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C $Header: /u/gcmpack/MITgcm/model/inc/PARAMS.h,v 1.242 2010/10/05 17:43:40 mlosch Exp $ |
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C $Name: $ |
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C |
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|
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CBOP |
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C !ROUTINE: PARAMS.h |
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C !INTERFACE: |
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C #include PARAMS.h |
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|
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C !DESCRIPTION: |
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C Header file defining model "parameters". The values from the |
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C model standard input file are stored into the variables held |
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C here. Notes describing the parameters can also be found here. |
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|
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CEOP |
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|
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C Macros for special grid options |
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#include "PARAMS_MACROS.h" |
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|
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C-- Contants |
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C Useful physical values |
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Real*8 PI |
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PARAMETER ( PI = 3.14159265358979323844D0 ) |
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Real*8 deg2rad |
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PARAMETER ( deg2rad = 2.D0*PI/360.D0 ) |
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|
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C-- COMMON /PARM_C/ Character valued parameters used by the model. |
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C buoyancyRelation :: Flag used to indicate which relation to use to |
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C get buoyancy. |
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C eosType :: choose the equation of state: |
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C LINEAR, POLY3, UNESCO, JMD95Z, JMD95P, MDJWF, IDEALGAS |
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C pickupSuff :: force to start from pickup files (even if nIter0=0) |
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C and read pickup files with this suffix (max 10 Char.) |
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C mdsioLocalDir :: read-write tiled file from/to this directory name |
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C (+ 4 digits Processor-Rank) instead of current dir. |
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C tRefFile :: File containing reference Potential Temperat. tRef (1.D) |
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C sRefFile :: File containing reference salinity/spec.humid. sRef (1.D) |
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C rhoRefFile :: File containing reference density profile rhoRef (1.D) |
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C delRFile :: File containing vertical grid spacing delR (1.D array) |
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C delRcFile :: File containing vertical grid spacing delRc (1.D array) |
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C hybSigmFile :: File containing hybrid-sigma vertical coord. coeff. (2x 1.D) |
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C delXFile :: File containing X-spacing grid definition (1.D array) |
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C delYFile :: File containing Y-spacing grid definition (1.D array) |
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C horizGridFile :: File containing horizontal-grid definition |
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C (only when using curvilinear_grid) |
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C bathyFile :: File containing bathymetry. If not defined bathymetry |
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C is taken from inline function. |
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C topoFile :: File containing the topography of the surface (unit=m) |
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C (mainly used for the atmosphere = ground height). |
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C hydrogThetaFile :: File containing initial hydrographic data (3-D) |
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C for potential temperature. |
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C hydrogSaltFile :: File containing initial hydrographic data (3-D) |
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C for salinity. |
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C diffKrFile :: File containing 3D specification of vertical diffusivity |
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C viscAhDfile :: File containing 3D specification of horizontal viscosity |
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C viscAhZfile :: File containing 3D specification of horizontal viscosity |
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C viscA4Dfile :: File containing 3D specification of horizontal viscosity |
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C viscA4Zfile :: File containing 3D specification of horizontal viscosity |
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C zonalWindFile :: File containing zonal wind data |
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C meridWindFile :: File containing meridional wind data |
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C thetaClimFile :: File containing surface theta climataology used |
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C in relaxation term -lambda(theta-theta*) |
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C saltClimFile :: File containing surface salt climataology used |
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C in relaxation term -lambda(salt-salt*) |
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C surfQfile :: File containing surface heat flux, excluding SW |
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C (old version, kept for backward compatibility) |
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C surfQnetFile :: File containing surface net heat flux |
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C surfQswFile :: File containing surface shortwave radiation |
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C dQdTfile :: File containing thermal relaxation coefficient |
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C EmPmRfile :: File containing surface fresh water flux |
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C NOTE: for backward compatibility EmPmRfile is specified in |
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C m/s when using external_fields_load.F. It is converted |
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C to kg/m2/s by multiplying by rhoConstFresh. |
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C saltFluxFile :: File containing surface salt flux |
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C pLoadFile :: File containing pressure loading |
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C eddyPsiXFile :: File containing zonal Eddy streamfunction data |
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C eddyPsiYFile :: File containing meridional Eddy streamfunction data |
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C the_run_name :: string identifying the name of the model "run" |
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COMMON /PARM_C/ |
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& buoyancyRelation, eosType, |
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& pickupSuff, mdsioLocalDir, |
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& tRefFile, sRefFile, rhoRefFile, |
