 4, 4
H2D_VICE = 0, 0
H2D_ZTX = 0, 0
LYR_BFSQ = 0, 4
LYR_DIFDIA = 0, 4
LYR_DIFINT = 0, 0
LYR_DIFISO = 0, 0
LYR_DP = 0, 4
LYR_DZ = 0, 4
LYR_SALN = 0, 4
LYR_TEMP = 0, 4
LYR_TRC = 0, 4
LYR_UFLX = 0, 4
LYR_UTFLX = 0, 4
LYR_USFLX = 0, 4
LYR_UMFLTD = 0, 0
LYR_UTFLTD = 0, 0
LYR_UTFLLD = 0, 0
LYR_USFLTD = 0, 0
LYR_USFLLD = 0, 0
LYR_UVEL = 0, 4
LYR_VFLX = 0, 4
LYR_VTFLX = 0, 4
LYR_VSFLX = 0, 4
LYR_VMFLTD = 0, 0
LYR_VTFLTD = 0, 0
LYR_VTFLLD = 0, 0
LYR_VSFLTD = 0, 0
LYR_VSFLLD = 0, 0
LYR_VVEL = 0, 4
LYR_WFLX = 0, 4
LYR_WFLX2 = 0, 4
LYR_PV = 0, 4
LYR_TKE = 0, 0
LYR_GLS_PSI = 0, 0
LYR_IDLAGE = 0, 4
LVL_BFSQ = 0, 4
LVL_DIFDIA = 0, 4
LVL_DIFINT = 0, 0
LVL_DIFISO = 0, 0
LVL_DZ = 0, 4
LVL_SALN = 0, 4
LVL_TEMP = 0, 4
LVL_TRC = 0, 4
LVL_UFLX = 0, 4
LVL_UTFLX = 0, 4
LVL_USFLX = 0, 4
LVL_UMFLTD = 0, 0
LVL_UTFLTD = 0, 0
LVL_UTFLLD = 0, 0
LVL_USFLTD = 0, 0
LVL_USFLLD = 0, 0
LVL_UVEL = 0, 4
LVL_VFLX = 0, 4
LVL_VTFLX = 0, 4
LVL_VSFLX = 0, 4
LVL_VMFLTD = 0, 0
LVL_VTFLTD = 0, 0
LVL_VTFLLD = 0, 0
LVL_VSFLTD = 0, 0
LVL_VSFLLD = 0, 0
LVL_VVEL = 0, 4
LVL_WFLX = 0, 4
LVL_WFLX2 = 0, 4
LVL_PV = 0, 4
LVL_TKE = 0, 0
LVL_GLS_PSI = 0, 0
LVL_IDLAGE = 0, 4
MSC_MMFLXL = 0, 0
MSC_MMFLXD = 0, 0
MSC_MMFTDL = 0, 0
MSC_MMFTDD = 0, 0
MSC_MHFLX = 0, 0
MSC_MHFTD = 0, 0
MSC_MHFLD = 0, 0
MSC_MSFLX = 0, 0
MSC_MSFTD = 0, 0
MSC_MSFLD = 0, 0
MSC_VOLTR = 0, 0
MSC_MASSGS = 4, 0
MSC_VOLGS = 4, 0
MSC_SALNGA = 4, 0
MSC_TEMPGA = 4, 0
MSC_SSSGA = 4, 0
MSC_SSTGA = 4, 0
/
Raw
limits
! LIMITS NAMELIST
!
! CONTENTS:
!
