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C $Header: /u/gcmpack/MITgcm/model/inc/PARAMS.h,v 1.76 2002/10/07 16:18:07 jmc Exp $ |
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C $Name: $ |
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C |
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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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C !DESCRIPTION: \bv |
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C *==========================================================* |
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C | PARAMS.h |
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C | o Header file defining model "parameters". |
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C *==========================================================* |
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C | The values from the model standard input file are |
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C | stored into the variables held here. Notes describing |
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C | the parameters can also be found here. |
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C *==========================================================* |
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C \ev |
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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 Symbolic values |
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C precXXXX :: Used to indicate what precision to use for |
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C dumping model state. |
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INTEGER precFloat32 |
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PARAMETER ( precFloat32 = 32 ) |
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INTEGER precFloat64 |
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PARAMETER ( precFloat64 = 64 ) |
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C UNSET_xxx :: Used to indicate variables that have not been given a value |
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Real*8 UNSET_FLOAT8 |
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PARAMETER ( UNSET_FLOAT8 = 1.234567D5 ) |
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Real*4 UNSET_FLOAT4 |
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PARAMETER ( UNSET_FLOAT4 = 1.234567E5 ) |
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_RL UNSET_RL |
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PARAMETER ( UNSET_RL = 1.234567D5 ) |
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_RS UNSET_RS |
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PARAMETER ( UNSET_RS = 1.234567E5 ) |
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INTEGER UNSET_I |
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PARAMETER ( UNSET_I = 123456789 ) |
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|
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C Checkpoint data |
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INTEGER maxNoChkptLev |
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PARAMETER ( maxNoChkptLev = 2 ) |
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|
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C-- COMMON /PARM_C/ Character valued parameters used by the model. |
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C checkPtSuff :: List of checkpoint file suffices |
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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 for potential |
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C temperature. |
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C hydrogSaltFile :: File containing initial hydrographic data for salinity. |
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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 theta climataology used |
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C in relaxation term -lambda(theta-theta*) |
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C saltClimFile :: File containing 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 |
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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 pLoadFile :: File containing pressure loading |
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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 |
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COMMON /PARM_C/ checkPtSuff, |
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& bathyFile, topoFile, |
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& hydrogThetaFile, hydrogSaltFile, |
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& zonalWindFile, meridWindFile, thetaClimFile, |
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& saltClimFile, buoyancyRelation, |
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& EmPmRfile, surfQfile, surfQswfile, |
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& uVelInitFile, vVelInitFile, pSurfInitFile, |
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& dQdTfile, ploadFile, |
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& eosType |
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CHARACTER*(5) checkPtSuff(maxNoChkptLev) |
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CHARACTER*(MAX_LEN_FNAM) bathyFile, topoFile |
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CHARACTER*(MAX_LEN_FNAM) hydrogThetaFile |
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CHARACTER*(MAX_LEN_FNAM) hydrogSaltFile |