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& delRFile, delRcFile, hybSigmFile, |
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& delXFile, delYFile, horizGridFile, |
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& bathyFile, topoFile, |
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& viscAhDfile, viscAhZfile, |
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& viscA4Dfile, viscA4Zfile, |
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& hydrogThetaFile, hydrogSaltFile, diffKrFile, |
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& zonalWindFile, meridWindFile, thetaClimFile, |
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& saltClimFile, |
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& EmPmRfile, saltFluxFile, |
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& surfQfile, surfQnetFile, surfQswFile, |
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& lambdaThetaFile, lambdaSaltFile, |
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& uVelInitFile, vVelInitFile, pSurfInitFile, |
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& dQdTfile, ploadFile, |
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& eddyPsiXFile, eddyPsiYFile, |
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& the_run_name |
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CHARACTER*(MAX_LEN_FNAM) buoyancyRelation |
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CHARACTER*(6) eosType |
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CHARACTER*(10) pickupSuff |
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CHARACTER*(MAX_LEN_FNAM) mdsioLocalDir |
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CHARACTER*(MAX_LEN_FNAM) tRefFile |
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CHARACTER*(MAX_LEN_FNAM) sRefFile |
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CHARACTER*(MAX_LEN_FNAM) rhoRefFile |
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CHARACTER*(MAX_LEN_FNAM) delRFile |
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CHARACTER*(MAX_LEN_FNAM) delRcFile |
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CHARACTER*(MAX_LEN_FNAM) hybSigmFile |
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CHARACTER*(MAX_LEN_FNAM) delXFile |
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CHARACTER*(MAX_LEN_FNAM) delYFile |
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CHARACTER*(MAX_LEN_FNAM) horizGridFile |
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CHARACTER*(MAX_LEN_FNAM) bathyFile, topoFile |
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CHARACTER*(MAX_LEN_FNAM) hydrogThetaFile, hydrogSaltFile |
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CHARACTER*(MAX_LEN_FNAM) diffKrFile |
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CHARACTER*(MAX_LEN_FNAM) viscAhDfile |
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CHARACTER*(MAX_LEN_FNAM) viscAhZfile |
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CHARACTER*(MAX_LEN_FNAM) viscA4Dfile |
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CHARACTER*(MAX_LEN_FNAM) viscA4Zfile |
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CHARACTER*(MAX_LEN_FNAM) zonalWindFile |
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CHARACTER*(MAX_LEN_FNAM) meridWindFile |
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CHARACTER*(MAX_LEN_FNAM) thetaClimFile |
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CHARACTER*(MAX_LEN_FNAM) saltClimFile |
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CHARACTER*(MAX_LEN_FNAM) surfQfile |
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CHARACTER*(MAX_LEN_FNAM) surfQnetFile |
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CHARACTER*(MAX_LEN_FNAM) surfQswFile |
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CHARACTER*(MAX_LEN_FNAM) EmPmRfile |
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CHARACTER*(MAX_LEN_FNAM) saltFluxFile |
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CHARACTER*(MAX_LEN_FNAM) uVelInitFile |
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CHARACTER*(MAX_LEN_FNAM) vVelInitFile |
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CHARACTER*(MAX_LEN_FNAM) pSurfInitFile |
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CHARACTER*(MAX_LEN_FNAM) dQdTfile |
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CHARACTER*(MAX_LEN_FNAM) ploadFile |
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CHARACTER*(MAX_LEN_FNAM) eddyPsiXFile |
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CHARACTER*(MAX_LEN_FNAM) eddyPsiYFile |
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CHARACTER*(MAX_LEN_FNAM) lambdaThetaFile |
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CHARACTER*(MAX_LEN_FNAM) lambdaSaltFile |
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CHARACTER*(MAX_LEN_PREC/2) the_run_name |
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|
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C-- COMMON /PARM_I/ Integer valued parameters used by the model. |
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C cg2dMaxIters :: Maximum number of iterations in the |
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C two-dimensional con. grad solver. |
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C cg2dChkResFreq :: Frequency with which to check residual |
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C in con. grad solver. |
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C cg2dPreCondFreq :: Frequency for updating cg2d preconditioner |
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C (non-linear free-surf.) |
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C cg3dMaxIters :: Maximum number of iterations in the |
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C three-dimensional con. grad solver. |
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C cg3dChkResFreq :: Frequency with which to check residual |
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C in con. grad solver. |
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C nIter0 :: Start time-step number of for this run |
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C nTimeSteps :: Number of timesteps to execute |
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C writeStatePrec :: Precision used for writing model state. |
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C writeBinaryPrec :: Precision used for writing binary files |
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C readBinaryPrec :: Precision used for reading binary files |
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C selectCoriMap :: select setting of Coriolis parameter map: |
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C =0 f-Plane (Constant Coriolis, = f0) |
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C =1 Beta-Plane Coriolis (= f0 + beta.y) |
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C =2 Spherical Coriolis (= 2.omega.sin(phi)) |
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C =3 Read Coriolis 2-d fields from files. |
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C selectSigmaCoord :: option related to sigma vertical coordinate |
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C nonlinFreeSurf :: option related to non-linear free surface |
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C =0 Linear free surface ; >0 Non-linear |
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C select_rStar :: option related to r* vertical coordinate |
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C =0 (default) use r coord. ; > 0 use r* |
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C selectNHfreeSurf :: option for Non-Hydrostatic (free-)Surface formulation: |
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C =0 (default) hydrostatic surf. ; > 0 add NH effects. |
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C selectAddFluid :: option to add mass source/sink of fluid in the interior |
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C (3-D generalisation of oceanic real-fresh water flux) |
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C =0 off ; =1 add fluid ; =-1 virtual flux (no mass added) |