! NDAY1 : First day of integration (i)
! NDAY2 : Last day of integration (i)
! IDATE : Model date in YYYYMMDD (i)
! IDATE0 : Initial experiment date in YYYYMMDD (i)
! RUNID : Experiment name (a)
! EXPCNF : Experiment configuration (a)
! RUNTYP : CESM run type (a)
! GRFILE : Name of file containing grid specification (a)
! ICFILE : Name of file containing initial conditions, that is either
! a valid restart file or 'inicon.nc' if climatological based
! initial conditions are desired (a)
! PREF : Reference pressure for potential density (g/cm/s2) (f)
! BACLIN : Baroclinic time step (sec) (f)
! BATROP : Barotropic time step (sec) (f)
! MDV2HI : Laplacian diffusion velocity for momentum dissipation (cm/s) (f)
! MDV2LO : Laplacian diffusion velocity for momentum dissipation (cm/s) (f)
! MDV4HI : Biharmonic diffusion velocity for momentum dissipation (cm/s) (f)
! MDV4LO : Biharmonic diffusion velocity for momentum dissipation (cm/s) (f)
! MDC2HI : Laplacian diffusivity for momentum dissipation (cm**2/s) (f)
! MDC2LO : Laplacian diffusivity for momentum dissipation (cm**2/s) (f)
! VSC2HI : Parameter in deformation-dependent Laplacian viscosity (f)
! VSC2LO : Parameter in deformation-dependent Laplacian viscosity (f)
! VSC4HI : Parameter in deformation-dependent Biharmonic viscosity (f)
! VSC4LO : Parameter in deformation-dependent Biharmonic viscosity (f)
! CBAR : rms flow speed for linear bottom friction law (cm/s) (f)
! CB : Nondiemnsional coefficient of quadratic bottom friction (f)
! CWBDTS : Coastal wave breaking damping resiprocal time scale (1/s) (f)
! CWBDLS : Coastal wave breaking damping length scale (m) (f)
! MOMMTH : Momentum equation discretization method. Valid methods:
! 'enscon' (Sadourny (1975) enstrophy conserving), 'enecon'
! (Sadourny (1975) energy conserving), 'enedis' (Sadourny
! (1975) energy conserving with some dissipation) (a)
! EITMTH : Eddy-induced transport parameterization method. Valid
! methods: 'intdif', 'gm' (a)
! EDRITP : Type of Richardson number used in eddy diffusivity
! computation. Valid types: 'shear', 'large scale' (a)
! BMCMTH : Baroclinic mass flux correction method. Valid methods:
! 'uc' (upstream column), 'dluc' (depth limited upstream
! column) (a)
! RMPMTH : Method of applying eddy-induced transport in the remap
! transport algorithm. Valid methods: 'eitvel', 'eitflx' (a)
! EDWMTH : Method to estimate eddy diffusivity weight as a function of
! the ration of Rossby radius of deformation to the
! horizontal grid spacing. Valid methods: 'smooth', 'step' (a)
! MLRTTP : Type of mixed layer restratification time scale. Valid
! types: 'variable', 'constant', 'limited' (a)
! EDSPRS : Apply eddy mixing suppression away from steering level (l)
! EGC : Parameter c in Eden and Greatbatch (2008) parameterization (f)
! EGGAM : Parameter gamma in E. & G. (2008) param. (f)
! EGLSMN : Minimum eddy length scale in E. & G. (2008) param. (cm) (f)
! EGMNDF : Minimum diffusivity in E. & G. (2008) param. (cm**2/s) (f)
! EGMXDF : Maximum diffusivity in E. & G. (2008) param. (cm**2/s) (f)
! EGIDFQ : Factor relating the isopycnal diffusivity to the layer
! interface diffusivity in the Eden and Greatbatch (2008)
! parameterization. egidfq=difint/difiso () (f)
! RI0 : Critical gradient richardson number for shear driven
! vertical mixing () (f)
! RM0 : Efficiency factor of wind TKE generation in the Oberhuber
! (1993) TKE closure () (f)
! RM5 : Efficiency factor of TKE generation by momentum
! entrainment in the Oberhuber (1993) TKE closure () (f)