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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) surfQswfile |
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CHARACTER*(MAX_LEN_FNAM) EmPmRfile |
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CHARACTER*(MAX_LEN_FNAM) buoyancyRelation |
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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*(6) eosType |
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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 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 numStepsPerPickup :: For offline setup. Frequency of pickup |
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C of flow fields. |
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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 nCheckLev :: Holds current checkpoint level |
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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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|
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COMMON /PARM_I/ |
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& cg2dMaxIters, |
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& cg2dChkResFreq, |
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& cg3dMaxIters, |
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& cg3dChkResFreq, |
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& nIter0, nTimeSteps, nEndIter, |
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& numStepsPerPickup, |
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& writeStatePrec, nCheckLev, |
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& writeBinaryPrec, readBinaryPrec, |
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& nonlinFreeSurf, |
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& tempAdvScheme, saltAdvScheme, tracerAdvScheme |
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INTEGER cg2dMaxIters |
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INTEGER cg2dChkResFreq |
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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 numStepsPerPickup |
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INTEGER writeStatePrec |
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INTEGER writeBinaryPrec |
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INTEGER readBinaryPrec |
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INTEGER nCheckLev |
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INTEGER nonlinFreeSurf |
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INTEGER tempAdvScheme |
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INTEGER saltAdvScheme |
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INTEGER tracerAdvScheme |
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|
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C-- COMMON /PARM_L/ Logical valued parameters used by the model. |
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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 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 staggerTimeStep :: enable a Stagger time stepping T,S Rho then U,V |
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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 usingSphericalPolarMTerms :: If TRUE use spherical polar metric terms. |
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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 tempDiffusion :: Flag which turns diffusion of temperature on |
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C and off. |
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C tempAdvection :: Flag which turns advection of temperature on |
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C and off. |
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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 saltDiffusion :: Flag which turns diffusion of salinity on |
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C and off. |
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C saltAdvection :: Flag which turns advection of salinity on |
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C and off. |
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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 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 rigidLid :: Set to true to use rigid lid |
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C implicitFreeSurface :: Set to true to use implcit free surface |
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C exactConserv :: Set to true to conserve exactly the total Volume |
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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 momStepping :: Turns momentum equation time-stepping off |
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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 tr1Stepping :: Turns passive tracer 1 time-stepping on/off |
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C useConstantF :: Coriolis parameter set to f0 |
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C useBetaPlaneF :: Coriolis parameter set to f0 + beta.y |
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C useSphereF :: Coriolis parameter set to 2.omega.sin(phi) |
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C useJamartWetPoints :: Use wet-point method for Coriolis (Jamart and Ozer, 1986) |
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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 multiDimAdvection :: Flag that enable multi-dimension advection |
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C forcing_In_AB :: if False, put forcing (Temp,Salt,Tracers) contribution |
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C out off Adams-Bashforth time stepping. |
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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 periodicExternalForcing :: Set true if forcing is time-dependant |
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C usingPCoords :: Set to indicate that we are working in pressure |
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C coords. |
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C usingZCoords :: Set to indicate that we are working in height |
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C coords. |
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C setCenterDr :: set cell Center depth and put Interface at the middle |
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C nonHydrostatic :: Using non-hydrostatic terms |
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C globalFiles :: Selects between "global" and "tiled" files |
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C allowFreezing :: Allows water to freeze and form ice |
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C groundAtK1 :: put the surface(k=1) at the Lower Boundary (=ground) |
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COMMON /PARM_L/ usingCartesianGrid, usingSphericalPolarGrid, |
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& usingCurvilinearGrid, |
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& no_slip_sides,no_slip_bottom, |
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& staggerTimeStep, |
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& momViscosity, momAdvection, momForcing, useCoriolis, |
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& momPressureForcing, vectorInvariantMomentum, |
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& tempDiffusion, tempAdvection, tempForcing, |
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& saltDiffusion, saltAdvection, saltForcing, |
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& useRealFreshWaterFlux, |
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& rigidLid, implicitFreeSurface, exactConserv, uniformLin_PhiSurf, |
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& momStepping, tempStepping, saltStepping, tr1Stepping, |
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& metricTerms, usingSphericalPolarMTerms, useNHMTerms, |
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& useConstantF, useBetaPlaneF, useSphereF, |
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& useEnergyConservingCoriolis, useJamartWetPoints, |
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& implicitDiffusion, implicitViscosity, |
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& multiDimAdvection, forcing_In_AB, |
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& doThetaClimRelax, doSaltClimRelax, doTr1ClimRelax, |
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& periodicExternalForcing, |
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& usingPCoords, usingZCoords, setCenterDr, |
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& nonHydrostatic, globalFiles, |
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& allowFreezing, groundAtK1, |
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& usePickupBeforeC35, debugMode, |
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& readPickupWithTracer, writePickupWithTracer |
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LOGICAL usingCartesianGrid |
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LOGICAL usingSphericalPolarGrid |
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LOGICAL usingCurvilinearGrid |
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LOGICAL usingSphericalPolarMTerms |
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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 staggerTimeStep |
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LOGICAL momViscosity |
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LOGICAL momAdvection |
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LOGICAL momForcing |
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LOGICAL momPressureForcing |
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LOGICAL useCoriolis |
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LOGICAL vectorInvariantMomentum |
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LOGICAL tempDiffusion |
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LOGICAL tempAdvection |
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LOGICAL tempForcing |
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LOGICAL saltDiffusion |
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LOGICAL saltAdvection |
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LOGICAL saltForcing |
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LOGICAL useRealFreshWaterFlux |
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LOGICAL rigidLid |
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LOGICAL implicitFreeSurface |
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LOGICAL exactConserv |
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LOGICAL uniformLin_PhiSurf |
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LOGICAL momStepping |
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LOGICAL tempStepping |
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LOGICAL saltStepping |
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LOGICAL tr1Stepping |
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LOGICAL metricTerms |
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LOGICAL useConstantF |
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LOGICAL useBetaPlaneF |
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LOGICAL useSphereF |
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LOGICAL useEnergyConservingCoriolis |
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LOGICAL useJamartWetPoints |
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LOGICAL implicitDiffusion |
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LOGICAL implicitViscosity |
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LOGICAL multiDimAdvection |
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LOGICAL forcing_In_AB |
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LOGICAL doThetaClimRelax |
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LOGICAL doSaltClimRelax |
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LOGICAL doTr1ClimRelax |
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LOGICAL periodicExternalForcing |
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LOGICAL usingPCoords |
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LOGICAL usingZCoords |
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LOGICAL setCenterDr |
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LOGICAL nonHydrostatic |
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LOGICAL globalFiles |
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LOGICAL allowFreezing |
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LOGICAL groundAtK1 |
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LOGICAL usePickupBeforeC35 |
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LOGICAL debugMode |
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LOGICAL readPickupWithTracer |
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LOGICAL writePickupWithTracer |
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|
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C-- COMMON /PARM_R/ "Real" valued parameters used by the model. |
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C gg2dTargetResidual |
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C :: Target residual for cg2d solver; no unit (RHS normalisation) |
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C cg2dTargetResWunit |
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C :: Target residual for cg2d solver; W unit (No RHS normalisation) |
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C cg3dTargetResidual |
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C :: Target residual for cg3d solver. |
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C cg2dpcOffDFac :: Averaging weight for preconditioner off-diagonal. |
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C Note. 20th May 1998 |
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C I made a weird discovery! In the model paper we argue |
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C for the form of the preconditioner used here ( see |
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C A Finite-volume, Incompressible Navier-Stokes Model |
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C ...., Marshall et. al ). The algebra gives a simple |
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C 0.5 factor for the averaging of ac and aCw to get a |
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C symmettric pre-conditioner. By using a factor of 0.51 |
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C i.e. scaling the off-diagonal terms in the |
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C preconditioner down slightly I managed to get the |
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C number of iterations for convergence in a test case to |
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C drop form 192 -> 134! Need to investigate this further! |
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C For now I have introduced a parameter cg2dpcOffDFac which |
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C defaults to 0.51 but can be set at runtime. |
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C delP :: Vertical grid spacing ( Pa ). |
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C delZ :: Vertical grid spacing ( m ). |
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C delR :: Vertical grid spacing ( units of r ). |
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C delRc :: Vertical grid spacing between cell centers (r unit). |
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C delX :: Separation between cell faces (m) or (deg), depending |
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C delY on input flags. |
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C gravity :: Accel. due to gravity ( m/s^2 ) |
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C recip_gravity and its inverse |
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C gBaro :: Accel. due to gravity used in barotropic equation ( m/s^2 ) |
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C rhoNil :: Reference density for the linear equation of state |
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C rhoConst :: Vertically constant reference density |
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C rhoConstFresh :: Constant reference density for fresh water (rain) |
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C startTime :: Start time for model ( s ) |
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C phiMin :: Latitude of southern most cell face. |
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C thetaMin :: Longitude of western most cell face (this |
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C is an "inert" parameter but it is included |
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C to make geographical references simple.) |
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C rSphere :: Radius of sphere for a spherical polar grid ( m ). |
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C recip_RSphere :: Reciprocal radius of sphere ( m ). |
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C f0 :: Reference coriolis parameter ( 1/s ) |
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C ( Southern edge f for beta plane ) |
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C beta :: df/dy ( s^-1.m^-1 ) |
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C omega :: Angular velocity ( rad/s ) |
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C viscAh :: Eddy viscosity coeff. for mixing of |
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C momentum laterally ( m^2/s ) |
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C viscAz :: Eddy viscosity coeff. for mixing of |
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C momentum vertically ( m^2/s ) |
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C viscAp :: Eddy viscosity coeff. for mixing of |
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C momentum vertically ( Pa^2/s ) |
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C viscAr :: Eddy viscosity coeff. for mixing of |
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C momentum vertically ( units of r^2/s ) |
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C viscA4 :: Biharmonic viscosity coeff. for mixing of |
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C momentum laterally ( m^4/s ) |
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C diffKhT :: Laplacian diffusion coeff. for mixing of |
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C heat laterally ( m^2/s ) |
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C diffKzT :: Laplacian diffusion coeff. for mixing of |
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C heat vertically ( m^2/s ) |
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C diffKpT :: Laplacian diffusion coeff. for mixing of |
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C heat vertically ( Pa^2/s ) |
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C diffKrT :: Laplacian diffusion coeff. for mixing of |
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C heat vertically ( units of r^2/s ) |
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C diffK4T :: Biharmonic diffusion coeff. for mixing of |
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C heat laterally ( m^4/s ) |
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C diffKhS :: Laplacian diffusion coeff. for mixing of |
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C salt laterally ( m^2/s ) |
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C diffKzS :: Laplacian diffusion coeff. for mixing of |
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C salt vertically ( m^2/s ) |
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C diffKpS :: Laplacian diffusion coeff. for mixing of |
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C salt vertically ( Pa^2/s ) |
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C diffKrS :: Laplacian diffusion coeff. for mixing of |
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C salt vertically ( units of r^2/s ) |
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C diffK4S :: Biharmonic diffusion coeff. for mixing of |
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C salt laterally ( m^4/s ) |
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C deltaT :: Default timestep ( s ) |
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C deltaTClock :: Timestep used as model "clock". This determines the |
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C IO frequencies and is used in tagging output. It can |
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C be totally different to the dynamical time. Typically |
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C it will be the deep-water timestep for accelerated runs. |
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C Frequency of checkpointing and dumping of the model state |
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C are referenced to this clock. ( s ) |
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C deltaTMom :: Timestep for momemtum equations ( s ) |
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C deltaTtracer :: Timestep for tracer equations ( s ) |
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C deltaTfreesurf :: Timestep for free-surface equation ( s ) |
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C freesurfFac :: Parameter to turn implicit free surface term on or off |
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C freesurfac = 1. uses implicit free surface |
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C freesurfac = 0. uses rigid lid |
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C implicSurfPress :: parameter of the Crank-Nickelson time stepping : |
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C Implicit part of Surface Pressure Gradient ( 0-1 ) |
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C implicDiv2Dflow :: parameter of the Crank-Nickelson time stepping : |
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C Implicit part of barotropic flow Divergence ( 0-1 ) |
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C hFacMin :: Minimum fraction size of a cell (affects hFacC etc...) |
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C hFacMinDz :: Minimum dimesional size of a cell (affects hFacC etc..., m) |
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C hFacMinDp :: Minimum dimesional size of a cell (affects hFacC etc..., Pa) |
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C hFacMinDr :: Minimum dimesional size of a cell (affects hFacC etc..., units of r) |
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C hFacInf :: Threshold (inf and sup) for fraction size of surface cell |
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C hFacSup that control vanishing and creating levels |
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C tauCD :: CD scheme coupling timescale ( 1/s ) |
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C rCD :: CD scheme normalised coupling parameter ( 0-1 ) |
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C startTime :: Starting time for this integration ( s ). |
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C endTime :: Ending time for this integration ( s ). |
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C chkPtFreq :: Frequency of rolling check pointing ( s ). |
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C pChkPtFreq :: Frequency of permanent check pointing ( s ). |
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C dumpFreq :: Frequency with which model state is written to |
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C post-processing files ( s ). |
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C diagFreq :: Frequency with which model writes diagnostic output |
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C of intermediate quantities. |
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C afFacMom :: Advection of momentum term tracer parameter |
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C vfFacMom :: Momentum viscosity tracer parameter |
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C pfFacMom :: Momentum pressure forcing tracer parameter |
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C cfFacMom :: Coriolis term tracer parameter |
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C foFacMom :: Momentum forcing tracer parameter |
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C mtFacMom :: Metric terms tracer parameter |
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C cosPower :: Power of cosine of latitude to multiply viscosity |
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C cAdjFreq :: Frequency of convective adjustment |
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C |
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C taveFreq :: Frequency with which time-averaged model state |
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C is written to post-processing files ( s ). |
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C tave_lastIter :: (for state variable only) fraction of the last time |
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C step (of each taveFreq period) put in the time average. |
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C (fraction for 1rst iter = 1 - tave_lastIter) |
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C tauThetaClimRelax :: Relaxation to climatology time scale ( s ). |
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C lambdaThetaClimRelax :: Inverse time scale for relaxation ( 1/s ). |
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C tauSaltClimRelax :: Relaxation to climatology time scale ( s ). |
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C lambdaSaltClimRelax :: Inverse time scale for relaxation ( 1/s ). |
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C externForcingPeriod :: Is the period of which forcing varies (eg. 1 month) |
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C externForcingCycle :: Is the repeat time of the forcing (eg. 1 year) |
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C (note: externForcingCycle must be an integer |
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C number times externForcingPeriod) |
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C convertFW2Salt :: salinity, used to convert Fresh-Water Flux to Salt Flux |
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C (use model surface (local) value if set to -1) |
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C temp_EvPrRn :: temperature of Rain & Evap. |
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C salt_EvPrRn :: salinity of Rain & Evap. |
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C trac_EvPrRn :: tracer concentration in Rain & Evap. |
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C (notes: a) tracer content of Rain/Evap only used if both |
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C NonLin_FrSurf & useRealFreshWater are set. |
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C b) use model surface (local) value if set to UNSET_RL) |
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C horiVertRatio :: Ratio on units in vertical to units in horizontal. |
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C recip_horiVertRatio ( 1 if horiz in m and vertical in m ). |
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C ( g*rho if horiz in m and vertical in Pa ). |
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C Ro_SeaLevel :: standard position of Sea-Level in "R" coordinate, used as |
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C starting value (k=1) for vertical coordinate (rf(1)=Ro_SeaLevel) |
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C bottomDragLinear :: Drag coefficient built in to core dynamics |
439 |
C --"-"-- Quadratic ( linear: 1/s, quadratic: 1/m ) |
440 |
COMMON /PARM_R/ cg2dTargetResidual, cg2dTargetResWunit, |
441 |
& cg2dpcOffDFac, cg3dTargetResidual, |
442 |
& delP, delZ, delR, delRc, delX, delY, |
443 |
& deltaT, deltaTmom, deltaTtracer, deltaTfreesurf, deltaTClock, |
444 |
& abeps, startTime, |
445 |
& phiMin, thetaMin, rSphere, recip_RSphere, f0, beta, |
446 |
& fCori, fCoriG, |
447 |
& viscAh, viscAz, viscA4, viscAr, viscAstrain, viscAtension, |
448 |
& diffKhT, diffKzT, diffK4T, diffKrT, |
449 |
& diffKhS, diffKzS, diffK4S, diffKrS, |
450 |
& delT, tauCD, rCD, freeSurfFac, implicSurfPress, implicDiv2Dflow, |
451 |
& hFacMin, hFacMinDz, hFacInf, hFacSup, |
452 |
& gravity, recip_Gravity, gBaro, rhonil, recip_rhonil, |
453 |
& recip_rhoConst, rhoConst, |
454 |
& rhoConstFresh, convertEmP2rUnit, tRef, sRef, |
455 |
& endTime, chkPtFreq, pchkPtFreq, dumpFreq, |
456 |
& diagFreq, taveFreq, tave_lastIter, monitorFreq, |
457 |
& afFacMom, vfFacMom, pfFacMom, cfFacMom, foFacMom, mtFacMom, |
458 |
& cosPower, cAdjFreq, omega, |
459 |
& tauThetaClimRelax, lambdaThetaClimRelax, |
460 |
& tauSaltClimRelax, lambdaSaltClimRelax, |
461 |
& tauTr1ClimRelax, lambdaTr1ClimRelax, |
462 |
& externForcingCycle, externForcingPeriod, |
463 |
& convertFW2Salt, temp_EvPrRn, salt_EvPrRn, trac_EvPrRn, |
464 |
& viscAp, diffKpT, diffKpS, hFacMinDr, hFacMinDp, |
465 |
& horiVertRatio, recip_horiVertRatio, |
466 |
& ivdc_kappa, Ro_SeaLevel, |
467 |
& bottomDragLinear,bottomDragQuadratic |
468 |
|
469 |
_RL cg2dTargetResidual |
470 |
_RL cg2dTargetResWunit |
471 |
_RL cg3dTargetResidual |
472 |
_RL cg2dpcOffDFac |
473 |
_RL delZ(Nr) |
474 |
_RL delP(Nr) |
475 |
_RL delR(Nr) |
476 |
_RL delRc(Nr+1) |
477 |
_RL delX(Nx) |
478 |
_RL delY(Ny) |
479 |
_RL deltaT |
480 |
_RL deltaTClock |
481 |
_RL deltaTmom |
482 |
_RL deltaTtracer |
483 |
_RL deltaTfreesurf |
484 |
_RL abeps |
485 |
_RL phiMin |
486 |
_RL thetaMin |
487 |
_RL rSphere |
488 |
_RL recip_RSphere |
489 |
_RL f0 |
490 |
_RL freeSurfFac |
491 |
_RL implicSurfPress |
492 |
_RL implicDiv2Dflow |
493 |
_RL hFacMin |
494 |
_RL hFacMinDz |
495 |
_RL hFacMinDp |
496 |
_RL hFacMinDr |
497 |
_RL hFacInf |
498 |
_RL hFacSup |
499 |
_RL beta |
500 |
_RL viscAh |
501 |
_RL viscAstrain |
502 |
_RL viscAtension |
503 |
_RL viscAz |
504 |
_RL viscAp |
505 |
_RL viscAr |
506 |
_RL viscA4 |
507 |
_RL diffKhT |
508 |
_RL diffKrT |
509 |
_RL diffKzT |
510 |
_RL diffKpT |
511 |
_RL diffK4T |
512 |
_RL diffKhS |
513 |
_RL diffKrS |
514 |
_RL diffKzS |
515 |
_RL diffKpS |
516 |
_RL diffK4S |
517 |
_RL delt |
518 |
_RL tauCD |
519 |
_RL rCD |
520 |
_RL gravity |
521 |
_RL recip_gravity |
522 |
_RL gBaro |
523 |
_RL rhonil |
524 |
_RL recip_rhonil |
525 |
_RL rhoConst |
526 |
_RL recip_rhoConst |
527 |
_RL rhoConstFresh |
528 |
_RL convertEmP2rUnit |
529 |
_RL tRef(Nr) |
530 |
_RL sRef(Nr) |
531 |
_RS fCori(1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy) |
532 |
_RS fCoriG(1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy) |
533 |
_RL startTime |
534 |
_RL endTime |
535 |
_RL chkPtFreq |
536 |
_RL pChkPtFreq |
537 |
_RL dumpFreq |
538 |
_RL diagFreq |
539 |
_RL taveFreq |
540 |
_RL tave_lastIter |
541 |
_RL monitorFreq |
542 |
_RL afFacMom |
543 |
_RL vfFacMom |
544 |
_RL pfFacMom |
545 |
_RL cfFacMom |
546 |
_RL foFacMom |
547 |
_RL mTFacMom |
548 |
_RL cosPower |
549 |
_RL cAdjFreq |
550 |
_RL omega |
551 |
_RL tauThetaClimRelax |
552 |
_RL lambdaThetaClimRelax |
553 |
_RL tauSaltClimRelax |
554 |
_RL lambdaSaltClimRelax |
555 |
_RL tauTr1ClimRelax |
556 |
_RL lambdaTr1ClimRelax |
557 |
_RL externForcingCycle |
558 |
_RL externForcingPeriod |
559 |
_RL convertFW2Salt |
560 |
_RL temp_EvPrRn |
561 |
_RL salt_EvPrRn |
562 |
_RL trac_EvPrRn |
563 |
_RL horiVertRatio |
564 |
_RL recip_horiVertRatio |
565 |
_RL ivdc_kappa |
566 |
_RL Ro_SeaLevel |
567 |
_RL bottomDragLinear |
568 |
_RL bottomDragQuadratic |
569 |
|
570 |
COMMON /PARM_A/ HeatCapacity_Cp,recip_Cp, |
571 |
& Lamba_theta |
572 |
_RL HeatCapacity_Cp |
573 |
_RL Lamba_theta |
574 |
_RL recip_Cp |
575 |
|
576 |
CmlC Equation of State (polynomial coeffients) |
577 |
Cml COMMON /PARM_EOS_NL/ eosC,eosSig0,eosRefT,eosRefS |
578 |
Cml _RL eosC(9,Nr+1),eosSig0(Nr+1),eosRefT(Nr+1),eosRefS(Nr+1) |
579 |
CmlC Linear equation of state |
580 |
CmlC tAlpha :: Linear EOS thermal expansion coefficient ( 1/degree ). |
581 |
CmlC sBeta :: Linear EOS haline contraction coefficient. |
582 |
Cml COMMON /PARM_EOS_LIN/ tAlpha,sBeta,eosType |
583 |
Cml _RL tAlpha |
584 |
Cml _RL sBeta |
585 |
|
586 |
C Atmospheric physical parameters (Ideal Gas EOS, ...) |
587 |
C atm_po :: standard reference pressure |
588 |
C atm_cp :: specific heat (Cp) of the (dry) air at constant pressure |
589 |
C atm_kappa :: kappa = R/Cp (R: constant of Ideal Gas EOS) |
590 |
C Integr_GeoPot :: option to select the way we integrate the geopotential |
591 |
C (still a subject of discussions ...) |
592 |
COMMON /PARM_ATM/ atm_cp, atm_kappa, atm_po, |
593 |
& Integr_GeoPot |
594 |
_RL atm_cp, atm_kappa, atm_po |
595 |
INTEGER Integr_GeoPot |
596 |
|
597 |
C Logical flags for selecting packages |
598 |
LOGICAL useKPP |
599 |
LOGICAL useGMRedi |
600 |
LOGICAL useOBCS |
601 |
LOGICAL useAIM |
602 |
LOGICAL useGrdchk |
603 |
LOGICAL useECCO |
604 |
LOGICAL useSHAP_FILT |
605 |
LOGICAL useZONAL_FILT |
606 |
LOGICAL useFLT |
607 |
LOGICAL usePTRACERS |
608 |
COMMON /PARM_PACKAGES/ |
609 |
& useKPP, useGMRedi, useOBCS, useAIM, useECCO, |
610 |
& useSHAP_FILT, useZONAL_FILT, useGrdchk, useFLT, |
611 |
& usePTRACERS |
612 |
|