model/inc/PARAMS.h

C $Header: /u/gcmpack/models/MITgcmUV/model/inc/PARAMS.h,v 1.24 1998/08/21 12:29:55 cnh Exp $
C
C     /==========================================================\
C     | PARAMS.h                                                 |
C     | o Header file defining model "parameters".               |
C     |==========================================================|
C     | The values from the model's standard input file are      |
C     | stored into the variables held here. Notes describing    |
C     | the parameters can also be found here.                   |
C     \==========================================================/

C     Macros for special grid options
#include "PARAMS_MACROS.h"

C--   Contants
C     Useful physical values
      Real*8 PI
      PARAMETER ( PI    = 3.14159265358979323844D0   )
      Real*8 deg2rad
      PARAMETER ( deg2rad = 2.D0*PI/360.D0           )

C     Symbolic values
C     precXXXX - Used to indicate what precision to use for
C                dumping model state.
      INTEGER precFloat32
      PARAMETER ( precFloat32 = 0 )
      INTEGER precFloat64
      PARAMETER ( precFloat64 = 1 )

C     Checkpoint data
      INTEGER maxNoChkptLev
      PARAMETER ( maxNoChkptLev = 2 )

C--   COMMON /PARM_C/ Character valued parameters used by the model.
C     checkPtSuff - List of checkpoint file suffices
C     bathyFile   - File containing bathymetry. If not defined bathymetry
C                   is taken from inline function.
C     hydrogThetaFile - File containing initial hydrographic data for potential
C                       temperature.
C     hydrogSaltFile  - File containing initial hydrographic data for salinity.
C     zonalWindFile   - File containing zonal wind data
C     meridWindFile   - File containing meridional wind data
C     thetaClimFile   - File containing theta climataology used
C                       in relaxation term -lambda(theta-theta*)
C     saltClimFile    - File containing salt climataology used
C                       in relaxation term -lambda(salt-salt*)
      COMMON /PARM_C/ checkPtSuff,
     &                bathyFile, hydrogThetaFile, hydrogSaltFile,
     &                zonalWindFile, meridWindFile, thetaClimFile,
     &                saltClimFile
      CHARACTER*(5) checkPtSuff(maxNoChkptLev)
      CHARACTER*(MAX_LEN_FNAM) bathyFile
      CHARACTER*(MAX_LEN_FNAM) hydrogThetaFile
      CHARACTER*(MAX_LEN_FNAM) hydrogSaltFile
      CHARACTER*(MAX_LEN_FNAM) zonalWindFile
      CHARACTER*(MAX_LEN_FNAM) meridWindFile
      CHARACTER*(MAX_LEN_FNAM) thetaClimFile
      CHARACTER*(MAX_LEN_FNAM) saltClimFile

C--   COMMON /PARM_I/ Integer valued parameters used by the model.
C     cg2dMaxIters        - Maximum number of iterations in the
C                           two-dimensional con. grad solver.
C     cg2dChkResFreq      - Frequency with which to check residual
C                           in con. grad solver.
C     nIter0              - Start time-step number of for this run
C     nTimeSteps          - Number of timesteps to execute
C     numStepsPerPickup   - For offline setup. Frequency of pickup
C                           of flow fields.
C     writeStatePrec      - Precision used for writing model state.
C     writeBinaryPrec     - Precision used for writing binary files
C     readBinaryPrec      - Precision used for reading binary files
C     nCheckLev           - Holds current checkpoint level
      COMMON /PARM_I/
     &        cg2dMaxIters,
     &        cg2dChkResFreq,
     &        nIter0, nTimeSteps,
     &        numStepsPerPickup,
     &        writeStatePrec, nCheckLev,
     &        writeBinaryPrec, readBinaryPrec
      INTEGER cg2dMaxIters
      INTEGER cg2dChkResFreq
      INTEGER nIter0
      INTEGER nTimeSteps
      INTEGER numStepsPerPickup
      INTEGER writeStatePrec
      INTEGER writeBinaryPrec
      INTEGER readBinaryPrec
      INTEGER nCheckLev

C--   COMMON /PARM_L/ Logical valued parameters used by the model.
C     usingCartesianGrid - If TRUE grid generation will be in a cartesian
C                          coordinate frame.
C     usingSphericalPolarGrid - If TRUE grid generation will be in a 
C                               spherical polar frame.
C     momViscosity  - Flag which turns momentum friction terms on and off.
C     momAdvection  - Flag which turns advection of momentum on and off.
C     momForcing    - Flag which turns external forcing of momentum on
C                     and off.
C     momPressureForcing - Flag which turns pressure term in momentum equation
C                          on and off.