! CE : Efficiency factor for the restratification by mixed layer
! eddies (Fox-Kemper et al., 2008) () (f)
! BDMTYP : Type of background diapycnal mixing. If bdmtyp=1 the
! background diffusivity is a constant divided by the
! Brunt-Vaisala frequency, if bdmtyp=2 the background
! diffusivity is constant () (i)
! BDMC1 : Background diapycnal diffusivity times buoyancy frequency
! frequency (cm**2/s**2) (f)
! BDMC2 : Background diapycnal diffusivity (cm**2/s) (f)
! TDFILE : Name of file containing tidal wave energy dissipation
! divided by by bottom buoyancy frequency (a)
! TKEPF : Fraction of surface TKE that penetrates beneath mixed layer
! () (f)
! NIWGF : Global factor applied to the energy input by near-intertial
! motions () (f)
! NIWBF : Fraction of near-inertial energy dissipated in the boundary
! layer () (f)
! NIWLF : Fraction of near-inertial energy dissipated locally beneath
! the boundary layer () (f)
! SWAMTH : Shortwave radiation absorption method. Valid methods:
! 'top-layer', 'jerlov', 'chlorophyll' (a)
! JWTYPE : Number indicating the Jerlov (1968) water type (i)
! CHLOPT : Chlorophyll concentration option. Valid options:
! 'climatology' (a)
! CCFILE : Name of file containing chlorophyll concentration climatology (a)
! TRXDAY : e-folding time scale (days) for SST relax., if 0 no relax. (f)
! SRXDAY : e-folding time scale (days) for SSS relax., if 0 no relax. (f)
! TRXDPT : Maximum mixed layer depth for e-folding SST relaxation (m) (f)
! SRXDPT : Maximum mixed layer depth for e-folding SSS relaxation (m) (f)
! TRXLIM : Max. absolute value of SST difference in relaxation (degC) (f)
! SRXLIM : Max. absolute value of SSS difference in relaxation (psu) (f)
! APTFLX : Apply diagnosed heat flux flag (l)
! APSFLX : Apply diagnosed freshwater flux flag (l)
! DITFLX : Diagnose heat flux flag (l)
! DISFLX : Diagnose freshwater flux flag (l)
! SRXBAL : Balance the SSS relaxation (l)
! SCFILE : Name of file containing SSS climatology used for relaxation (a)
! SMTFRC : Smooth CESM forcing (l)
! SPRFAC : Send precipitation/runoff factor to CESM coupler (l)
! ATM_PATH : Path to forcing fields in case of EXPCNF 'ben02clim' or
! 'ben02syn' (a)
! ITEST : Global i-index of point diagnostics (i)
! JTEST : Global j-index of point diagnostics (i)
! RSTFRQ : Restart frequency in days (30=1month,365=1year) (i)
! RSTFMT : Format of restart file (valid arguments are 0 for classic,
! 1 for 64-bit offset and 2 for netcdf4/hdf5 format) (i)
! RSTCMP : Compression flag for restart file (i)
! IOTYPE : 0 = netcdf, 1 = pnetcdf
&LIMITS
NDAY1 = 0
NDAY2 = 10
IDATE = 20000101
IDATE0 = 20000101
RUNID = 'BLOM_fuk95'
EXPCNF = 'fuk95'
RUNTYP = 'unset'
GRFILE = 'unset'
ICFILE = 'unset'
PREF = 0.
BACLIN = 180.
BATROP = 6.
MDV2HI = 0.
MDV2LO = 0.
MDV4HI = 0.
MDV4LO = 0.
MDC2HI = 0.
MDC2LO = 0.
VSC2HI = .2
VSC2LO = .2
VSC4HI = 0.
VSC4LO = 0.
CBAR = 5.
CB = .002
CWBDTS = 0.
CWBDLS = 25.
MOMMTH = 'enscon'
EITMTH = 'gm'
EDRITP = 'large scale'
BMCMTH = 'uc'
RMPMTH = 'eitvel'
EDWMTH = 'smooth'
MLRTTP = 'constant'
EDSPRS = .true.
EGC = 0.
EGGAM = 200.
EGLSMN = 4000.e2
EGMNDF = 0.
EGMXDF = 1500.e4
EGIDFQ = 1.
RI0 = 1.2
RM0 = 1.2
RM5 = 0.
CE = 0.
BDMTYP = 2
BDMC1 = 5.e-4
BDMC2 = .15
TDFILE = 'unset'
TKEPF = 0.
NIWGF = 0.
NIWBF = .35
NIWLF = .5
SWAMTH = 'jerlov'
JWTYPE = 3
CHLOPT = 'climatology'
CCFILE = 'unset'
TRXDAY = 0.
SRXDAY = 0.
TRXDPT = 1.
SRXDPT = 1.
TRXLIM = 1.5
SRXLIM = .5
APTFLX = .false.
APSFLX = .false.
DITFLX = .false.
DISFLX = .false.
SRXBAL = .false.