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C momForcingOutAB :: =1: take momentum forcing contribution |
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C out of (=0: in) Adams-Bashforth time stepping. |
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C tracForcingOutAB :: =1: take tracer (Temp,Salt,pTracers) forcing contribution |
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C out of (=0: in) Adams-Bashforth time stepping. |
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C tempAdvScheme :: Temp. Horiz.Advection scheme selector |
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C tempVertAdvScheme :: Temp. Vert. Advection scheme selector |
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C saltAdvScheme :: Salt. Horiz.advection scheme selector |
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C saltVertAdvScheme :: Salt. Vert. Advection scheme selector |
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C selectKEscheme :: Kinetic Energy scheme selector (Vector Inv.) |
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C selectVortScheme :: Scheme selector for Vorticity term (Vector Inv.) |
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C monitorSelect :: select group of variables to monitor |
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C =1 : dynvars ; =2 : + vort ; =3 : + surface |
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C debugLevel :: debug level selector: higher -> more writing |
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|
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COMMON /PARM_I/ |
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& cg2dMaxIters, |
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& cg2dChkResFreq, cg2dPreCondFreq, |
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& cg3dMaxIters, |
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& cg3dChkResFreq, |
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& nIter0, nTimeSteps, nEndIter, |
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& writeStatePrec, |
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& writeBinaryPrec, readBinaryPrec, |
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& selectCoriMap, |
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& selectSigmaCoord, |
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& nonlinFreeSurf, select_rStar, |
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& selectNHfreeSurf, |
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& selectAddFluid, |
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& momForcingOutAB, tracForcingOutAB, |
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& tempAdvScheme, tempVertAdvScheme, |
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& saltAdvScheme, saltVertAdvScheme, |
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& selectKEscheme, selectVortScheme, |
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& monitorSelect, debugLevel |
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INTEGER cg2dMaxIters |
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INTEGER cg2dChkResFreq |
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INTEGER cg2dPreCondFreq |
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INTEGER cg3dMaxIters |
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INTEGER cg3dChkResFreq |
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INTEGER nIter0 |
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INTEGER nTimeSteps |
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INTEGER nEndIter |
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INTEGER writeStatePrec |
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INTEGER writeBinaryPrec |
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INTEGER readBinaryPrec |
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INTEGER selectCoriMap |
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INTEGER selectSigmaCoord |
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INTEGER nonlinFreeSurf |
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INTEGER select_rStar |
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INTEGER selectNHfreeSurf |
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INTEGER selectAddFluid |
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INTEGER momForcingOutAB, tracForcingOutAB |
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INTEGER tempAdvScheme, tempVertAdvScheme |
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INTEGER saltAdvScheme, saltVertAdvScheme |
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INTEGER selectKEscheme |
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INTEGER selectVortScheme |
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INTEGER monitorSelect |
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INTEGER debugLevel |
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|
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C-- COMMON /PARM_L/ Logical valued parameters used by the model. |
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C- Coordinate + Grid params: |
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C fluidIsAir :: Set to indicate that the fluid major constituent |
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C is air |
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C fluidIsWater :: Set to indicate that the fluid major constituent |
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C is water |
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C usingPCoords :: Set to indicate that we are working in a pressure |
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C type coordinate (p or p*). |
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C usingZCoords :: Set to indicate that we are working in a height |
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C type coordinate (z or z*) |
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C useDynP_inEos_Zc :: use the dynamical pressure in EOS (with Z-coord.) |
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C this requires specific code for restart & exchange |
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C usingCartesianGrid :: If TRUE grid generation will be in a cartesian |
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C coordinate frame. |
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C usingSphericalPolarGrid :: If TRUE grid generation will be in a |
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C spherical polar frame. |
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C rotateGrid :: rotate grid coordinates to geographical coordinates |
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C according to Euler angles phiEuler, thetaEuler, psiEuler |
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C usingCurvilinearGrid :: If TRUE, use a curvilinear grid (to be provided) |
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C usingCylindricalGrid :: If TRUE grid generation will be Cylindrical |
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C deepAtmosphere :: deep model (drop the shallow-atmosphere approximation) |
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C setInterFDr :: set Interface depth (put cell-Center at the middle) |
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C setCenterDr :: set cell-Center depth (put Interface at the middle) |
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C- Momentum params: |
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C no_slip_sides :: Impose "no-slip" at lateral boundaries. |
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C no_slip_bottom :: Impose "no-slip" at bottom boundary. |
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C useFullLeith :: Set to true to use full Leith viscosity(may be unstable |
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C on irregular grids) |
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C useStrainTensionVisc:: Set to true to use Strain-Tension viscous terms |
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C useAreaViscLength :: Set to true to use old scaling for viscous lengths, |