C     metricTerms   - Flag which turns metric terms on or off.
C     usingSphericalPolarMTerms - If TRUE use spherical polar metric terms.
C     useCoriolis   - Flag which turns the coriolis terms on and off.
C     tempDiffusion - Flag which turns diffusion of temperature on
C                     and off.
C     tempAdvection - Flag which turns advection of temperature on
C                     and off.
C     tempForcing   - Flag which turns external forcing of temperature on
C                     and off.
C     saltDiffusion - Flag which turns diffusion of salinit on
C                     and off.
C     saltAdvection - Flag which turns advection of salinit on
C                     and off.
C     saltForcing   - Flag which turns external forcing of salinit on
C                     and off.
C     implicitFreeSurface - Set to true to use implcit free surface
C     rigidLid            - Set to true to use rigid lid
C     momStepping   - Turns momentum equation time-stepping off
C     tempStepping  - Turns temperature equation time-stepping off
C     saltStepping  - Turns salinity equation time-stepping off
C     useConstantF  - Coriolis parameter set to f0
C     useBetaPlaneF - Coriolis parameter set to f0 + beta.y
C     useSphereF    - Coriolis parameter set to 2.omega.sin(phi)
C     implicitDiffusion - Turns implicit vertical diffusion on
C     doThetaClimRelax - Set true if relaxation to temperature
C                        climatology is required.
C     doSaltClimRelax  - Set true if relaxation to salinity
C                        climatology is required.
C     periodicExternalForcing - Set true if forcing is time-dependant
      COMMON /PARM_L/ usingCartesianGrid, usingSphericalPolarGrid,
     & momViscosity, momAdvection, momForcing, useCoriolis, momPressureForcing,
     & tempDiffusion, tempAdvection, tempForcing,
     & saltDiffusion, saltAdvection, saltForcing,
     & implicitFreeSurface, rigidLid,
     & momStepping, tempStepping, saltStepping,
     & metricTerms, usingSphericalPolarMTerms,
     & useConstantF, useBetaPlaneF, useSphereF,
     & implicitDiffusion, doThetaClimRelax, doSaltClimRelax,
     & periodicExternalForcing
      LOGICAL usingCartesianGrid
      LOGICAL usingSphericalPolarGrid
      LOGICAL usingSphericalPolarMTerms
      LOGICAL momViscosity
      LOGICAL momAdvection
      LOGICAL momForcing
      LOGICAL momPressureForcing
      LOGICAL useCoriolis
      LOGICAL tempDiffusion
      LOGICAL tempAdvection
      LOGICAL tempForcing
      LOGICAL saltDiffusion
      LOGICAL saltAdvection
      LOGICAL saltForcing
      LOGICAL implicitFreeSurface
      LOGICAL rigidLid
      LOGICAL momStepping
      LOGICAL tempStepping
      LOGICAL saltStepping
      LOGICAL metricTerms
      LOGICAL useConstantF
      LOGICAL useBetaPlaneF
      LOGICAL useSphereF
      LOGICAL implicitDiffusion
      LOGICAL doThetaClimRelax
      LOGICAL doSaltClimRelax
      LOGICAL periodicExternalForcing

C--   COMMON /PARM_R/ "Real" valued parameters used by the model.
C     cg2dTargetResidual
C               - Target residual for cg2d solver.
C     cg2dpcOffDFac - Averaging weight for preconditioner off-diagonal.
C     Note. 20th May 1998
C           I made a weird discovery! In the model paper we argue
C           for the form of the preconditioner used here ( see
C           A Finite-volume, Incompressible Navier-Stokes Model
C           ...., Marshall et. al ). The algebra gives a simple
C           0.5 factor for the averaging of ac and aCw to get a
C           symmettric pre-conditioner. By using a factor of 0.51
C           i.e. scaling the off-diagonal terms in the
C           preconditioner down slightly I managed to get the
C           number of iterations for convergence in a test case to
C           drop form 192 -> 134! Need to investigate this further!
C           For now I have introduced a parameter cg2dpcOffDFac which
C           defaults to 0.51 but can be set at runtime.
C     delP      - Vertical grid spacing ( Pa ).
C     delZ      - Vertical grid spacing ( m  ).
C     delR      - Vertical grid spacing ( units of r ).
C     delX      - Separation between cell faces (m) or (deg), depending
C     delY        on input flags.
C     gravity   - Accel. due to gravity ( m/s^2 )
C     gBaro     - Accel. due to gravity used in barotropic equation ( m/s^2 )
C     ronil     - Reference density
C     rhoConst  - Vertically constant reference density 
C     startTime - Start time for model ( s )
C     phiMin    - Latitude of southern most cell face.