SCFILE = 'unset'
SMTFRC = .false.
SPRFAC = .false.
ATM_PATH = 'unset'
ITEST = 78
JTEST = 16
RSTFRQ = 1
RSTFMT = 1
RSTCMP = 1
IOTYPE = 0
/
! NAMELIST FOR CHANNEL WIDTH MODIFICATIONS
!
! CONTENTS:
!
! CWMTAG : Array of geographical names of channels to be modified (a)
! CWMEDG : Array of C grid cell edges to be modified. Valid options:
! 'u' or 'v' (a)
! CWMI : Array of grid cell i-indices (i)
! CWMJ : Array of grid cell j-indices (i)
! CWMWTH : Array of modified grid cell widths (m) (f)
!
!&CWMOD
! CWMTAG =
! CWMEDG =
! CWMI =
! CWMJ =
! CWMWTH =
!/
! NAMELIST FOR MERIDIONAL OVERTURNING AND FLUX DIAGNOSTICS
!
! CONTENTS:
!
! MER_ORFILE : Name of file containing ocean region specification (a)
! MER_MIFILE : Name of file containing zonal section specification for
! meridional transport computation (a)
! MER_REGNAM : Array of region names for meridional overturning and flux
! diagnostics (a)
! MER_REGFLG : Array of mask flags in ocean regions file to be included
! for each region (i)
! MER_MINLAT : Minimum latitude to be considered for each region (f)
! MER_MAXLAT : Maximum latitude to be considered for each region (f)
!
!&MERDIA
! MER_ORFILE =
! MER_MIFILE =
! MER_REGNAM =
! MER_REGFLG(1,:) =
! MER_MINLAT =
! MER_MAXLAT =
!/
! NAMELIST FOR SECTION TRANSPORT DIAGNOSTICS
!
! CONTENTS:
!
! SEC_SIFILE : Name of file containing section specification for section
! transport computation (a)
!
!&SECDIA
! SEC_SIFILE =
!/
! IO-NAMELIST FOR DIAGNOSTIC OUTPUT
!
! Description:
! BLOM supports multiple output groups for its diagnostic output.
! Each output group is represented by one column in the namlist and may
! have its own output format, averaging period, and file frequency.
! The maximum number of output groups is currently limited to 10 but
! can be changed easily in mod_dia.F.
!
! The output precision can be choosen on a per-variable basis.
!
! Multiple time-slices can be written to the same output file
! provided that no variable is written in packed data format
! (i.e. as int2 with scale factor and offset).
!
! Compression of the output (i.e. storage of only wet points)
! and the file format can be choosen on a per-file basis.
!
! All time periods are specified in number of days for positive
! integer values and fraction of day for negative integer values.
! The length of the actual calendar month is used if 30 is written.
! The length of the actual calendar year is used if 365 is written.
! A variable is not written when 0 is specified.
!
! Namelist acronyms:
! GLB_ - global parameters i.e. valid for entire output group
! H2D_ - 2d fields with the horizontal dimensions
! LYR_ - 3d fields with sigma layers as vertical coordinate
! LVL_ - 3d fields with levitus leves as vertical coordinate
! MSC_ - miscellanous, non-gridded fields
!
! Global parameters:
! FNAMETAG - tag used in file name (c10)
! AVEPERIO - average period in days (i)
! FILEFREQ - how often to start a new file in days (i)
! COMPFLAG - switch for compressed/uncompressed output (i)
! NCFORMAT - netcdf format (valid arguments are 0 for classic,
! 1 for 64-bit offset and 2 for netcdf4/hdf5 format)
!
! Arguments for diagnostic variables:
! 0 - variable is not written
! 2 - variable is written as int2 with scale factor and offset
! 4 - variable is written as real4
! 8 - variable is written as real8
!