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C e.g., L2=Raz. May be preferable for cube sphere. |
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C momViscosity :: Flag which turns momentum friction terms on and off. |
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C momAdvection :: Flag which turns advection of momentum on and off. |
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C momForcing :: Flag which turns external forcing of momentum on |
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C and off. |
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C momPressureForcing :: Flag which turns pressure term in momentum equation |
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C on and off. |
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C metricTerms :: Flag which turns metric terms on or off. |
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C useNHMTerms :: If TRUE use non-hydrostatic metric terms. |
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C useCoriolis :: Flag which turns the coriolis terms on and off. |
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C use3dCoriolis :: Turns the 3-D coriolis terms (in Omega.cos Phi) on - off |
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C useCDscheme :: use CD-scheme to calculate Coriolis terms. |
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C vectorInvariantMomentum :: use Vector-Invariant form (mom_vecinv package) |
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C (default = F = use mom_fluxform package) |
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C useJamartWetPoints :: Use wet-point method for Coriolis (Jamart & Ozer 1986) |
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C useJamartMomAdv :: Use wet-point method for V.I. non-linear term |
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C upwindVorticity :: bias interpolation of vorticity in the Coriolis term |
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C highOrderVorticity :: use 3rd/4th order interp. of vorticity (V.I., advection) |
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C useAbsVorticity :: work with f+zeta in Coriolis terms |
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C upwindShear :: use 1rst order upwind interp. (V.I., vertical advection) |
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C momStepping :: Turns momentum equation time-stepping off |
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C- Temp. & Salt params: |
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C tempStepping :: Turns temperature equation time-stepping off |
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C saltStepping :: Turns salinity equation time-stepping off |
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C tempAdvection :: Flag which turns advection of temperature on and off. |
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C tempIsActiveTr :: Pot.Temp. is a dynamically active tracer |
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C tempForcing :: Flag which turns external forcing of temperature on |
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C and off. |
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C saltAdvection :: Flag which turns advection of salinity on and off. |
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C saltIsActiveTr :: Salinity is a dynamically active tracer |
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C saltForcing :: Flag which turns external forcing of salinity on |
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C and off. |
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C maskIniTemp :: apply mask to initial Pot.Temp. |
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C maskIniSalt :: apply mask to initial salinity |
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C checkIniTemp :: check for points with identically zero initial Pot.Temp. |
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C checkIniSalt :: check for points with identically zero initial salinity |
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C useRealFreshWaterFlux :: if True (=Natural BCS), treats P+R-E flux |
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C as a real Fresh Water (=> changes the Sea Level) |
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C if F, converts P+R-E to salt flux (no SL effect) |
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C- Pressure solver related parameters (PARM02) |
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C useSRCGSolver :: Set to true to use conjugate gradient |
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C solver with single reduction (only one call of |
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C s/r mpi_allreduce), default is false |
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C- Time-stepping params: |
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C rigidLid :: Set to true to use rigid lid |
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C implicitFreeSurface :: Set to true to use implicit free surface |
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C exactConserv :: Set to true to conserve exactly the total Volume |
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C linFSConserveTr :: Set to true to correct source/sink of tracer |
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C at the surface due to Linear Free Surface |
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C uniformLin_PhiSurf :: Set to true to use a uniform Bo_surf in the |
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C linear relation Phi_surf = Bo_surf*eta |
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C quasiHydrostatic :: Using non-hydrostatic terms in hydrostatic algorithm |
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C nonHydrostatic :: Using non-hydrostatic algorithm |
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C use3Dsolver :: set to true to use 3-D pressure solver |
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C implicitIntGravWave :: treat Internal Gravity Wave implicitly |
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C staggerTimeStep :: enable a Stagger time stepping U,V (& W) then T,S |
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C implicitDiffusion :: Turns implicit vertical diffusion on |
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C implicitViscosity :: Turns implicit vertical viscosity on |
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C tempImplVertAdv :: Turns on implicit vertical advection for Temperature |
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C saltImplVertAdv :: Turns on implicit vertical advection for Salinity |
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C momImplVertAdv :: Turns on implicit vertical advection for Momentum |
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C multiDimAdvection :: Flag that enable multi-dimension advection |
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C useMultiDimAdvec :: True if multi-dim advection is used at least once |
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C momDissip_In_AB :: if False, put Dissipation tendency contribution |
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C out off Adams-Bashforth time stepping. |
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C doAB_onGtGs :: if the Adams-Bashforth time stepping is used, always |
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C apply AB on tracer tendencies (rather than on Tracer) |
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C- Other forcing params - |
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C balanceEmPmR :: substract global mean of EmPmR at every time step |
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C balanceQnet :: substract global mean of Qnet at every time step |
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C balancePrintMean:: print substracted global means to STDOUT |
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C doThetaClimRelax :: Set true if relaxation to temperature |
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C climatology is required. |
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C doSaltClimRelax :: Set true if relaxation to salinity |