C     thetaMin  - Longitude of western most cell face (this
C                 is an "inert" parameter but it is included
C                 to make geographical references simple.)
C     rSphere   - Radius of sphere for a spherical polar grid ( m ).
C     recip_RSphere  - Reciprocal radius of sphere ( m ).
C     f0        - Reference coriolis parameter ( 1/s )
C                 ( Southern edge f for beta plane )
C     beta      - df/dy ( s^-1.m^-1 )
C     omega     - Angular velocity ( rad/s )
C     viscAh    - Eddy viscosity coeff. for mixing of
C                 momentum laterally ( m^2/s )
C     viscAz    - Eddy viscosity coeff. for mixing of
C                 momentum vertically ( m^2/s )
C     viscAr    - Eddy viscosity coeff. for mixing of
C                 momentum vertically ( units of r^2/s )
C     viscA4    - Biharmonic viscosity coeff. for mixing of
C                 momentum laterally ( m^4/s )
C     diffKhT   - Laplacian diffusion coeff. for mixing of
C                 heat laterally ( m^2/s )
C     diffKzT   - Laplacian diffusion coeff. for mixing of
C                 heat vertically ( m^2/s )
C     diffKrT   - Laplacian diffusion coeff. for mixing of
C                 heat vertically ( units of r^2/s )
C     diffK4T   - Biharmonic diffusion coeff. for mixing of
C                 heat laterally ( m^4/s )
C     diffKhS  -  Laplacian diffusion coeff. for mixing of
C                 salt laterally ( m^2/s )
C     diffKzS   - Laplacian diffusion coeff. for mixing of
C                 salt vertically ( m^2/s )
C     diffKrS   - Laplacian diffusion coeff. for mixing of
C                 salt vertically ( units of r^2/s )
C     diffK4S   - Biharmonic diffusion coeff. for mixing of
C                 salt laterally ( m^4/s )
C     deltaT    - Default timestep ( s )
C     deltaTClock  - Timestep used as model "clock". This determines the
C                    IO frequencies and is used in tagging output. It can
C                    be totally different to the dynamical time. Typically
C                    it will be the deep-water timestep for accelerated runs.
C                    Frequency of checkpointing and dumping of the model state
C                    are referenced to this clock. ( s )
C     deltaTMom    - Timestep for momemtum equations ( s )
C     deltaTtracer - Timestep for tracer equations ( s )
C     freesurfFac  - Parameter to turn implicit free surface term on or off
C                    freesurfac = 1. uses implicit free surface
C                    freesurfac = 0. uses rigid lid
C     hFacMin      - Minimum fraction size of a cell (affects hFacC etc...)
C     hFacMinDz    - Minimum dimesional size of a cell (affects hFacC etc..., m)
C     hFacMinDr    - Minimum dimesional size of a cell (affects hFacC etc..., units of r)
C     tauCD        - CD scheme coupling timescale ( 1/s )
C     rCD          - CD scheme normalised coupling parameter ( 0-1 )
C     GMmaxslope   - max. slope allowed in GM/Redi tensor
C     GMlength     - Length to use in Visbeck et al. formula for K (m)
C     GMalpha      - alpha to use in Visbeck et al. formula for K
C     GMdepth      - Depth over which to integrate Richardson # (Visbeck et al.)
C     GMkbackground - background value of GM/Redi diffusion coefficient ( m^2/s )
C     GMmaxval      - max. value of KapGM allowed in GM/Redi scheme ( m^2/s )
C     startTime     - Starting time for this integration ( s ).
C     endTime       - Ending time for this integration ( s ).
C     chkPtFreq     - Frequency of rolling check pointing ( s ).
C     pChkPtFreq    - Frequency of permanent check pointing ( s ).
C     dumpFreq      - Frequency with which model state is written to
C                     post-processing files ( s ).
C     afFacMom      - Advection of momentum term tracer parameter
C     vfFacMom      - Momentum viscosity tracer parameter
C     pfFacMom      - Momentum pressure forcing tracer parameter
C     cfFacMom      - Coriolis term tracer parameter
C     foFacMom      - Momentum forcing tracer parameter
C     mtFacMom      - Metric terms tracer parameter
C     cAdjFreq      - Frequency of convective adjustment
C
C     taveFreq  - Frequency with which time-averaged model state is written to
C                 post-processing files ( s ).
C     tauThetaClimRelax - Relaxation to climatology time scale ( s ).
C     lambdaThetaClimRelax - Inverse time scale for relaxation ( 1/s ).