! Output variables:
! ABSWND - absolute wind speed [m s-1]
! ALB - surface albedo []
! BTMSTR - Barotropic mass streamfunction [kg s-1]
! BRNFLX - brine flux [kg m-2 s-1]
! BRNPD - brine plume depth [m]
! DFL - non-solar heat flux derivative [W m-2 K-1]
! EVA - evaporation [kg m-2 s-1]
! FICE - ice concentration [%]
! FMLTFZ - fresh water flux due to melting/freezing [kg m-2 s-1]
! HICE - ice thickness [m]
! HMLTFZ - heat flux due to melting/freezing [W m-2]
! HSNW - snow depth [m]
! IAGE - ice age [d]
! IDKEDT - mixed layer inertial kinetic energy tendency [kg s-3]
! LIP - liquid precipitation [kg m-2 s-1]
! MAXMLD - maximum mixed layer depth [m]
! MLD - mixed layer depth [m]
! MLDU - mixed layer depth at u-point [m]
! MLDV - mixed layer depth at v-point [m]
! MLTS - mixed layer thickness using "sigma-t" criterion [m]
! MLTSMN - minimum mixed layer thickness using "sigma-t" criterion [m]
! MLTSMX - maximum mixed layer thickness using "sigma-t" criterion [m]
! MLTSSQ - mixed layer thickness squared using "sigma-t" criterion [m2]
! MTKEUS - mixed layer TKE tendency related to friction velocity [kg s-3]
! MTKENI - mixed layer TKE tendency related to near inertial mot. [kg s-3]
! MTKEBF - mixed layer TKE tendency related to buoyancy forcing [kg s-3]
! MTKERS - mixed layer TKE tendency related to eddy restrat. [kg s-3]
! MTKEPE - mixed layer TKE tendency related to pot. energy change [kg s-3]
! MTKEKE - mixed layer TKE tendency related to kin. energy change [kg s-3]
! MTY - wind stress y-component [N m-2]
! MXLU - mixed layer velocity x-component [m s-1]
! MXLV - mixed layer velocity y-component [m s-1]
! NSF - non-solar heat flux [W m-2]
! PBOT - bottom pressure [Pa]
! PSRF - surface pressure [Pa]
! RFIFLX - frozen runoff [kg m-2 s-1]
! RNFFLX - liquid runoff [kg m-2 s-1]
! SALFLX - salt flux received by ocean [kg m-2 s-1]
! SALRLX - restoring salt flux received by ocean [kg m-2 s-1]
! SBOT - bottom salinity [g kg-1]
! SEALV - sea level [m]
! SLVSQ - sea level squared [m2]
! SFL - salt flux [kg m-2 s-1]
! SOP - solid precipitation [kg m-2 s-1]
! SIGMX - mixed layer density [kg m-3]
! SSS - ocean surface salinity [g kg-1]
! SSSSQ - ocean surface salinity squared [g2 kg-2]
! SST - ocean surface temperature [degC]
! SSTSQ - ocean surface temperature squared [degC2]
! SURFLX - heat flux received by ocean [W m-2]
! SURRLX - restoring heat flux received by ocean [W m-2]
! SWA - short-wave heat flux [W m-2]
! T20D - 20C isoterm depth [m]
! TAUX - momentum flux received by ocean x-component [N m-2]
! TAUY - momentum flux received by ocean y-component [N m-2]
! TBOT - bottom temperature [degC]
! TICE - ice temperature [degC]
! TSRF - surface temperature [degC]