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C climatology is required. |
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C allowFreezing :: Allows surface water to freeze and form ice |
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C useOldFreezing :: use the old version (before checkpoint52a_pre, 2003-11-12) |
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C periodicExternalForcing :: Set true if forcing is time-dependant |
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C- I/O parameters - |
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C globalFiles :: Selects between "global" and "tiled" files. |
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C On some platforms with MPI, option globalFiles is either |
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C slow or does not work. Use useSingleCpuIO instead. |
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C useSingleCpuIO :: moved to EEPARAMS.h |
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C pickupStrictlyMatch :: check and stop if pickup-file do not stricly match |
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C startFromPickupAB2 :: with AB-3 code, start from an AB-2 pickup |
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C usePickupBeforeC54 :: start from old-pickup files, generated with code from |
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C before checkpoint-54a, Jul 06, 2004. |
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C pickup_write_mdsio :: use mdsio to write pickups |
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C pickup_read_mdsio :: use mdsio to read pickups |
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C pickup_write_immed :: echo the pickup immediately (for conversion) |
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C writePickupAtEnd :: write pickup at the last timestep |
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C timeave_mdsio :: use mdsio for timeave output |
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C snapshot_mdsio :: use mdsio for "snapshot" (dumpfreq/diagfreq) output |
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C monitor_stdio :: use stdio for monitor output |
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C dumpInitAndLast :: dumps model state to files at Initial (nIter0) |
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C & Last iteration, in addition multiple of dumpFreq iter. |
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|
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COMMON /PARM_L/ |
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& fluidIsAir, fluidIsWater, |
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& usingPCoords, usingZCoords, useDynP_inEos_Zc, |
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& usingCartesianGrid, usingSphericalPolarGrid, rotateGrid, |
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& usingCurvilinearGrid, usingCylindricalGrid, |
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& deepAtmosphere, setInterFDr, setCenterDr, |
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& no_slip_sides, no_slip_bottom, |
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& useFullLeith, useStrainTensionVisc, useAreaViscLength, |
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& momViscosity, momAdvection, momForcing, |
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& momPressureForcing, metricTerms, useNHMTerms, |
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& useCoriolis, use3dCoriolis, |
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& useCDscheme, vectorInvariantMomentum, |
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& useEnergyConservingCoriolis, useJamartWetPoints, useJamartMomAdv, |
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& upwindVorticity, highOrderVorticity, |
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& useAbsVorticity, upwindShear, |
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& momStepping, tempStepping, saltStepping, |
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& tempAdvection, tempIsActiveTr, tempForcing, |
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& saltAdvection, saltIsActiveTr, saltForcing, |
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& maskIniTemp, maskIniSalt, checkIniTemp, checkIniSalt, |
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& useRealFreshWaterFlux, |
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& rigidLid, implicitFreeSurface, exactConserv, linFSConserveTr, |
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& uniformLin_PhiSurf, |
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& quasiHydrostatic, nonHydrostatic, |
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& use3Dsolver, implicitIntGravWave, staggerTimeStep, |
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& implicitDiffusion, implicitViscosity, |
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& tempImplVertAdv, saltImplVertAdv, momImplVertAdv, |
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& multiDimAdvection, useMultiDimAdvec, |
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& momDissip_In_AB, doAB_onGtGs, |
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& balanceEmPmR, balanceQnet, balancePrintMean, |
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& doThetaClimRelax, doSaltClimRelax, |
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& allowFreezing, useOldFreezing, |
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& periodicExternalForcing, |
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& globalFiles, |
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& pickupStrictlyMatch, usePickupBeforeC54, startFromPickupAB2, |
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& pickup_read_mdsio, pickup_write_mdsio, pickup_write_immed, |
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& writePickupAtEnd, |
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& timeave_mdsio, snapshot_mdsio, monitor_stdio, |
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& outputTypesInclusive, dumpInitAndLast, debugMode, |
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& inAdMode, inAdTrue, inAdFalse, inAdExact, |
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& useSRCGSolver |
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|
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LOGICAL fluidIsAir |
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LOGICAL fluidIsWater |
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LOGICAL usingPCoords |
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LOGICAL usingZCoords |
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LOGICAL useDynP_inEos_Zc |
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LOGICAL usingCartesianGrid |
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LOGICAL usingSphericalPolarGrid, rotateGrid |
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LOGICAL usingCylindricalGrid |
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LOGICAL usingCurvilinearGrid |
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LOGICAL deepAtmosphere |
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LOGICAL setInterFDr |
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LOGICAL setCenterDr |
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LOGICAL useNHMTerms |
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LOGICAL no_slip_sides |
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LOGICAL no_slip_bottom |
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LOGICAL momViscosity |
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LOGICAL momAdvection |
411 |
LOGICAL momForcing |
412 |
LOGICAL momPressureForcing |
413 |
LOGICAL useCoriolis |
414 |
LOGICAL vectorInvariantMomentum |
415 |
LOGICAL tempAdvection |
416 |
LOGICAL tempIsActiveTr |
417 |
LOGICAL tempForcing |
418 |
LOGICAL saltAdvection |
419 |
LOGICAL saltIsActiveTr |
420 |
LOGICAL saltForcing |
421 |
LOGICAL maskIniTemp |
422 |
LOGICAL maskIniSalt |
423 |
LOGICAL checkIniTemp |
424 |
LOGICAL checkIniSalt |
425 |
LOGICAL useRealFreshWaterFlux |
426 |
LOGICAL useFullLeith |
427 |
LOGICAL useStrainTensionVisc |
428 |
LOGICAL useAreaViscLength |
429 |
LOGICAL rigidLid |
430 |
LOGICAL implicitFreeSurface |
431 |
LOGICAL exactConserv |
432 |
LOGICAL linFSConserveTr |
433 |
LOGICAL uniformLin_PhiSurf |
434 |
LOGICAL quasiHydrostatic |
435 |
LOGICAL nonHydrostatic |
436 |
LOGICAL use3Dsolver |
437 |
LOGICAL implicitIntGravWave |
438 |
LOGICAL staggerTimeStep |
439 |
LOGICAL momStepping |
440 |
LOGICAL tempStepping |
441 |
LOGICAL saltStepping |
442 |
LOGICAL metricTerms |
443 |
LOGICAL use3dCoriolis |
444 |
LOGICAL useCDscheme |
445 |
LOGICAL useEnergyConservingCoriolis |
446 |
LOGICAL useJamartWetPoints |
447 |
LOGICAL useJamartMomAdv |
448 |
LOGICAL upwindVorticity |
449 |
LOGICAL highOrderVorticity |
450 |
LOGICAL useAbsVorticity |
451 |
LOGICAL upwindShear |
452 |
LOGICAL implicitDiffusion |
453 |
LOGICAL implicitViscosity |
454 |
LOGICAL tempImplVertAdv |
455 |
LOGICAL saltImplVertAdv |
456 |
LOGICAL momImplVertAdv |
457 |
LOGICAL multiDimAdvection |
458 |
LOGICAL useMultiDimAdvec |
459 |
LOGICAL momDissip_In_AB |
460 |
LOGICAL doAB_onGtGs |
461 |
LOGICAL balanceEmPmR |
462 |
LOGICAL balanceQnet |
463 |
LOGICAL balancePrintMean |
464 |
LOGICAL doThetaClimRelax |
465 |
LOGICAL doSaltClimRelax |
466 |
LOGICAL allowFreezing |
467 |
LOGICAL useOldFreezing |
468 |
LOGICAL periodicExternalForcing |
469 |
LOGICAL globalFiles |
470 |
LOGICAL pickupStrictlyMatch |
471 |
LOGICAL usePickupBeforeC54 |
472 |
LOGICAL startFromPickupAB2 |
473 |
LOGICAL pickup_read_mdsio, pickup_write_mdsio |
474 |
LOGICAL pickup_write_immed, writePickupAtEnd |
475 |
LOGICAL timeave_mdsio, snapshot_mdsio, monitor_stdio |
476 |
LOGICAL outputTypesInclusive |
477 |
LOGICAL dumpInitAndLast |
478 |
LOGICAL debugMode |
479 |
LOGICAL inAdMode, inAdTrue, inAdFalse, inAdExact |
480 |
LOGICAL useSRCGSolver |
481 |
|
482 |
C-- COMMON /PARM_R/ "Real" valued parameters used by the model. |
483 |
C cg2dTargetResidual |
484 |
C :: Target residual for cg2d solver; no unit (RHS normalisation) |
485 |
C cg2dTargetResWunit |
486 |
C :: Target residual for cg2d solver; W unit (No RHS normalisation) |
487 |
C cg3dTargetResidual |
488 |
C :: Target residual for cg3d solver. |
489 |
C cg2dpcOffDFac :: Averaging weight for preconditioner off-diagonal. |
490 |
C Note. 20th May 1998 |
491 |
C I made a weird discovery! In the model paper we argue |
492 |
C for the form of the preconditioner used here ( see |
493 |
C A Finite-volume, Incompressible Navier-Stokes Model |
494 |
C ...., Marshall et. al ). The algebra gives a simple |
495 |
C 0.5 factor for the averaging of ac and aCw to get a |
496 |
C symmettric pre-conditioner. By using a factor of 0.51 |
497 |
C i.e. scaling the off-diagonal terms in the |
498 |
C preconditioner down slightly I managed to get the |
499 |
C number of iterations for convergence in a test case to |
500 |
C drop form 192 -> 134! Need to investigate this further! |
501 |
C For now I have introduced a parameter cg2dpcOffDFac which |
502 |
C defaults to 0.51 but can be set at runtime. |
503 |
C delR :: Vertical grid spacing ( units of r ). |
504 |
C delRc :: Vertical grid spacing between cell centers (r unit). |
505 |
C delX :: Separation between cell faces (m) or (deg), depending |
506 |
C delY on input flags. |
507 |
C gravity :: Accel. due to gravity ( m/s^2 ) |
508 |
C recip_gravity and its inverse |
509 |
C gBaro :: Accel. due to gravity used in barotropic equation ( m/s^2 ) |
510 |
C rhoNil :: Reference density for the linear equation of state |
511 |
C rhoConst :: Vertically constant reference density |
512 |
C rhoFacC :: normalized (by rhoConst) reference density at cell-Center |
513 |
C rhoFacF :: normalized (by rhoConst) reference density at cell-interFace |
514 |
C rhoConstFresh :: Constant reference density for fresh water (rain) |
515 |
C rho1Ref :: reference vertical profile for density |
516 |
C tRef :: reference vertical profile for potential temperature |
517 |
C sRef :: reference vertical profile for salinity/specific humidity |
518 |
C phiRef :: reference potential (pressure/rho, geopotential) profile |
519 |
C dBdrRef :: vertical gradient of reference boyancy [(m/s/r)^2)]: |
520 |
C :: z-coord: = N^2_ref = Brunt-Vaissala frequency [s^-2] |
521 |
C :: p-coord: = -(d.alpha/dp)_ref [(m^2.s/kg)^2] |
522 |
C rVel2wUnit :: units conversion factor (Non-Hydrostatic code), |
523 |
C :: from r-coordinate vertical velocity to vertical velocity [m/s]. |
524 |
C :: z-coord: = 1 ; p-coord: wSpeed [m/s] = rVel [Pa/s] * rVel2wUnit |
525 |
C wUnit2rVel :: units conversion factor (Non-Hydrostatic code), |
526 |
C :: from vertical velocity [m/s] to r-coordinate vertical velocity. |
527 |
C :: z-coord: = 1 ; p-coord: rVel [Pa/s] = wSpeed [m/s] * wUnit2rVel |
528 |
C mass2rUnit :: units conversion factor (surface forcing), |
529 |
C :: from mass per unit area [kg/m2] to vertical r-coordinate unit. |
530 |
C :: z-coord: = 1/rhoConst ( [kg/m2] / rho = [m] ) ; |
531 |
C :: p-coord: = gravity ( [kg/m2] * g = [Pa] ) ; |
532 |
C rUnit2mass :: units conversion factor (surface forcing), |
533 |
C :: from vertical r-coordinate unit to mass per unit area [kg/m2]. |
534 |
C :: z-coord: = rhoConst ( [m] * rho = [kg/m2] ) ; |
535 |
C :: p-coord: = 1/gravity ( [Pa] / g = [kg/m2] ) ; |
536 |
C xgOrigin :: Origin of the X-axis (Cartesian Grid) / Longitude of Western |
537 |
C :: most cell face (Lat-Lon grid) (Note: this is an "inert" |
538 |
C :: parameter but it makes geographical references simple.) |
539 |
C ygOrigin :: Origin of the Y-axis (Cartesian Grid) / Latitude of Southern |
540 |
C :: most face (Lat-Lon grid). |
541 |
C rSphere :: Radius of sphere for a spherical polar grid ( m ). |
542 |
C recip_rSphere :: Reciprocal radius of sphere ( m ). |
543 |
C f0 :: Reference coriolis parameter ( 1/s ) |
544 |
C ( Southern edge f for beta plane ) |
545 |
C beta :: df/dy ( s^-1.m^-1 ) |
546 |
C fPrime :: Second Coriolis parameter ( 1/s ), related to Y-component |
547 |
C of rotation (reference value = 2.Omega.Cos(Phi)) |
548 |
C omega :: Angular velocity ( rad/s ) |
549 |
C rotationPeriod :: Rotation period (s) (= 2.pi/omega) |
550 |
C viscArNr :: vertical profile of Eddy viscosity coeff. |
551 |
C for vertical mixing of momentum ( units of r^2/s ) |
552 |
C viscAh :: Eddy viscosity coeff. for mixing of |
553 |
C momentum laterally ( m^2/s ) |
554 |
C viscAhW :: Eddy viscosity coeff. for mixing of vertical |
555 |
C momentum laterally, no effect for hydrostatic |
556 |
C model, defaults to viscAh if unset ( m^2/s ) |
557 |
C Not used if variable horiz. viscosity is used. |
558 |
C viscA4 :: Biharmonic viscosity coeff. for mixing of |
559 |
C momentum laterally ( m^4/s ) |
560 |
C viscA4W :: Biharmonic viscosity coeff. for mixing of vertical |
561 |
C momentum laterally, no effect for hydrostatic |
562 |
C model, defaults to viscA4 if unset ( m^2/s ) |
563 |
C Not used if variable horiz. viscosity is used. |
564 |
C viscAhD :: Eddy viscosity coeff. for mixing of momentum laterally |
565 |
C (act on Divergence part) ( m^2/s ) |
566 |
C viscAhZ :: Eddy viscosity coeff. for mixing of momentum laterally |
567 |
C (act on Vorticity part) ( m^2/s ) |
568 |
C viscA4D :: Biharmonic viscosity coeff. for mixing of momentum laterally |
569 |
C (act on Divergence part) ( m^4/s ) |
570 |
C viscA4Z :: Biharmonic viscosity coeff. for mixing of momentum laterally |
571 |
C (act on Vorticity part) ( m^4/s ) |
572 |
C viscC2leith :: Leith non-dimensional viscosity factor (grad(vort)) |
573 |
C viscC2leithD :: Modified Leith non-dimensional visc. factor (grad(div)) |
574 |
C viscC4leith :: Leith non-dimensional viscosity factor (grad(vort)) |
575 |
C viscC4leithD :: Modified Leith non-dimensional viscosity factor (grad(div)) |
576 |
C viscC2smag :: Smagorinsky non-dimensional viscosity factor (harmonic) |
577 |
C viscC4smag :: Smagorinsky non-dimensional viscosity factor (biharmonic) |
578 |
C viscAhMax :: Maximum eddy viscosity coeff. for mixing of |
579 |
C momentum laterally ( m^2/s ) |
580 |
C viscAhReMax :: Maximum gridscale Reynolds number for eddy viscosity |
581 |
C coeff. for mixing of momentum laterally (non-dim) |
582 |
C viscAhGrid :: non-dimensional grid-size dependent viscosity |
583 |
C viscAhGridMax:: maximum and minimum harmonic viscosity coefficients ... |
584 |
C viscAhGridMin:: in terms of non-dimensional grid-size dependent visc. |
585 |
C viscA4Max :: Maximum biharmonic viscosity coeff. for mixing of |
586 |
C momentum laterally ( m^4/s ) |
587 |
C viscA4ReMax :: Maximum Gridscale Reynolds number for |
588 |
C biharmonic viscosity coeff. momentum laterally (non-dim) |
589 |
C viscA4Grid :: non-dimensional grid-size dependent bi-harmonic viscosity |
590 |
C viscA4GridMax:: maximum and minimum biharmonic viscosity coefficients ... |
591 |
C viscA4GridMin:: in terms of non-dimensional grid-size dependent viscosity |
592 |
C diffKhT :: Laplacian diffusion coeff. for mixing of |
593 |
C heat laterally ( m^2/s ) |
594 |
C diffKrNrT :: vertical profile of Laplacian diffusion coeff. |
595 |
C for mixing of heat vertically ( units of r^2/s ) |
596 |
C diffK4T :: Biharmonic diffusion coeff. for mixing of |
597 |
C heat laterally ( m^4/s ) |
598 |
C diffKhS :: Laplacian diffusion coeff. for mixing of |
599 |
C salt laterally ( m^2/s ) |
600 |
C diffKrNrS :: vertical profile of Laplacian diffusion coeff. |
601 |
C for mixing of salt vertically ( units of r^2/s ), |
602 |
C diffK4S :: Biharmonic diffusion coeff. for mixing of |
603 |
C salt laterally ( m^4/s ) |
604 |
C diffKrBL79surf :: T/S surface diffusivity (m^2/s) Bryan and Lewis, 1979 |
605 |
C diffKrBL79deep :: T/S deep diffusivity (m^2/s) Bryan and Lewis, 1979 |
606 |
C diffKrBL79scl :: depth scale for arctan fn (m) Bryan and Lewis, 1979 |
607 |
C diffKrBL79Ho :: depth offset for arctan fn (m) Bryan and Lewis, 1979 |
608 |
C BL79LatVary :: polarwise of this latitude diffKrBL79 is applied with |
609 |
C gradual transition to diffKrBLEQ towards Equator |
610 |
C diffKrBLEQsurf :: same as diffKrBL79surf but at Equator |
611 |
C diffKrBLEQdeep :: same as diffKrBL79deep but at Equator |
612 |
C diffKrBLEQscl :: same as diffKrBL79scl but at Equator |
613 |
C diffKrBLEQHo :: same as diffKrBL79Ho but at Equator |
614 |
C deltaT :: Default timestep ( s ) |
615 |
C deltaTClock :: Timestep used as model "clock". This determines the |
616 |
C IO frequencies and is used in tagging output. It can |
617 |
C be totally different to the dynamical time. Typically |
618 |
C it will be the deep-water timestep for accelerated runs. |
619 |
C Frequency of checkpointing and dumping of the model state |
620 |
C are referenced to this clock. ( s ) |
621 |
C deltaTMom :: Timestep for momemtum equations ( s ) |
622 |
C dTtracerLev :: Timestep for tracer equations ( s ), function of level k |
623 |
C deltaTfreesurf :: Timestep for free-surface equation ( s ) |
624 |
C freesurfFac :: Parameter to turn implicit free surface term on or off |
625 |
C freesurfac = 1. uses implicit free surface |
626 |
C freesurfac = 0. uses rigid lid |
627 |
C abEps :: Adams-Bashforth-2 stabilizing weight |
628 |
C alph_AB :: Adams-Bashforth-3 primary factor |
629 |
C beta_AB :: Adams-Bashforth-3 secondary factor |
630 |
C implicSurfPress :: parameter of the Crank-Nickelson time stepping : |
631 |
C Implicit part of Surface Pressure Gradient ( 0-1 ) |
632 |
C implicDiv2Dflow :: parameter of the Crank-Nickelson time stepping : |
633 |
C Implicit part of barotropic flow Divergence ( 0-1 ) |
634 |
C implicitNHPress :: parameter of the Crank-Nickelson time stepping : |
635 |
C Implicit part of Non-Hydrostatic Pressure Gradient ( 0-1 ) |
636 |
C hFacMin :: Minimum fraction size of a cell (affects hFacC etc...) |
637 |
C hFacMinDz :: Minimum dimensional size of a cell (affects hFacC etc..., m) |
638 |
C hFacMinDp :: Minimum dimensional size of a cell (affects hFacC etc..., Pa) |
639 |
C hFacMinDr :: Minimum dimensional size of a cell (-> hFacC etc..., r units) |
640 |
C hFacInf :: Threshold (inf and sup) for fraction size of surface cell |
641 |
C hFacSup that control vanishing and creating levels |
642 |
C tauCD :: CD scheme coupling timescale ( s ) |
643 |
C rCD :: CD scheme normalised coupling parameter (= 1 - deltaT/tauCD) |
644 |
C epsAB_CD :: Adams-Bashforth-2 stabilizing weight used in CD scheme |
645 |
C baseTime :: model base time (time origin) = time @ iteration zero |
646 |
C startTime :: Starting time for this integration ( s ). |
647 |
C endTime :: Ending time for this integration ( s ). |
648 |
C chkPtFreq :: Frequency of rolling check pointing ( s ). |
649 |
C pChkPtFreq :: Frequency of permanent check pointing ( s ). |
650 |
C dumpFreq :: Frequency with which model state is written to |
651 |
C post-processing files ( s ). |
652 |
C diagFreq :: Frequency with which model writes diagnostic output |
653 |
C of intermediate quantities. |
654 |
C afFacMom :: Advection of momentum term tracer parameter |
655 |
C vfFacMom :: Momentum viscosity tracer parameter |
656 |
C pfFacMom :: Momentum pressure forcing tracer parameter |
657 |
C cfFacMom :: Coriolis term tracer parameter |
658 |
C foFacMom :: Momentum forcing tracer parameter |
659 |
C mtFacMom :: Metric terms tracer parameter |
660 |
C cosPower :: Power of cosine of latitude to multiply viscosity |
661 |
C cAdjFreq :: Frequency of convective adjustment |
662 |
C |
663 |
C taveFreq :: Frequency with which time-averaged model state |
664 |
C is written to post-processing files ( s ). |
665 |
C tave_lastIter :: (for state variable only) fraction of the last time |
666 |
C step (of each taveFreq period) put in the time average. |
667 |
C (fraction for 1rst iter = 1 - tave_lastIter) |
668 |
C tauThetaClimRelax :: Relaxation to climatology time scale ( s ). |
669 |
C tauSaltClimRelax :: Relaxation to climatology time scale ( s ). |
670 |
C latBandClimRelax :: latitude band where Relaxation to Clim. is applied, |
671 |
C i.e. where |yC| <= latBandClimRelax |
672 |
C externForcingPeriod :: Is the period of which forcing varies (eg. 1 month) |
673 |
C externForcingCycle :: Is the repeat time of the forcing (eg. 1 year) |
674 |
C (note: externForcingCycle must be an integer |
675 |
C number times externForcingPeriod) |
676 |
C convertFW2Salt :: salinity, used to convert Fresh-Water Flux to Salt Flux |
677 |
C (use model surface (local) value if set to -1) |
678 |
C temp_EvPrRn :: temperature of Rain & Evap. |
679 |
C salt_EvPrRn :: salinity of Rain & Evap. |
680 |
C temp_addMass :: temperature of addMass array |
681 |
C salt_addMass :: salinity of addMass array |
682 |
C (notes: a) tracer content of Rain/Evap only used if both |
683 |
C NonLin_FrSurf & useRealFreshWater are set. |
684 |
C b) use model surface (local) value if set to UNSET_RL) |
685 |
C hMixCriteria:: criteria for mixed-layer diagnostic |
686 |
C dRhoSmall :: parameter for mixed-layer diagnostic |
687 |
C hMixSmooth :: Smoothing parameter for mixed-layer diag (default=0=no smoothing) |
688 |
C ivdc_kappa :: implicit vertical diffusivity for convection [m^2/s] |
689 |
C Ro_SeaLevel :: standard position of Sea-Level in "R" coordinate, used as |
690 |
C starting value (k=1) for vertical coordinate (rf(1)=Ro_SeaLevel) |
691 |
C rSigmaBnd :: vertical position (in r-unit) of r/sigma transition (Hybrid-Sigma) |
692 |
C sideDragFactor :: side-drag scaling factor (used only if no_slip_sides) |
693 |
C (default=2: full drag ; =1: gives half-slip BC) |
694 |
C bottomDragLinear :: Linear bottom-drag coefficient (units of [r]/s) |
695 |
C bottomDragQuadratic :: Quadratic bottom-drag coefficient (units of [r]/m) |
696 |
C (if using zcoordinate, units becomes linear: m/s, quadratic: [-]) |
697 |
C smoothAbsFuncRange :: 1/2 of interval around zero, for which FORTRAN ABS |
698 |
C is to be replace by a smoother function |
699 |
C (affects myabs, mymin, mymax) |
700 |
C nh_Am2 :: scales the non-hydrostatic terms and changes internal scales |
701 |
C (i.e. allows convection at different Rayleigh numbers) |
702 |
C phiEuler :: Euler angle, rotation about original z-axis |
703 |
C thetaEuler :: Euler angle, rotation about new x-axis |
704 |
C psiEuler :: Euler angle, rotation about new z-axis |
705 |
COMMON /PARM_R/ cg2dTargetResidual, cg2dTargetResWunit, |
706 |
& cg2dpcOffDFac, cg3dTargetResidual, |
707 |
& delR, delRc, delX, delY, |
708 |
& deltaT, deltaTmom, dTtracerLev, deltaTfreesurf, deltaTClock, |
709 |
& abEps, alph_AB, beta_AB, |
710 |
& xgOrigin, ygOrigin, rSphere, recip_rSphere, |
711 |
& f0, beta, fPrime, omega, rotationPeriod, |
712 |
& viscFacAdj, viscAh, viscAhW, viscAhMax, |
713 |
& viscAhGrid, viscAhGridMax, viscAhGridMin, |
714 |
& viscC2leith, viscC2leithD, |
715 |
& viscC2smag, viscC4smag, |
716 |
& viscAhD, viscAhZ, viscA4D, viscA4Z, |
717 |
& viscA4, viscA4W, viscA4Max, |
718 |
& viscA4Grid, viscA4GridMax, viscA4GridMin, |
719 |
& viscAhReMax, viscA4ReMax, |
720 |
& viscC4leith, viscC4leithD, viscArNr, |
721 |
& diffKhT, diffK4T, diffKrNrT, |
722 |
& diffKhS, diffK4S, diffKrNrS, |
723 |
& diffKrBL79surf, diffKrBL79deep, diffKrBL79scl, diffKrBL79Ho, |
724 |
& BL79LatVary, |
725 |
& diffKrBLEQsurf, diffKrBLEQdeep, diffKrBLEQscl, diffKrBLEQHo, |
726 |
& tauCD, rCD, epsAB_CD, |
727 |
& freeSurfFac, implicSurfPress, implicDiv2Dflow, implicitNHPress, |
728 |
& hFacMin, hFacMinDz, hFacInf, hFacSup, |
729 |
& gravity, recip_gravity, gBaro, |
730 |
& rhonil, recip_rhonil, rhoConst, recip_rhoConst, |
731 |
& rhoFacC, recip_rhoFacC, rhoFacF, recip_rhoFacF, |
732 |
& rhoConstFresh, rho1Ref, tRef, sRef, phiRef, dBdrRef, |
733 |
& rVel2wUnit, wUnit2rVel, mass2rUnit, rUnit2mass, |
734 |
& baseTime, startTime, endTime, |
735 |
& chkPtFreq, pChkPtFreq, dumpFreq, adjDumpFreq, |
736 |
& diagFreq, taveFreq, tave_lastIter, monitorFreq, adjMonitorFreq, |
737 |
& afFacMom, vfFacMom, pfFacMom, cfFacMom, foFacMom, mtFacMom, |
738 |
& cosPower, cAdjFreq, |
739 |
& tauThetaClimRelax, tauSaltClimRelax, latBandClimRelax, |
740 |
& externForcingCycle, externForcingPeriod, |
741 |
& convertFW2Salt, temp_EvPrRn, salt_EvPrRn, |
742 |
& temp_addMass, salt_addMass, hFacMinDr, hFacMinDp, |
743 |
& ivdc_kappa, hMixCriteria, dRhoSmall, hMixSmooth, |
744 |
& Ro_SeaLevel, rSigmaBnd, |
745 |
& sideDragFactor, bottomDragLinear, bottomDragQuadratic, nh_Am2, |
746 |
& smoothAbsFuncRange, |
747 |
& tCylIn, tCylOut, |
748 |
& phiEuler, thetaEuler, psiEuler |
749 |
|
750 |
_RL cg2dTargetResidual |
751 |
_RL cg2dTargetResWunit |
752 |
_RL cg3dTargetResidual |
753 |
_RL cg2dpcOffDFac |
754 |
_RL delR(Nr) |
755 |
_RL delRc(Nr+1) |
756 |
_RL delX(Nx) |
757 |
_RL delY(Ny) |
758 |
_RL deltaT |
759 |
_RL deltaTClock |
760 |
_RL deltaTmom |
761 |
_RL dTtracerLev(Nr) |
762 |
_RL deltaTfreesurf |
763 |
_RL abEps, alph_AB, beta_AB |
764 |
_RL xgOrigin |
765 |
_RL ygOrigin |
766 |
_RL rSphere |
767 |
_RL recip_rSphere |
768 |
_RL f0 |
769 |
_RL beta |
770 |
_RL fPrime |
771 |
_RL omega |
772 |
_RL rotationPeriod |
773 |
_RL freeSurfFac |
774 |
_RL implicSurfPress |
775 |
_RL implicDiv2Dflow |
776 |
_RL implicitNHPress |
777 |
_RL hFacMin |
778 |
_RL hFacMinDz |
779 |
_RL hFacMinDp |
780 |
_RL hFacMinDr |
781 |
_RL hFacInf |
782 |
_RL hFacSup |
783 |
_RL viscArNr(Nr) |
784 |
_RL viscFacAdj |
785 |
_RL viscAh |
786 |
_RL viscAhW |
787 |
_RL viscAhD |
788 |
_RL viscAhZ |
789 |
_RL viscAhMax |
790 |
_RL viscAhReMax |
791 |
_RL viscAhGrid, viscAhGridMax, viscAhGridMin |
792 |
_RL viscC2leith |
793 |
_RL viscC2leithD |
794 |
_RL viscC2smag |
795 |
_RL viscA4 |
796 |
_RL viscA4W |
797 |
_RL viscA4D |
798 |
_RL viscA4Z |
799 |
_RL viscA4Max |
800 |
_RL viscA4ReMax |
801 |
_RL viscA4Grid, viscA4GridMax, viscA4GridMin |
802 |
_RL viscC4leith |
803 |
_RL viscC4leithD |
804 |
_RL viscC4smag |
805 |
_RL diffKhT |
806 |
_RL diffKrNrT(Nr) |
807 |
_RL diffK4T |
808 |
_RL diffKhS |
809 |
_RL diffKrNrS(Nr) |
810 |
_RL diffK4S |
811 |
_RL diffKrBL79surf |
812 |
_RL diffKrBL79deep |
813 |
_RL diffKrBL79scl |
814 |
_RL diffKrBL79Ho |
815 |
_RL BL79LatVary |
816 |
_RL diffKrBLEQsurf |
817 |
_RL diffKrBLEQdeep |
818 |
_RL diffKrBLEQscl |
819 |
_RL diffKrBLEQHo |
820 |
_RL tauCD, rCD, epsAB_CD |
821 |
_RL gravity |
822 |
_RL recip_gravity |
823 |
_RL gBaro |
824 |
_RL rhonil, recip_rhonil |
825 |
_RL rhoConst, recip_rhoConst |
826 |
_RL rhoFacC(Nr), recip_rhoFacC(Nr) |
827 |
_RL rhoFacF(Nr+1), recip_rhoFacF(Nr+1) |
828 |
_RL rhoConstFresh |
829 |
_RL rho1Ref(Nr) |
830 |
_RL tRef(Nr) |
831 |
_RL sRef(Nr) |
832 |
_RL phiRef(2*Nr+1) |
833 |
_RL dBdrRef(Nr) |
834 |
_RL rVel2wUnit(Nr+1), wUnit2rVel(Nr+1) |
835 |
_RL mass2rUnit, rUnit2mass |
836 |
_RL baseTime |
837 |
_RL startTime |
838 |
_RL endTime |
839 |
_RL chkPtFreq |
840 |
_RL pChkPtFreq |
841 |
_RL dumpFreq |
842 |
_RL adjDumpFreq |
843 |
_RL diagFreq |
844 |
_RL taveFreq |
845 |
_RL tave_lastIter |
846 |
_RL monitorFreq |
847 |
_RL adjMonitorFreq |
848 |
_RL afFacMom |
849 |
_RL vfFacMom |
850 |
_RL pfFacMom |
851 |
_RL cfFacMom |
852 |
_RL foFacMom |
853 |
_RL mtFacMom |
854 |
_RL cosPower |
855 |
_RL cAdjFreq |
856 |
_RL tauThetaClimRelax |
857 |
_RL tauSaltClimRelax |
858 |
_RL latBandClimRelax |
859 |
_RL externForcingCycle |
860 |
_RL externForcingPeriod |
861 |
_RL convertFW2Salt |
862 |
_RL temp_EvPrRn |
863 |
_RL salt_EvPrRn |
864 |
_RL temp_addMass |
865 |
_RL salt_addMass |
866 |
_RL ivdc_kappa |
867 |
_RL hMixCriteria |
868 |
_RL dRhoSmall |
869 |
_RL hMixSmooth |
870 |
_RL Ro_SeaLevel |
871 |
_RL rSigmaBnd |
872 |
_RL sideDragFactor |
873 |
_RL bottomDragLinear |
874 |
_RL bottomDragQuadratic |
875 |
_RL smoothAbsFuncRange |
876 |
_RL nh_Am2 |
877 |
_RL tCylIn |
878 |
_RL tCylOut |
879 |
_RL phiEuler, thetaEuler, psiEuler |
880 |
|
881 |
C-- COMMON /PARM_A/ Thermodynamics constants ? |
882 |
COMMON /PARM_A/ HeatCapacity_Cp,recip_Cp |
883 |
_RL HeatCapacity_Cp |
884 |
_RL recip_Cp |
885 |
|
886 |
C-- COMMON /PARM_ATM/ Atmospheric physical parameters (Ideal Gas EOS, ...) |
887 |
C celsius2K :: convert centigrade (Celsius) degree to Kelvin |
888 |
C atm_Po :: standard reference pressure |
889 |
C atm_Cp :: specific heat (Cp) of the (dry) air at constant pressure |
890 |
C atm_Rd :: gas constant for dry air |
891 |
C atm_kappa :: kappa = R/Cp (R: constant of Ideal Gas EOS) |
892 |
C atm_Rq :: water vapour specific volume anomaly relative to dry air |
893 |
C (e.g. typical value = (29/18 -1) 10^-3 with q [g/kg]) |
894 |
C integr_GeoPot :: option to select the way we integrate the geopotential |
895 |
C (still a subject of discussions ...) |
896 |
C selectFindRoSurf :: select the way surf. ref. pressure (=Ro_surf) is |
897 |
C derived from the orography. Implemented: 0,1 (see INI_P_GROUND) |
898 |
COMMON /PARM_ATM/ |
899 |
& celsius2K, |
900 |
& atm_Cp, atm_Rd, atm_kappa, atm_Rq, atm_Po, |
901 |
& integr_GeoPot, selectFindRoSurf |
902 |
_RL celsius2K |
903 |
_RL atm_Po, atm_Cp, atm_Rd, atm_kappa, atm_Rq |
904 |
INTEGER integr_GeoPot, selectFindRoSurf |
905 |
|
906 |
C Logical flags for selecting packages |
907 |
LOGICAL useGAD |
908 |
LOGICAL useOBCS |
909 |
LOGICAL useSHAP_FILT |
910 |
LOGICAL useZONAL_FILT |
911 |
LOGICAL useOPPS |
912 |
LOGICAL usePP81 |
913 |
LOGICAL useMY82 |
914 |
LOGICAL useGGL90 |
915 |
LOGICAL useKPP |
916 |
LOGICAL useGMRedi |
917 |
LOGICAL useDOWN_SLOPE |
918 |
LOGICAL useCAL |
919 |
LOGICAL useEXF |
920 |
LOGICAL useBulkForce |
921 |
LOGICAL useEBM |
922 |
LOGICAL useCheapAML |
923 |
LOGICAL useGrdchk |
924 |
LOGICAL useSMOOTH |
925 |
LOGICAL useECCO |
926 |
LOGICAL useSBO |
927 |
LOGICAL useFLT |
928 |
LOGICAL usePTRACERS |
929 |
LOGICAL useGCHEM |
930 |
LOGICAL useRBCS |
931 |
LOGICAL useOffLine |
932 |
LOGICAL useMATRIX |
933 |
LOGICAL useSEAICE |
934 |
LOGICAL useSALT_PLUME |
935 |
LOGICAL useShelfIce |
936 |
LOGICAL useICEFRONT |
937 |
LOGICAL useThSIce |
938 |
LOGICAL useATM2d |
939 |
LOGICAL useAIM |
940 |
LOGICAL useLand |
941 |
LOGICAL useFizhi |
942 |
LOGICAL useGridAlt |
943 |
LOGICAL useDiagnostics |
944 |
LOGICAL useREGRID |
945 |
LOGICAL useLayers |
946 |
LOGICAL useMNC |
947 |
LOGICAL useRunClock |
948 |
LOGICAL useEMBED_FILES |
949 |
LOGICAL useMYPACKAGE |
950 |
COMMON /PARM_PACKAGES/ |
951 |
& useGAD, useOBCS, useSHAP_FILT, useZONAL_FILT, |
952 |
& useOPPS, usePP81, useMY82, useGGL90, useKPP, |
953 |
& useGMRedi, useDOWN_SLOPE, |
954 |
& useCAL, useEXF, useBulkForce, useEBM, useCheapAML, |
955 |
& useGrdchk, useSMOOTH, useECCO, useSBO, useFLT, |
956 |
& usePTRACERS, useGCHEM, useRBCS, useOffLine, useMATRIX, |
957 |
& useSEAICE, useSALT_PLUME, useShelfIce, |
958 |
& useICEFRONT, useThSIce, |
959 |
& useATM2D, useAIM, useLand, useFizhi, useGridAlt, |
960 |
& useDiagnostics, useREGRID, useLayers, useMNC, |
961 |
& useRunClock, useEMBED_FILES, |
962 |
& useMYPACKAGE |
963 |
CEH3 ;;; Local Variables: *** |
964 |
CEH3 ;;; mode:fortran *** |
965 |
CEH3 ;;; End: *** |