C     tauSaltClimRelax - Relaxation to climatology time scale ( s ).
C     lambdaSaltClimRelax - Inverse time scale for relaxation ( 1/s ).
C     externForcingPeriod - Is the period of which forcing varies (eg. 1 month)
C     externForcingCycle - Is the repeat time of the forcing (eg. 1 year)
C                          (note: externForcingCycle must be an integer
C                           number times externForcingPeriod)
      COMMON /PARM_R/ cg2dTargetResidual, cg2dpcOffDFac, 
     & delP, delZ, delR, delX, delY, 
     & deltaT,deltaTmom, deltaTtracer, deltaTClock,abeps, startTime, phiMin, 
     & thetaMin, rSphere, recip_RSphere, f0, fCori, beta, 
     & viscAh,  viscAz,  viscA4,  viscAr,
     & diffKhT, diffKzT, diffK4T, diffKrT,
     & diffKhS, diffKzS, diffK4S, diffKrS,
     & delT, tauCD, rCD, freeSurfFac, hFacMin, hFacMinDz,
     & GMmaxslope,GMlength,GMalpha,GMdepth,GMkbackground,GMmaxval,
     & gravity, gBaro, rhonil, recip_rhonil, rhoConst, tRef, sRef,
     & endTime, chkPtFreq, pchkPtFreq, dumpFreq, taveFreq,
     & afFacMom, vfFacMom, pfFacMom, cfFacMom, foFacMom, mtFacMom,
     & cAdjFreq, omega, tauThetaClimRelax, lambdaThetaClimRelax,
     & tauSaltClimRelax, lambdaSaltClimRelax,
     & externForcingCycle, externForcingPeriod
      _RL cg2dTargetResidual
      _RL cg2dpcOffDFac
      _RL delZ(Nr)
      _RL delP(Nr)
      _RL delR(Nr)
      _RL delX(Nx)
      _RL delY(Ny)
      _RL deltaT
      _RL deltaTClock
      _RL deltaTmom
      _RL deltaTtracer
      _RL abeps
      _RL phiMin
      _RL thetaMin
      _RL rSphere
      _RL recip_RSphere
      _RL f0
      _RL freeSurfFac
      _RL hFacMin
      _RL hFacMinDz
      _RL beta
      _RL viscAh
      _RL viscAz
      _RL viscAr
      _RL viscA4 
      _RL diffKhT 
      _RL diffKrT
      _RL diffKzT
      _RL diffK4T 
      _RL diffKhS 
      _RL diffKrS
      _RL diffKzS
      _RL diffK4S 
      _RL delt
      _RL tauCD
      _RL rCD
      _RL GMmaxslope
      _RL GMlength
      _RL GMalpha
      _RL GMdepth
      _RL GMkbackground
      _RL GMmaxval
      _RL gravity
      _RL gBaro
      _RL rhonil
      _RL recip_rhonil
      _RL rhoConst
      _RL tRef(Nr)
      _RL sRef(Nr)
      _RS Fcori(1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)
      _RL startTime
      _RL endTime
      _RL chkPtFreq
      _RL pChkPtFreq
      _RL dumpFreq
      _RL taveFreq
      _RL afFacMom
      _RL vfFacMom
      _RL pfFacMom
      _RL cfFacMom
      _RL foFacMom
      _RL mTFacMom
      _RL cAdjFreq
      _RL omega
      _RL tauThetaClimRelax
      _RL lambdaThetaClimRelax
      _RL tauSaltClimRelax
      _RL lambdaSaltClimRelax
      _RL externForcingCycle
      _RL externForcingPeriod

      COMMON /PARM_A/ HeatCapacity_Cp,
     &                Lamba_theta
      _RL HeatCapacity_Cp
      _RL Lamba_theta

C Equation of State (polynomial coeffients)
      COMMON /PARM_EOS_NL/ eosC,eosSig0,eosRefT,eosRefS
      _RL eosC(9,Nr+1),eosSig0(Nr+1),eosRefT(Nr+1),eosRefS(Nr+1)
C Linear equation of state
C     tAlpha    - Linear EOS thermal expansion coefficient ( 1/degree ).
C     sBeta     - Linear EOS haline contraction coefficient.
      COMMON /PARM_EOS_LIN/ tAlpha,sBeta,eosType
      _RL tAlpha
      _RL sBeta
      character*(6) eosType

1	C $Header: /u/gcmpack/models/MITgcmUV/model/inc/PARAMS.h,v 1.24 1998/08/21 12:29:55 cnh Exp $
2	C
3	C /==========================================================\
4	C \| PARAMS.h \|
5	C \| o Header file defining model "parameters". \|
6	C \|==========================================================\|
7	C \| The values from the model's standard input file are \|
8	C \| stored into the variables held here. Notes describing \|
9	C \| the parameters can also be found here. \|
10	C \==========================================================/
11
12	C Macros for special grid options
13	#include "PARAMS_MACROS.h"
14
15	C-- Contants
16	C Useful physical values
17	Real*8 PI
18	PARAMETER ( PI = 3.14159265358979323844D0 )
19	Real*8 deg2rad
20	PARAMETER ( deg2rad = 2.D0*PI/360.D0 )
21
22	C Symbolic values
23	C precXXXX - Used to indicate what precision to use for
24	C dumping model state.
25	INTEGER precFloat32
26	PARAMETER ( precFloat32 = 0 )
27	INTEGER precFloat64
28	PARAMETER ( precFloat64 = 1 )
29
30	C Checkpoint data
31	INTEGER maxNoChkptLev
32	PARAMETER ( maxNoChkptLev = 2 )
33
34	C-- COMMON /PARM_C/ Character valued parameters used by the model.
35	C checkPtSuff - List of checkpoint file suffices
36	C bathyFile - File containing bathymetry. If not defined bathymetry
37	C is taken from inline function.
38	C hydrogThetaFile - File containing initial hydrographic data for potential
39	C temperature.
40	C hydrogSaltFile - File containing initial hydrographic data for salinity.
41	C zonalWindFile - File containing zonal wind data
42	C meridWindFile - File containing meridional wind data
43	C thetaClimFile - File containing theta climataology used
44	C in relaxation term -lambda(theta-theta*)
45	C saltClimFile - File containing salt climataology used
46	C in relaxation term -lambda(salt-salt*)
47	COMMON /PARM_C/ checkPtSuff,
48	& bathyFile, hydrogThetaFile, hydrogSaltFile,
49	& zonalWindFile, meridWindFile, thetaClimFile,
50	& saltClimFile
51	CHARACTER*(5) checkPtSuff(maxNoChkptLev)
52	CHARACTER*(MAX_LEN_FNAM) bathyFile
53	CHARACTER*(MAX_LEN_FNAM) hydrogThetaFile
54	CHARACTER*(MAX_LEN_FNAM) hydrogSaltFile
55	CHARACTER*(MAX_LEN_FNAM) zonalWindFile
56	CHARACTER*(MAX_LEN_FNAM) meridWindFile
57	CHARACTER*(MAX_LEN_FNAM) thetaClimFile
58	CHARACTER*(MAX_LEN_FNAM) saltClimFile
59
60	C-- COMMON /PARM_I/ Integer valued parameters used by the model.
61	C cg2dMaxIters - Maximum number of iterations in the
62	C two-dimensional con. grad solver.
63	C cg2dChkResFreq - Frequency with which to check residual
64	C in con. grad solver.
65	C nIter0 - Start time-step number of for this run
66	C nTimeSteps - Number of timesteps to execute
67	C numStepsPerPickup - For offline setup. Frequency of pickup
68	C of flow fields.
69	C writeStatePrec - Precision used for writing model state.
70	C writeBinaryPrec - Precision used for writing binary files
71	C readBinaryPrec - Precision used for reading binary files
72	C nCheckLev - Holds current checkpoint level
73	COMMON /PARM_I/
74	& cg2dMaxIters,
75	& cg2dChkResFreq,
76	& nIter0, nTimeSteps,
77	& numStepsPerPickup,
78	& writeStatePrec, nCheckLev,
79	& writeBinaryPrec, readBinaryPrec
80	INTEGER cg2dMaxIters
81	INTEGER cg2dChkResFreq
82	INTEGER nIter0
83	INTEGER nTimeSteps
84	INTEGER numStepsPerPickup
85	INTEGER writeStatePrec
86	INTEGER writeBinaryPrec
87	INTEGER readBinaryPrec
88	INTEGER nCheckLev
89
90	C-- COMMON /PARM_L/ Logical valued parameters used by the model.
91	C usingCartesianGrid - If TRUE grid generation will be in a cartesian
92	C coordinate frame.
93	C usingSphericalPolarGrid - If TRUE grid generation will be in a
94	C spherical polar frame.
95	C momViscosity - Flag which turns momentum friction terms on and off.
96	C momAdvection - Flag which turns advection of momentum on and off.
97	C momForcing - Flag which turns external forcing of momentum on
98	C and off.
99	C momPressureForcing - Flag which turns pressure term in momentum equation
100	C on and off.
101	C metricTerms - Flag which turns metric terms on or off.
102	C usingSphericalPolarMTerms - If TRUE use spherical polar metric terms.
103	C useCoriolis - Flag which turns the coriolis terms on and off.
104	C tempDiffusion - Flag which turns diffusion of temperature on
105	C and off.
106	C tempAdvection - Flag which turns advection of temperature on
107	C and off.
108	C tempForcing - Flag which turns external forcing of temperature on
109	C and off.
110	C saltDiffusion - Flag which turns diffusion of salinit on
111	C and off.
112	C saltAdvection - Flag which turns advection of salinit on
113	C and off.
114	C saltForcing - Flag which turns external forcing of salinit on
115	C and off.
116	C implicitFreeSurface - Set to true to use implcit free surface
117	C rigidLid - Set to true to use rigid lid
118	C momStepping - Turns momentum equation time-stepping off
119	C tempStepping - Turns temperature equation time-stepping off
120	C saltStepping - Turns salinity equation time-stepping off
121	C useConstantF - Coriolis parameter set to f0
122	C useBetaPlaneF - Coriolis parameter set to f0 + beta.y
123	C useSphereF - Coriolis parameter set to 2.omega.sin(phi)
124	C implicitDiffusion - Turns implicit vertical diffusion on
125	C doThetaClimRelax - Set true if relaxation to temperature
126	C climatology is required.
127	C doSaltClimRelax - Set true if relaxation to salinity
128	C climatology is required.
129	C periodicExternalForcing - Set true if forcing is time-dependant
130	COMMON /PARM_L/ usingCartesianGrid, usingSphericalPolarGrid,
131	& momViscosity, momAdvection, momForcing, useCoriolis, momPressureForcing,
132	& tempDiffusion, tempAdvection, tempForcing,
133	& saltDiffusion, saltAdvection, saltForcing,
134	& implicitFreeSurface, rigidLid,
135	& momStepping, tempStepping, saltStepping,
136	& metricTerms, usingSphericalPolarMTerms,
137	& useConstantF, useBetaPlaneF, useSphereF,
138	& implicitDiffusion, doThetaClimRelax, doSaltClimRelax,
139	& periodicExternalForcing
140	LOGICAL usingCartesianGrid
141	LOGICAL usingSphericalPolarGrid
142	LOGICAL usingSphericalPolarMTerms
143	LOGICAL momViscosity
144	LOGICAL momAdvection
145	LOGICAL momForcing
146	LOGICAL momPressureForcing
147	LOGICAL useCoriolis
148	LOGICAL tempDiffusion
149	LOGICAL tempAdvection
150	LOGICAL tempForcing
151	LOGICAL saltDiffusion
152	LOGICAL saltAdvection
153	LOGICAL saltForcing
154	LOGICAL implicitFreeSurface
155	LOGICAL rigidLid
156	LOGICAL momStepping
157	LOGICAL tempStepping
158	LOGICAL saltStepping
159	LOGICAL metricTerms
160	LOGICAL useConstantF
161	LOGICAL useBetaPlaneF
162	LOGICAL useSphereF
163	LOGICAL implicitDiffusion
164	LOGICAL doThetaClimRelax
165	LOGICAL doSaltClimRelax
166	LOGICAL periodicExternalForcing
167
168	C-- COMMON /PARM_R/ "Real" valued parameters used by the model.
169	C cg2dTargetResidual
170	C - Target residual for cg2d solver.
171	C cg2dpcOffDFac - Averaging weight for preconditioner off-diagonal.
172	C Note. 20th May 1998
173	C I made a weird discovery! In the model paper we argue
174	C for the form of the preconditioner used here ( see
175	C A Finite-volume, Incompressible Navier-Stokes Model
176	C ...., Marshall et. al ). The algebra gives a simple
177	C 0.5 factor for the averaging of ac and aCw to get a
178	C symmettric pre-conditioner. By using a factor of 0.51
179	C i.e. scaling the off-diagonal terms in the
180	C preconditioner down slightly I managed to get the
181	C number of iterations for convergence in a test case to
182	C drop form 192 -> 134! Need to investigate this further!
183	C For now I have introduced a parameter cg2dpcOffDFac which
184	C defaults to 0.51 but can be set at runtime.
185	C delP - Vertical grid spacing ( Pa ).
186	C delZ - Vertical grid spacing ( m ).
187	C delR - Vertical grid spacing ( units of r ).
188	C delX - Separation between cell faces (m) or (deg), depending
189	C delY on input flags.
190	C gravity - Accel. due to gravity ( m/s^2 )
191	C gBaro - Accel. due to gravity used in barotropic equation ( m/s^2 )
192	C ronil - Reference density
193	C rhoConst - Vertically constant reference density
194	C startTime - Start time for model ( s )
195	C phiMin - Latitude of southern most cell face.
196	C thetaMin - Longitude of western most cell face (this
197	C is an "inert" parameter but it is included
198	C to make geographical references simple.)
199	C rSphere - Radius of sphere for a spherical polar grid ( m ).
200	C recip_RSphere - Reciprocal radius of sphere ( m ).
201	C f0 - Reference coriolis parameter ( 1/s )
202	C ( Southern edge f for beta plane )
203	C beta - df/dy ( s^-1.m^-1 )
204	C omega - Angular velocity ( rad/s )
205	C viscAh - Eddy viscosity coeff. for mixing of
206	C momentum laterally ( m^2/s )
207	C viscAz - Eddy viscosity coeff. for mixing of
208	C momentum vertically ( m^2/s )
209	C viscAr - Eddy viscosity coeff. for mixing of
210	C momentum vertically ( units of r^2/s )
211	C viscA4 - Biharmonic viscosity coeff. for mixing of
212	C momentum laterally ( m^4/s )
213	C diffKhT - Laplacian diffusion coeff. for mixing of
214	C heat laterally ( m^2/s )
215	C diffKzT - Laplacian diffusion coeff. for mixing of
216	C heat vertically ( m^2/s )
217	C diffKrT - Laplacian diffusion coeff. for mixing of
218	C heat vertically ( units of r^2/s )
219	C diffK4T - Biharmonic diffusion coeff. for mixing of
220	C heat laterally ( m^4/s )
221	C diffKhS - Laplacian diffusion coeff. for mixing of
222	C salt laterally ( m^2/s )
223	C diffKzS - Laplacian diffusion coeff. for mixing of
224	C salt vertically ( m^2/s )
225	C diffKrS - Laplacian diffusion coeff. for mixing of
226	C salt vertically ( units of r^2/s )
227	C diffK4S - Biharmonic diffusion coeff. for mixing of
228	C salt laterally ( m^4/s )
229	C deltaT - Default timestep ( s )
230	C deltaTClock - Timestep used as model "clock". This determines the
231	C IO frequencies and is used in tagging output. It can
232	C be totally different to the dynamical time. Typically
233	C it will be the deep-water timestep for accelerated runs.
234	C Frequency of checkpointing and dumping of the model state
235	C are referenced to this clock. ( s )
236	C deltaTMom - Timestep for momemtum equations ( s )
237	C deltaTtracer - Timestep for tracer equations ( s )
238	C freesurfFac - Parameter to turn implicit free surface term on or off
239	C freesurfac = 1. uses implicit free surface
240	C freesurfac = 0. uses rigid lid
241	C hFacMin - Minimum fraction size of a cell (affects hFacC etc...)
242	C hFacMinDz - Minimum dimesional size of a cell (affects hFacC etc..., m)
243	C hFacMinDr - Minimum dimesional size of a cell (affects hFacC etc..., units of r)
244	C tauCD - CD scheme coupling timescale ( 1/s )
245	C rCD - CD scheme normalised coupling parameter ( 0-1 )
246	C GMmaxslope - max. slope allowed in GM/Redi tensor
247	C GMlength - Length to use in Visbeck et al. formula for K (m)
248	C GMalpha - alpha to use in Visbeck et al. formula for K
249	C GMdepth - Depth over which to integrate Richardson # (Visbeck et al.)
250	C GMkbackground - background value of GM/Redi diffusion coefficient ( m^2/s )
251	C GMmaxval - max. value of KapGM allowed in GM/Redi scheme ( m^2/s )
252	C startTime - Starting time for this integration ( s ).
253	C endTime - Ending time for this integration ( s ).
254	C chkPtFreq - Frequency of rolling check pointing ( s ).
255	C pChkPtFreq - Frequency of permanent check pointing ( s ).
256	C dumpFreq - Frequency with which model state is written to
257	C post-processing files ( s ).
258	C afFacMom - Advection of momentum term tracer parameter
259	C vfFacMom - Momentum viscosity tracer parameter
260	C pfFacMom - Momentum pressure forcing tracer parameter
261	C cfFacMom - Coriolis term tracer parameter
262	C foFacMom - Momentum forcing tracer parameter
263	C mtFacMom - Metric terms tracer parameter
264	C cAdjFreq - Frequency of convective adjustment
265	C
266	C taveFreq - Frequency with which time-averaged model state is written to
267	C post-processing files ( s ).
268	C tauThetaClimRelax - Relaxation to climatology time scale ( s ).
269	C lambdaThetaClimRelax - Inverse time scale for relaxation ( 1/s ).
270	C tauSaltClimRelax - Relaxation to climatology time scale ( s ).
271	C lambdaSaltClimRelax - Inverse time scale for relaxation ( 1/s ).
272	C externForcingPeriod - Is the period of which forcing varies (eg. 1 month)
273	C externForcingCycle - Is the repeat time of the forcing (eg. 1 year)
274	C (note: externForcingCycle must be an integer
275	C number times externForcingPeriod)
276	COMMON /PARM_R/ cg2dTargetResidual, cg2dpcOffDFac,
277	& delP, delZ, delR, delX, delY,
278	& deltaT,deltaTmom, deltaTtracer, deltaTClock,abeps, startTime, phiMin,
279	& thetaMin, rSphere, recip_RSphere, f0, fCori, beta,
280	& viscAh, viscAz, viscA4, viscAr,
281	& diffKhT, diffKzT, diffK4T, diffKrT,
282	& diffKhS, diffKzS, diffK4S, diffKrS,
283	& delT, tauCD, rCD, freeSurfFac, hFacMin, hFacMinDz,
284	& GMmaxslope,GMlength,GMalpha,GMdepth,GMkbackground,GMmaxval,
285	& gravity, gBaro, rhonil, recip_rhonil, rhoConst, tRef, sRef,
286	& endTime, chkPtFreq, pchkPtFreq, dumpFreq, taveFreq,
287	& afFacMom, vfFacMom, pfFacMom, cfFacMom, foFacMom, mtFacMom,
288	& cAdjFreq, omega, tauThetaClimRelax, lambdaThetaClimRelax,
289	& tauSaltClimRelax, lambdaSaltClimRelax,
290	& externForcingCycle, externForcingPeriod
291	_RL cg2dTargetResidual
292	_RL cg2dpcOffDFac
293	_RL delZ(Nr)
294	_RL delP(Nr)
295	_RL delR(Nr)
296	_RL delX(Nx)
297	_RL delY(Ny)
298	_RL deltaT
299	_RL deltaTClock
300	_RL deltaTmom
301	_RL deltaTtracer
302	_RL abeps
303	_RL phiMin
304	_RL thetaMin
305	_RL rSphere
306	_RL recip_RSphere
307	_RL f0
308	_RL freeSurfFac
309	_RL hFacMin
310	_RL hFacMinDz
311	_RL beta
312	_RL viscAh
313	_RL viscAz
314	_RL viscAr
315	_RL viscA4
316	_RL diffKhT
317	_RL diffKrT
318	_RL diffKzT
319	_RL diffK4T
320	_RL diffKhS
321	_RL diffKrS
322	_RL diffKzS
323	_RL diffK4S
324	_RL delt
325	_RL tauCD
326	_RL rCD
327	_RL GMmaxslope
328	_RL GMlength
329	_RL GMalpha
330	_RL GMdepth
331	_RL GMkbackground
332	_RL GMmaxval
333	_RL gravity
334	_RL gBaro
335	_RL rhonil
336	_RL recip_rhonil
337	_RL rhoConst
338	_RL tRef(Nr)
339	_RL sRef(Nr)
340	_RS Fcori(1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)
341	_RL startTime
342	_RL endTime
343	_RL chkPtFreq
344	_RL pChkPtFreq
345	_RL dumpFreq
346	_RL taveFreq
347	_RL afFacMom
348	_RL vfFacMom
349	_RL pfFacMom
350	_RL cfFacMom
351	_RL foFacMom
352	_RL mTFacMom
353	_RL cAdjFreq
354	_RL omega
355	_RL tauThetaClimRelax
356	_RL lambdaThetaClimRelax
357	_RL tauSaltClimRelax
358	_RL lambdaSaltClimRelax
359	_RL externForcingCycle
360	_RL externForcingPeriod
361
362	COMMON /PARM_A/ HeatCapacity_Cp,
363	& Lamba_theta
364	_RL HeatCapacity_Cp
365	_RL Lamba_theta
366
367	C Equation of State (polynomial coeffients)
368	COMMON /PARM_EOS_NL/ eosC,eosSig0,eosRefT,eosRefS
369	_RL eosC(9,Nr+1),eosSig0(Nr+1),eosRefT(Nr+1),eosRefS(Nr+1)
370	C Linear equation of state
371	C tAlpha - Linear EOS thermal expansion coefficient ( 1/degree ).
372	C sBeta - Linear EOS haline contraction coefficient.
373	COMMON /PARM_EOS_LIN/ tAlpha,sBeta,eosType
374	_RL tAlpha
375	_RL sBeta
376	character*(6) eosType
377