! UB - barotropic velocity x-component [m s-1]
! UICE - ice velocity x-component [m s-1]
! USTAR - friction velocity [m s-1]
! USTAR3 - friction velocity cubed [m3 s-3]
! VB - barotropic velocity y-component [m s-1]
! VICE - ice velocity y-component [m s-1]
! ZTX - wind stress x-component [N m-2]
! BFSQ - buoyancy frequency squared [s-1]
! DIFDIA - diapycnal diffusivity [log10(m2 s-1)]
! DIFINT - layer interface diffusivity [log10(m2 s-1)]
! DIFISO - isopycnal diffusivity [log10(m2 s-1)]
! DP - layer pressure thickness [Pa]
! DZ - layer thickness [m]
! SALN - salinity [g kg-1]
! TEMP - temperature [degC]
! TRC - tracer []
! UFLX - mass flux in x-direction [kg s-1]
! UTFLX - heat flux in x-direction [W]
! USFLX - salt flux in x-direction [kg s-1]
! UMFLTD - mass flux due to thickness diffusion in x-direction [kg s-1]
! UTFLTD - heat flux due to thickness diffusion in x-direction [W]
! UTFLLD - heat flux due to lateral diffusion in x-direction [W]
! USFLTD - salt flux due to thickness diffusion in x-direction [kg s-1]
! USFLLD - salt flux due to lateral diffusion in x-direction [kg s-1]
! UVEL - velocity x-component [m s-1]
! VFLX - mass flux in y-direction [kg s-1]
! VTFLX - heat flux in y-direction [W]
! VSFLX - salt flux in y-direction [kg s-1]
! VMFLTD - mass flux due to thickness diffusion in y-direction [kg s-1]
! VTFLTD - heat flux due to thickness diffusion in y-direction [W]
! VTFLLD - heat flux due to lateral diffusion in y-direction [W]
! VSFLTD - salt flux due to thickness diffusion in y-direction [kg s-1]
! VSFLLD - salt flux due to lateral diffusion in y-direction [kg s-1]
! VVEL - velocity x-component [m s-1]
! WFLX - vertical mass flux [kg s-1]
! WFLX2 - vertical mass flux squared [kg2 s-2]
! PV - potential vorticity [m-1 s-1]
! TKE - turbulent kinetic energy [m2 s-2]
! GLS_PSI - generic length scale [m2 s-3]
! IDLAGE - ideal age [year]
! MMFLXL - meridional overturning circ. (MOC) on isopycnic layers [kg s-1]
! MMFLXD - MOC on z-levels [kg s-1]
! MMFTDL - MOC due to thickness diffusion on isopycnic layers [kg s-1]
! MMFTDD - MOC due to thickness diffusion on z-levels [kg s-1]
! MHFLX - meridional heat flux [W]
! MHFTD - meridional heat flux due to thickness diffusion [W]
! MHFLD - meridional heat flux due to lateral diffusion [W]
! MSFLX - meridional salt flux [kg s-1]
! MSFTD - meridional salt flux due to thickness diffusion [kg s-1]
! MSFLD - meridional salt flux due to lateral diffusion [kg s-1]
! VOLTR - section transports [kg s-1]
! MASSGS - global sum of mass [kg]
! VOLGS - global sum of volume [m3]
! SALNGA - global average temperature [degC]
! TEMPGA - global average temperature [degC]
! SSSGA - global average sea surface salinity [g kg-1]
! SSTGA - global average sea surface temperature [degC]
!
&DIAPHY
GLB_FNAMETAG = 'hd','hm'
GLB_AVEPERIO =-8, -8
GLB_FILEFREQ =-8, -8
GLB_COMPFLAG = 0, 0
GLB_NCFORMAT = 0, 0
H2D_ABSWND = 0, 0
H2D_ALB = 0, 0
H2D_BTMSTR = 0, 4
H2D_BRNFLX = 0, 0
H2D_BRNPD = 0, 0
H2D_DFL = 0, 0
H2D_EVA = 0, 0
H2D_FICE = 0, 0
H2D_FMLTFZ = 0, 0
H2D_HICE = 0, 0
H2D_HMLTFZ = 0, 0
H2D_HSNW = 0, 0
H2D_IAGE = 0, 0
H2D_IDKEDT = 0, 4
H2D_LIP = 0, 0
H2D_MAXMLD = 4, 4
H2D_MLD = 0, 4
H2D_MLDU = 0, 0
H2D_MLDV = 0, 0
H2D_MLTS = 0, 4
H2D_MLTSMN = 0, 4
H2D_MLTSMX = 0, 4
H2D_MLTSSQ = 0, 4
H2D_MTKEUS = 0, 0
H2D_MTKENI = 0, 0
H2D_MTKEBF = 0, 0
H2D_MTKERS = 0, 0
H2D_MTKEPE = 0, 4
H2D_MTKEKE = 0, 4
H2D_MTY = 0, 0
H2D_MXLU = 4, 4
H2D_MXLV = 4, 4
H2D_NSF = 0, 0
H2D_PBOT = 0, 4
H2D_PSRF = 0, 0
H2D_RFIFLX = 0, 0
H2D_RNFFLX = 0, 0
H2D_SALFLX = 0, 0
H2D_SALRLX = 0, 0
H2D_SBOT = 0, 4
H2D_SEALV = 4, 4
H2D_SLVSQ = 0, 4
H2D_SFL = 0, 4
H2D_SOP = 0, 4
H2D_SIGMX = 0, 4
H2D_SSS = 0, 4
H2D_SSSSQ = 0, 4
H2D_SST = 4, 4
H2D_SSTSQ = 4, 4
H2D_SURFLX = 0, 0
H2D_SURRLX = 0, 0
H2D_SWA = 0, 0
H2D_T20D = 0, 0
H2D_TAUX = 0, 0
H2D_TAUY = 0, 0
H2D_TBOT = 0, 4
H2D_TICE = 0, 0
H2D_TSRF = 0, 0
H2D_UB = 4, 4
H2D_UICE = 0, 0
H2D_USTAR = 0, 0
H2D_USTAR3 = 0, 0
H2D_VB = 4, 4
H2D_VICE = 0, 0
H2D_ZTX = 0, 0
LYR_BFSQ = 0, 4
LYR_DIFDIA = 0, 4
LYR_DIFINT = 0, 0
LYR_DIFISO = 0, 0
LYR_DP = 0, 4
LYR_DZ = 0, 4
LYR_SALN = 0, 4
LYR_TEMP = 0, 4
LYR_TRC = 0, 4
LYR_UFLX = 0, 4
LYR_UTFLX = 0, 4
LYR_USFLX = 0, 4
LYR_UMFLTD = 0, 0
LYR_UTFLTD = 0, 0
LYR_UTFLLD = 0, 0
LYR_USFLTD = 0, 0
LYR_USFLLD = 0, 0
LYR_UVEL = 0, 4
LYR_VFLX = 0, 4
LYR_VTFLX = 0, 4
LYR_VSFLX = 0, 4
LYR_VMFLTD = 0, 0
LYR_VTFLTD = 0, 0
LYR_VTFLLD = 0, 0
LYR_VSFLTD = 0, 0
LYR_VSFLLD = 0, 0
LYR_VVEL = 0, 4
LYR_WFLX = 0, 4
LYR_WFLX2 = 0, 4
LYR_PV = 0, 4
LYR_TKE = 0, 0
LYR_GLS_PSI = 0, 0
LYR_IDLAGE = 0, 4
LVL_BFSQ = 0, 4
LVL_DIFDIA = 0, 4
LVL_DIFINT = 0, 0
LVL_DIFISO = 0, 0
LVL_DZ = 0, 4
LVL_SALN = 0, 4
LVL_TEMP = 0, 4
LVL_TRC = 0, 4
LVL_UFLX = 0, 4
LVL_UTFLX = 0, 4
LVL_USFLX = 0, 4
LVL_UMFLTD = 0, 0
LVL_UTFLTD = 0, 0
LVL_UTFLLD = 0, 0
LVL_USFLTD = 0, 0
LVL_USFLLD = 0, 0
LVL_UVEL = 0, 4
LVL_VFLX = 0, 4
LVL_VTFLX = 0, 4
LVL_VSFLX = 0, 4
LVL_VMFLTD = 0, 0
LVL_VTFLTD = 0, 0
LVL_VTFLLD = 0, 0
LVL_VSFLTD = 0, 0
LVL_VSFLLD = 0, 0
LVL_VVEL = 0, 4
LVL_WFLX = 0, 4
LVL_WFLX2 = 0, 4
LVL_PV = 0, 4
LVL_TKE = 0, 0
LVL_GLS_PSI = 0, 0
LVL_IDLAGE = 0, 4
MSC_MMFLXL = 0, 0
MSC_MMFLXD = 0, 0
MSC_MMFTDL = 0, 0
MSC_MMFTDD = 0, 0
MSC_MHFLX = 0, 0
MSC_MHFTD = 0, 0
MSC_MHFLD = 0, 0
MSC_MSFLX = 0, 0
MSC_MSFTD = 0, 0
MSC_MSFLD = 0, 0
MSC_VOLTR = 0, 0
MSC_MASSGS = 4, 0
MSC_VOLGS = 4, 0
MSC_SALNGA = 4, 0
MSC_TEMPGA = 4, 0
MSC_SSSGA = 4, 0
MSC_SSTGA = 4, 0
/
Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment