/[MITgcm]/MITgcm/model/inc/PARAMS.h
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revision 1.3 by cnh, Sun Apr 26 23:41:54 1998 UTC revision 1.268 by jmc, Mon Apr 22 02:32:47 2013 UTC
# Line 1  Line 1 
1  C $Header$  C $Header$
2    C $Name$
3  C  C
4  C     /==========================================================\  
5  C     | PARAMS.h                                                 |  CBOP
6  C     | o Header file defining model "parameters".               |  C     !ROUTINE: PARAMS.h
7  C     |==========================================================|  C     !INTERFACE:
8  C     | The values from the model's standard input file are      |  C     #include PARAMS.h
9  C     | stored into the variables held here. Notes describing    |  
10  C     | the parameters can also be found here.                   |  C     !DESCRIPTION:
11  C     \==========================================================/  C     Header file defining model "parameters".  The values from the
12    C     model standard input file are stored into the variables held
13    C     here. Notes describing the parameters can also be found here.
14    
15    CEOP
16    
17    C     Macros for special grid options
18    #include "PARAMS_MACROS.h"
19    
20  C--   Contants  C--   Contants
 C     nOBands - No. of offline data time bands  
       INTEGER nOBands  
       PARAMETER ( nOBands = 12 )  
21  C     Useful physical values  C     Useful physical values
22        Real*8 PI        Real*8 PI
23        PARAMETER ( PI    = 3.14159265358979323844D0   )        PARAMETER ( PI    = 3.14159265358979323844D0   )
# Line 20  C     Useful physical values Line 25  C     Useful physical values
25        PARAMETER ( deg2rad = 2.D0*PI/360.D0           )        PARAMETER ( deg2rad = 2.D0*PI/360.D0           )
26    
27  C--   COMMON /PARM_C/ Character valued parameters used by the model.  C--   COMMON /PARM_C/ Character valued parameters used by the model.
28  C     oBandId  - Offline dataset identifiers for different periods.  C     buoyancyRelation :: Flag used to indicate which relation to use to
29        COMMON /PARM_C/ oBandId  C                         get buoyancy.
30        CHARACTER*3 oBandId(nOBands)  C     eosType         :: choose the equation of state:
31    C                        LINEAR, POLY3, UNESCO, JMD95Z, JMD95P, MDJWF, IDEALGAS
32    C     pickupSuff      :: force to start from pickup files (even if nIter0=0)
33    C                        and read pickup files with this suffix (max 10 Char.)
34    C     mdsioLocalDir   :: read-write tiled file from/to this directory name
35    C                        (+ 4 digits Processor-Rank) instead of current dir.
36    C     adTapeDir       :: read-write checkpointing tape files from/to this
37    C                        directory name instead of current dir. Conflicts
38    C                        mdsioLocalDir, so only one of the two can be set.
39    C                        In contrast to mdsioLocalDir, if specified adTapeDir
40    C                        must exist before the model starts.
41    C     tRefFile      :: File containing reference Potential Temperat.  tRef (1.D)
42    C     sRefFile      :: File containing reference salinity/spec.humid. sRef (1.D)
43    C     rhoRefFile    :: File containing reference density profile rhoRef (1.D)
44    C     delRFile      :: File containing vertical grid spacing delR  (1.D array)
45    C     delRcFile     :: File containing vertical grid spacing delRc (1.D array)
46    C     hybSigmFile   :: File containing hybrid-sigma vertical coord. coeff. (2x 1.D)
47    C     delXFile      :: File containing X-spacing grid definition (1.D array)
48    C     delYFile      :: File containing Y-spacing grid definition (1.D array)
49    C     horizGridFile :: File containing horizontal-grid definition
50    C                        (only when using curvilinear_grid)
51    C     bathyFile       :: File containing bathymetry. If not defined bathymetry
52    C                        is taken from inline function.
53    C     topoFile        :: File containing the topography of the surface (unit=m)
54    C                        (mainly used for the atmosphere = ground height).
55    C     hydrogThetaFile :: File containing initial hydrographic data (3-D)
56    C                        for potential temperature.
57    C     hydrogSaltFile  :: File containing initial hydrographic data (3-D)
58    C                        for salinity.
59    C     diffKrFile      :: File containing 3D specification of vertical diffusivity
60    C     viscAhDfile     :: File containing 3D specification of horizontal viscosity
61    C     viscAhZfile     :: File containing 3D specification of horizontal viscosity
62    C     viscA4Dfile     :: File containing 3D specification of horizontal viscosity
63    C     viscA4Zfile     :: File containing 3D specification of horizontal viscosity
64    C     zonalWindFile   :: File containing zonal wind data
65    C     meridWindFile   :: File containing meridional wind data
66    C     thetaClimFile   :: File containing surface theta climataology used
67    C                        in relaxation term -lambda(theta-theta*)
68    C     saltClimFile    :: File containing surface salt climataology used
69    C                        in relaxation term -lambda(salt-salt*)
70    C     surfQfile       :: File containing surface heat flux, excluding SW
71    C                        (old version, kept for backward compatibility)
72    C     surfQnetFile    :: File containing surface net heat flux
73    C     surfQswFile     :: File containing surface shortwave radiation
74    C     EmPmRfile       :: File containing surface fresh water flux
75    C           NOTE: for backward compatibility EmPmRfile is specified in
76    C                 m/s when using external_fields_load.F.  It is converted
77    C                 to kg/m2/s by multiplying by rhoConstFresh.
78    C     saltFluxFile    :: File containing surface salt flux
79    C     pLoadFile       :: File containing pressure loading
80    C     addMassFile     :: File containing source/sink of fluid in the interior
81    C     eddyPsiXFile    :: File containing zonal Eddy streamfunction data
82    C     eddyPsiYFile    :: File containing meridional Eddy streamfunction data
83    C     the_run_name    :: string identifying the name of the model "run"
84          COMMON /PARM_C/
85         &                buoyancyRelation, eosType,
86         &                pickupSuff, mdsioLocalDir, adTapeDir,
87         &                tRefFile, sRefFile, rhoRefFile,
88         &                delRFile, delRcFile, hybSigmFile,
89         &                delXFile, delYFile, horizGridFile,
90         &                bathyFile, topoFile,
91         &                viscAhDfile, viscAhZfile,
92         &                viscA4Dfile, viscA4Zfile,
93         &                hydrogThetaFile, hydrogSaltFile, diffKrFile,
94         &                zonalWindFile, meridWindFile, thetaClimFile,
95         &                saltClimFile,
96         &                EmPmRfile, saltFluxFile,
97         &                surfQfile, surfQnetFile, surfQswFile,
98         &                lambdaThetaFile, lambdaSaltFile,
99         &                uVelInitFile, vVelInitFile, pSurfInitFile,
100         &                pLoadFile, addMassFile,
101         &                eddyPsiXFile, eddyPsiYFile,
102         &                the_run_name
103          CHARACTER*(MAX_LEN_FNAM) buoyancyRelation
104          CHARACTER*(6)  eosType
105          CHARACTER*(10) pickupSuff
106          CHARACTER*(MAX_LEN_FNAM) mdsioLocalDir
107          CHARACTER*(MAX_LEN_FNAM) adTapeDir
108          CHARACTER*(MAX_LEN_FNAM) tRefFile
109          CHARACTER*(MAX_LEN_FNAM) sRefFile
110          CHARACTER*(MAX_LEN_FNAM) rhoRefFile
111          CHARACTER*(MAX_LEN_FNAM) delRFile
112          CHARACTER*(MAX_LEN_FNAM) delRcFile
113          CHARACTER*(MAX_LEN_FNAM) hybSigmFile
114          CHARACTER*(MAX_LEN_FNAM) delXFile
115          CHARACTER*(MAX_LEN_FNAM) delYFile
116          CHARACTER*(MAX_LEN_FNAM) horizGridFile
117          CHARACTER*(MAX_LEN_FNAM) bathyFile, topoFile
118          CHARACTER*(MAX_LEN_FNAM) hydrogThetaFile, hydrogSaltFile
119          CHARACTER*(MAX_LEN_FNAM) diffKrFile
120          CHARACTER*(MAX_LEN_FNAM) viscAhDfile
121          CHARACTER*(MAX_LEN_FNAM) viscAhZfile
122          CHARACTER*(MAX_LEN_FNAM) viscA4Dfile
123          CHARACTER*(MAX_LEN_FNAM) viscA4Zfile
124          CHARACTER*(MAX_LEN_FNAM) zonalWindFile
125          CHARACTER*(MAX_LEN_FNAM) meridWindFile
126          CHARACTER*(MAX_LEN_FNAM) thetaClimFile
127          CHARACTER*(MAX_LEN_FNAM) saltClimFile
128          CHARACTER*(MAX_LEN_FNAM) surfQfile
129          CHARACTER*(MAX_LEN_FNAM) surfQnetFile
130          CHARACTER*(MAX_LEN_FNAM) surfQswFile
131          CHARACTER*(MAX_LEN_FNAM) EmPmRfile
132          CHARACTER*(MAX_LEN_FNAM) saltFluxFile
133          CHARACTER*(MAX_LEN_FNAM) uVelInitFile
134          CHARACTER*(MAX_LEN_FNAM) vVelInitFile
135          CHARACTER*(MAX_LEN_FNAM) pSurfInitFile
136          CHARACTER*(MAX_LEN_FNAM) pLoadFile
137          CHARACTER*(MAX_LEN_FNAM) addMassFile
138          CHARACTER*(MAX_LEN_FNAM) eddyPsiXFile
139          CHARACTER*(MAX_LEN_FNAM) eddyPsiYFile
140          CHARACTER*(MAX_LEN_FNAM) lambdaThetaFile
141          CHARACTER*(MAX_LEN_FNAM) lambdaSaltFile
142          CHARACTER*(MAX_LEN_PREC/2) the_run_name
143    
144  C--   COMMON /PARM_I/ Integer valued parameters used by the model.  C--   COMMON /PARM_I/ Integer valued parameters used by the model.
145  C     cg2dMaxIters        - Maximum number of iterations in the  C     cg2dMaxIters        :: Maximum number of iterations in the
146  C                           two-dimensional con. grad solver.  C                            two-dimensional con. grad solver.
147  C     cg2dChkResFreq      - Frequency with which to check residual  C     cg2dChkResFreq      :: Frequency with which to check residual
148  C                           in con. grad solver.  C                            in con. grad solver.
149  C     nIter0              - Start time-step number of for this run  C     cg2dPreCondFreq     :: Frequency for updating cg2d preconditioner
150  C     nTimeSteps          - Number of timesteps to execute  C                            (non-linear free-surf.)
151  C     numStepsPerPickup   - For offline setup. Frequency of pickup  C     cg2dUseMinResSol    :: =0 : use last-iteration/converged solution
152  C                           of flow fields.  C                            =1 : use solver minimum-residual solution
153    C     cg3dMaxIters        :: Maximum number of iterations in the
154    C                            three-dimensional con. grad solver.
155    C     cg3dChkResFreq      :: Frequency with which to check residual
156    C                            in con. grad solver.
157    C     printResidualFreq   :: Frequency for printing residual in CG iterations
158    C     nIter0              :: Start time-step number of for this run
159    C     nTimeSteps          :: Number of timesteps to execute
160    C     writeStatePrec      :: Precision used for writing model state.
161    C     writeBinaryPrec     :: Precision used for writing binary files
162    C     readBinaryPrec      :: Precision used for reading binary files
163    C     selectCoriMap       :: select setting of Coriolis parameter map:
164    C                           =0 f-Plane (Constant Coriolis, = f0)
165    C                           =1 Beta-Plane Coriolis (= f0 + beta.y)
166    C                           =2 Spherical Coriolis (= 2.omega.sin(phi))
167    C                           =3 Read Coriolis 2-d fields from files.
168    C     selectSigmaCoord    :: option related to sigma vertical coordinate
169    C     nonlinFreeSurf      :: option related to non-linear free surface
170    C                           =0 Linear free surface ; >0 Non-linear
171    C     select_rStar        :: option related to r* vertical coordinate
172    C                           =0 (default) use r coord. ; > 0 use r*
173    C     selectNHfreeSurf    :: option for Non-Hydrostatic (free-)Surface formulation:
174    C                           =0 (default) hydrostatic surf. ; > 0 add NH effects.
175    C     selectAddFluid      :: option to add mass source/sink of fluid in the interior
176    C                            (3-D generalisation of oceanic real-fresh water flux)
177    C                           =0 off ; =1 add fluid ; =-1 virtual flux (no mass added)
178    C     momForcingOutAB     :: =1: take momentum forcing contribution
179    C                            out of (=0: in) Adams-Bashforth time stepping.
180    C     tracForcingOutAB    :: =1: take tracer (Temp,Salt,pTracers) forcing contribution
181    C                            out of (=0: in) Adams-Bashforth time stepping.
182    C     tempAdvScheme       :: Temp. Horiz.Advection scheme selector
183    C     tempVertAdvScheme   :: Temp. Vert. Advection scheme selector
184    C     saltAdvScheme       :: Salt. Horiz.advection scheme selector
185    C     saltVertAdvScheme   :: Salt. Vert. Advection scheme selector
186    C     selectKEscheme      :: Kinetic Energy scheme selector (Vector Inv.)
187    C     selectVortScheme    :: Scheme selector for Vorticity term (Vector Inv.)
188    C     monitorSelect       :: select group of variables to monitor
189    C                            =1 : dynvars ; =2 : + vort ; =3 : + surface
190    C-    debugLevel          :: controls printing of algorithm intermediate results
191    C                            and statistics ; higher -> more writing
192    
193        COMMON /PARM_I/        COMMON /PARM_I/
194       &        cg2dMaxIters,       &        cg2dMaxIters, cg2dChkResFreq,
195       &        cg2dChkResFreq,       &        cg2dPreCondFreq, cg2dUseMinResSol,
196       &        nIter0, nTimeSteps,       &        cg3dMaxIters, cg3dChkResFreq,
197       &        numStepsPerPickup       &        printResidualFreq,
198         &        nIter0, nTimeSteps, nEndIter,
199         &        writeStatePrec,
200         &        writeBinaryPrec, readBinaryPrec,
201         &        selectCoriMap,
202         &        selectSigmaCoord,
203         &        nonlinFreeSurf, select_rStar,
204         &        selectNHfreeSurf,
205         &        selectAddFluid,
206         &        momForcingOutAB, tracForcingOutAB,
207         &        tempAdvScheme, tempVertAdvScheme,
208         &        saltAdvScheme, saltVertAdvScheme,
209         &        selectKEscheme, selectVortScheme,
210         &        monitorSelect, debugLevel
211        INTEGER cg2dMaxIters        INTEGER cg2dMaxIters
212        INTEGER cg2dChkResFreq        INTEGER cg2dChkResFreq
213          INTEGER cg2dPreCondFreq
214          INTEGER cg2dUseMinResSol
215          INTEGER cg3dMaxIters
216          INTEGER cg3dChkResFreq
217          INTEGER printResidualFreq
218        INTEGER nIter0        INTEGER nIter0
219        INTEGER nTimeSteps        INTEGER nTimeSteps
220        INTEGER numStepsPerPickup        INTEGER nEndIter
221          INTEGER writeStatePrec
222          INTEGER writeBinaryPrec
223          INTEGER readBinaryPrec
224          INTEGER selectCoriMap
225          INTEGER selectSigmaCoord
226          INTEGER nonlinFreeSurf
227          INTEGER select_rStar
228          INTEGER selectNHfreeSurf
229          INTEGER selectAddFluid
230          INTEGER momForcingOutAB, tracForcingOutAB
231          INTEGER tempAdvScheme, tempVertAdvScheme
232          INTEGER saltAdvScheme, saltVertAdvScheme
233          INTEGER selectKEscheme
234          INTEGER selectVortScheme
235          INTEGER monitorSelect
236          INTEGER debugLevel
237    
238  C--   COMMON /PARM_L/ Logical valued parameters used by the model.  C--   COMMON /PARM_L/ Logical valued parameters used by the model.
239  C     usingCartesianGrid - If TRUE grid generation will be in a cartesian  C- Coordinate + Grid params:
240  C                          coordinate frame.  C     fluidIsAir       :: Set to indicate that the fluid major constituent
241  C     usingSphericalPolarGrid - If TRUE grid generation will be in a  C                         is air
242  C                               spherical polar frame.  C     fluidIsWater     :: Set to indicate that the fluid major constituent
243  C     momViscosity  - Flag which turns momentum friction terms on and off.  C                         is water
244  C     momAdvection  - Flag which turns advection of momentum on and off.  C     usingPCoords     :: Set to indicate that we are working in a pressure
245  C     momForcing    - Flag which turns external forcing of momentum on  C                         type coordinate (p or p*).
246  C                     and off.  C     usingZCoords     :: Set to indicate that we are working in a height
247  C     useCoriolis   - Flag which turns the coriolis terms on and off.  C                         type coordinate (z or z*)
248  C     tempDiffusion - Flag which turns diffusion of temperature on  C     useDynP_inEos_Zc :: use the dynamical pressure in EOS (with Z-coord.)
249  C                     and off.  C                         this requires specific code for restart & exchange
250  C     tempAdvection - Flag which turns advection of temperature on  C     usingCartesianGrid :: If TRUE grid generation will be in a cartesian
251  C                     and off.  C                           coordinate frame.
252  C     tempForcing   - Flag which turns external forcing of temperature on  C     usingSphericalPolarGrid :: If TRUE grid generation will be in a
253  C                     and off.  C                                spherical polar frame.
254  C     saltDiffusion - Flag which turns diffusion of salinit on  C     rotateGrid      :: rotate grid coordinates to geographical coordinates
255  C                     and off.  C                        according to Euler angles phiEuler, thetaEuler, psiEuler
256  C     saltAdvection - Flag which turns advection of salinit on  C     usingCylindricalGrid :: If TRUE grid generation will be Cylindrical
257  C                     and off.  C     usingCurvilinearGrid :: If TRUE, use a curvilinear grid (to be provided)
258  C     saltForcing   - Flag which turns external forcing of salinit on  C     hasWetCSCorners :: domain contains CS-type corners where dynamics is solved
259  C                     and off.  C     deepAtmosphere :: deep model (drop the shallow-atmosphere approximation)
260        COMMON /PARM_L/ usingCartesianGrid, usingSphericalPolarGrid,  C     setInterFDr    :: set Interface depth (put cell-Center at the middle)
261       & momViscosity, momAdvection, momForcing, useCoriolis,  C     setCenterDr    :: set cell-Center depth (put Interface at the middle)
262       & tempDiffusion, tempAdvection, tempForcing,  C- Momentum params:
263       & saltDiffusion, saltAdvection, saltForcing  C     no_slip_sides  :: Impose "no-slip" at lateral boundaries.
264    C     no_slip_bottom :: Impose "no-slip" at bottom boundary.
265    C     useFullLeith   :: Set to true to use full Leith viscosity(may be unstable
266    C                       on irregular grids)
267    C     useStrainTensionVisc:: Set to true to use Strain-Tension viscous terms
268    C     useAreaViscLength :: Set to true to use old scaling for viscous lengths,
269    C                          e.g., L2=Raz.  May be preferable for cube sphere.
270    C     momViscosity  :: Flag which turns momentum friction terms on and off.
271    C     momAdvection  :: Flag which turns advection of momentum on and off.
272    C     momForcing    :: Flag which turns external forcing of momentum on
273    C                      and off.
274    C     momPressureForcing :: Flag which turns pressure term in momentum equation
275    C                          on and off.
276    C     metricTerms   :: Flag which turns metric terms on or off.
277    C     useNHMTerms   :: If TRUE use non-hydrostatic metric terms.
278    C     useCoriolis   :: Flag which turns the coriolis terms on and off.
279    C     use3dCoriolis :: Turns the 3-D coriolis terms (in Omega.cos Phi) on - off
280    C     useCDscheme   :: use CD-scheme to calculate Coriolis terms.
281    C     vectorInvariantMomentum :: use Vector-Invariant form (mom_vecinv package)
282    C                                (default = F = use mom_fluxform package)
283    C     useJamartWetPoints :: Use wet-point method for Coriolis (Jamart & Ozer 1986)
284    C     useJamartMomAdv :: Use wet-point method for V.I. non-linear term
285    C     upwindVorticity :: bias interpolation of vorticity in the Coriolis term
286    C     highOrderVorticity :: use 3rd/4th order interp. of vorticity (V.I., advection)
287    C     useAbsVorticity :: work with f+zeta in Coriolis terms
288    C     upwindShear        :: use 1rst order upwind interp. (V.I., vertical advection)
289    C     momStepping    :: Turns momentum equation time-stepping off
290    C     calc_wVelocity :: Turns of vertical velocity calculation off
291    C- Temp. & Salt params:
292    C     tempStepping   :: Turns temperature equation time-stepping on/off
293    C     saltStepping   :: Turns salinity equation time-stepping on/off
294    C     addFrictionHeating :: account for frictional heating
295    C     tempAdvection  :: Flag which turns advection of temperature on and off.
296    C     tempVertDiff4  :: use vertical bi-harmonic diffusion for temperature
297    C     tempIsActiveTr :: Pot.Temp. is a dynamically active tracer
298    C     tempForcing    :: Flag which turns external forcing of temperature on/off
299    C     saltAdvection  :: Flag which turns advection of salinity on and off.
300    C     saltVertDiff4  :: use vertical bi-harmonic diffusion for salinity
301    C     saltIsActiveTr :: Salinity  is a dynamically active tracer
302    C     saltForcing    :: Flag which turns external forcing of salinity on/off
303    C     maskIniTemp    :: apply mask to initial Pot.Temp.
304    C     maskIniSalt    :: apply mask to initial salinity
305    C     checkIniTemp   :: check for points with identically zero initial Pot.Temp.
306    C     checkIniSalt   :: check for points with identically zero initial salinity
307    C- Pressure solver related parameters (PARM02)
308    C     useSRCGSolver  :: Set to true to use conjugate gradient
309    C                       solver with single reduction (only one call of
310    C                       s/r mpi_allreduce), default is false
311    C- Time-stepping & free-surface params:
312    C     rigidLid            :: Set to true to use rigid lid
313    C     implicitFreeSurface :: Set to true to use implicit free surface
314    C     uniformLin_PhiSurf  :: Set to true to use a uniform Bo_surf in the
315    C                            linear relation Phi_surf = Bo_surf*eta
316    C     uniformFreeSurfLev  :: TRUE if free-surface level-index is uniform (=1)
317    C     exactConserv        :: Set to true to conserve exactly the total Volume
318    C     linFSConserveTr     :: Set to true to correct source/sink of tracer
319    C                            at the surface due to Linear Free Surface
320    C     useRealFreshWaterFlux :: if True (=Natural BCS), treats P+R-E flux
321    C                         as a real Fresh Water (=> changes the Sea Level)
322    C                         if F, converts P+R-E to salt flux (no SL effect)
323    C     quasiHydrostatic :: Using non-hydrostatic terms in hydrostatic algorithm
324    C     nonHydrostatic   :: Using non-hydrostatic algorithm
325    C     use3Dsolver      :: set to true to use 3-D pressure solver
326    C     implicitIntGravWave :: treat Internal Gravity Wave implicitly
327    C     staggerTimeStep   :: enable a Stagger time stepping U,V (& W) then T,S
328    C     doResetHFactors   :: Do reset thickness factors @ beginning of each time-step
329    C     implicitDiffusion :: Turns implicit vertical diffusion on
330    C     implicitViscosity :: Turns implicit vertical viscosity on
331    C     tempImplVertAdv :: Turns on implicit vertical advection for Temperature
332    C     saltImplVertAdv :: Turns on implicit vertical advection for Salinity
333    C     momImplVertAdv  :: Turns on implicit vertical advection for Momentum
334    C     multiDimAdvection :: Flag that enable multi-dimension advection
335    C     useMultiDimAdvec  :: True if multi-dim advection is used at least once
336    C     momDissip_In_AB   :: if False, put Dissipation tendency contribution
337    C                          out off Adams-Bashforth time stepping.
338    C     doAB_onGtGs       :: if the Adams-Bashforth time stepping is used, always
339    C                          apply AB on tracer tendencies (rather than on Tracer)
340    C- Other forcing params -
341    C     balanceEmPmR    :: substract global mean of EmPmR at every time step
342    C     balanceQnet     :: substract global mean of Qnet at every time step
343    C     balancePrintMean:: print substracted global means to STDOUT
344    C     doThetaClimRelax :: Set true if relaxation to temperature
345    C                        climatology is required.
346    C     doSaltClimRelax  :: Set true if relaxation to salinity
347    C                        climatology is required.
348    C     balanceThetaClimRelax :: substract global mean effect at every time step
349    C     balanceSaltClimRelax :: substract global mean effect at every time step
350    C     allowFreezing  :: Allows surface water to freeze and form ice
351    C     useOldFreezing :: use the old version (before checkpoint52a_pre, 2003-11-12)
352    C     periodicExternalForcing :: Set true if forcing is time-dependant
353    C- I/O parameters -
354    C     globalFiles    :: Selects between "global" and "tiled" files.
355    C                       On some platforms with MPI, option globalFiles is either
356    C                       slow or does not work. Use useSingleCpuIO instead.
357    C     useSingleCpuIO :: moved to EEPARAMS.h
358    C     pickupStrictlyMatch :: check and stop if pickup-file do not stricly match
359    C     startFromPickupAB2 :: with AB-3 code, start from an AB-2 pickup
360    C     usePickupBeforeC54 :: start from old-pickup files, generated with code from
361    C                           before checkpoint-54a, Jul 06, 2004.
362    C     pickup_write_mdsio :: use mdsio to write pickups
363    C     pickup_read_mdsio  :: use mdsio to read  pickups
364    C     pickup_write_immed :: echo the pickup immediately (for conversion)
365    C     writePickupAtEnd   :: write pickup at the last timestep
366    C     timeave_mdsio      :: use mdsio for timeave output
367    C     snapshot_mdsio     :: use mdsio for "snapshot" (dumpfreq/diagfreq) output
368    C     monitor_stdio      :: use stdio for monitor output
369    C     dumpInitAndLast :: dumps model state to files at Initial (nIter0)
370    C                        & Last iteration, in addition multiple of dumpFreq iter.
371    C     printDomain     :: controls printing of domain fields (bathy, hFac ...).
372    
373          COMMON /PARM_L/
374         & fluidIsAir, fluidIsWater,
375         & usingPCoords, usingZCoords, useDynP_inEos_Zc,
376         & usingCartesianGrid, usingSphericalPolarGrid, rotateGrid,
377         & usingCylindricalGrid, usingCurvilinearGrid, hasWetCSCorners,
378         & deepAtmosphere, setInterFDr, setCenterDr,
379         & no_slip_sides, no_slip_bottom,
380         & useFullLeith, useStrainTensionVisc, useAreaViscLength,
381         & momViscosity, momAdvection, momForcing,
382         & momPressureForcing, metricTerms, useNHMTerms,
383         & useCoriolis, use3dCoriolis,
384         & useCDscheme, vectorInvariantMomentum,
385         & useEnergyConservingCoriolis, useJamartWetPoints, useJamartMomAdv,
386         & upwindVorticity, highOrderVorticity,
387         & useAbsVorticity, upwindShear,
388         & momStepping, calc_wVelocity, tempStepping, saltStepping,
389         & addFrictionHeating,
390         & tempAdvection, tempVertDiff4, tempIsActiveTr, tempForcing,
391         & saltAdvection, saltVertDiff4, saltIsActiveTr, saltForcing,
392         & maskIniTemp, maskIniSalt, checkIniTemp, checkIniSalt,
393         & useSRCGSolver,
394         & rigidLid, implicitFreeSurface,
395         & uniformLin_PhiSurf, uniformFreeSurfLev,
396         & exactConserv, linFSConserveTr, useRealFreshWaterFlux,
397         & quasiHydrostatic, nonHydrostatic, use3Dsolver,
398         & implicitIntGravWave, staggerTimeStep, doResetHFactors,
399         & implicitDiffusion, implicitViscosity,
400         & tempImplVertAdv, saltImplVertAdv, momImplVertAdv,
401         & multiDimAdvection, useMultiDimAdvec,
402         & momDissip_In_AB, doAB_onGtGs,
403         & balanceEmPmR, balanceQnet, balancePrintMean,
404         & balanceThetaClimRelax, balanceSaltClimRelax,
405         & doThetaClimRelax, doSaltClimRelax,
406         & allowFreezing, useOldFreezing,
407         & periodicExternalForcing,
408         & globalFiles,
409         & pickupStrictlyMatch, usePickupBeforeC54, startFromPickupAB2,
410         & pickup_read_mdsio, pickup_write_mdsio, pickup_write_immed,
411         & writePickupAtEnd,
412         & timeave_mdsio, snapshot_mdsio, monitor_stdio,
413         & outputTypesInclusive, dumpInitAndLast,
414         & printDomain
415    
416          LOGICAL fluidIsAir
417          LOGICAL fluidIsWater
418          LOGICAL usingPCoords
419          LOGICAL usingZCoords
420          LOGICAL useDynP_inEos_Zc
421        LOGICAL usingCartesianGrid        LOGICAL usingCartesianGrid
422        LOGICAL usingSphericalPolarGrid        LOGICAL usingSphericalPolarGrid, rotateGrid
423          LOGICAL usingCylindricalGrid
424          LOGICAL usingCurvilinearGrid, hasWetCSCorners
425          LOGICAL deepAtmosphere
426          LOGICAL setInterFDr
427          LOGICAL setCenterDr
428    
429          LOGICAL no_slip_sides
430          LOGICAL no_slip_bottom
431          LOGICAL useFullLeith
432          LOGICAL useStrainTensionVisc
433          LOGICAL useAreaViscLength
434        LOGICAL momViscosity        LOGICAL momViscosity
435        LOGICAL momAdvection        LOGICAL momAdvection
436        LOGICAL momForcing        LOGICAL momForcing
437          LOGICAL momPressureForcing
438          LOGICAL metricTerms
439          LOGICAL useNHMTerms
440    
441        LOGICAL useCoriolis        LOGICAL useCoriolis
442        LOGICAL tempDiffusion        LOGICAL use3dCoriolis
443          LOGICAL useCDscheme
444          LOGICAL vectorInvariantMomentum
445          LOGICAL useEnergyConservingCoriolis
446          LOGICAL useJamartWetPoints
447          LOGICAL useJamartMomAdv
448          LOGICAL upwindVorticity
449          LOGICAL highOrderVorticity
450          LOGICAL useAbsVorticity
451          LOGICAL upwindShear
452          LOGICAL momStepping
453          LOGICAL calc_wVelocity
454          LOGICAL tempStepping
455          LOGICAL saltStepping
456          LOGICAL addFrictionHeating
457        LOGICAL tempAdvection        LOGICAL tempAdvection
458          LOGICAL tempVertDiff4
459          LOGICAL tempIsActiveTr
460        LOGICAL tempForcing        LOGICAL tempForcing
       LOGICAL saltDiffusion  
461        LOGICAL saltAdvection        LOGICAL saltAdvection
462          LOGICAL saltVertDiff4
463          LOGICAL saltIsActiveTr
464        LOGICAL saltForcing        LOGICAL saltForcing
465          LOGICAL maskIniTemp
466          LOGICAL maskIniSalt
467          LOGICAL checkIniTemp
468          LOGICAL checkIniSalt
469          LOGICAL useSRCGSolver
470          LOGICAL rigidLid
471          LOGICAL implicitFreeSurface
472          LOGICAL uniformLin_PhiSurf
473          LOGICAL uniformFreeSurfLev
474          LOGICAL exactConserv
475          LOGICAL linFSConserveTr
476          LOGICAL useRealFreshWaterFlux
477          LOGICAL quasiHydrostatic
478          LOGICAL nonHydrostatic
479          LOGICAL use3Dsolver
480          LOGICAL implicitIntGravWave
481          LOGICAL staggerTimeStep
482          LOGICAL doResetHFactors
483          LOGICAL implicitDiffusion
484          LOGICAL implicitViscosity
485          LOGICAL tempImplVertAdv
486          LOGICAL saltImplVertAdv
487          LOGICAL momImplVertAdv
488          LOGICAL multiDimAdvection
489          LOGICAL useMultiDimAdvec
490          LOGICAL momDissip_In_AB
491          LOGICAL doAB_onGtGs
492          LOGICAL balanceEmPmR
493          LOGICAL balanceQnet
494          LOGICAL balancePrintMean
495          LOGICAL doThetaClimRelax
496          LOGICAL doSaltClimRelax
497          LOGICAL balanceThetaClimRelax
498          LOGICAL balanceSaltClimRelax
499          LOGICAL allowFreezing
500          LOGICAL useOldFreezing
501          LOGICAL periodicExternalForcing
502          LOGICAL globalFiles
503          LOGICAL pickupStrictlyMatch
504          LOGICAL usePickupBeforeC54
505          LOGICAL startFromPickupAB2
506          LOGICAL pickup_read_mdsio, pickup_write_mdsio
507          LOGICAL pickup_write_immed, writePickupAtEnd
508          LOGICAL timeave_mdsio, snapshot_mdsio, monitor_stdio
509          LOGICAL outputTypesInclusive
510          LOGICAL dumpInitAndLast
511          LOGICAL printDomain
512    
513  C--   COMMON /PARM_R/ "Real" valued parameters used by the model.  C--   COMMON /PARM_R/ "Real" valued parameters used by the model.
514  C     cg2dTargetResidual  C     cg2dTargetResidual
515  C               - Target residual for cg2d solver.  C          :: Target residual for cg2d solver; no unit (RHS normalisation)
516  C     delZ      - Vertical grid spacing ( m ) - delZ is the distance  C     cg2dTargetResWunit
517  C                 between "w" surfaces.  C          :: Target residual for cg2d solver; W unit (No RHS normalisation)
518  C     delX      - Separation between cell faces (m) or (deg), depending  C     cg3dTargetResidual
519  C     delY        on input flags.  C               :: Target residual for cg3d solver.
520  C     gravity   - Accel. due to gravity ( m/s^2 )  C     cg2dpcOffDFac :: Averaging weight for preconditioner off-diagonal.
521  C     ronil     - Reference density  C     Note. 20th May 1998
522  C     startTime - Start time for model ( s )  C           I made a weird discovery! In the model paper we argue
523  C     phiMin    - Latitude of southern most cell face.  C           for the form of the preconditioner used here ( see
524  C     thetaMin  - Longitude of western most cell face (this  C           A Finite-volume, Incompressible Navier-Stokes Model
525  C                 is an "inert" parameter but it is included  C           ...., Marshall et. al ). The algebra gives a simple
526  C                 to make geographical references simple.)  C           0.5 factor for the averaging of ac and aCw to get a
527  C     rSphere   - Radius of sphere for a spherical polar grid ( m ).  C           symmettric pre-conditioner. By using a factor of 0.51
528  C     f0        - Reference coriolis parameter ( 1/s )  C           i.e. scaling the off-diagonal terms in the
529  C                 ( Southern edge f for beta plane )  C           preconditioner down slightly I managed to get the
530  C     beta      - df/dy ( s^-1.m^-1 )  C           number of iterations for convergence in a test case to
531  C     viscAh    - Eddy viscosity coeff. for mixing of  C           drop form 192 -> 134! Need to investigate this further!
532  C                 momentum laterally ( m^2/s )  C           For now I have introduced a parameter cg2dpcOffDFac which
533  C     viscAz    - Eddy viscosity coeff. for mixing of  C           defaults to 0.51 but can be set at runtime.
534  C                 momentum vertically ( m^2/s )  C     delR      :: Vertical grid spacing ( units of r ).
535  C     viscA4    - Biharmonic viscosity coeff. for mixing of  C     delRc     :: Vertical grid spacing between cell centers (r unit).
536  C                 momentum laterally ( m^4/s )  C     delX      :: Separation between cell faces (m) or (deg), depending
537  C     diffKhT   - Laplacian diffusion coeff. for mixing of  C     delY         on input flags. Note: moved to header file SET_GRID.h
538    C     xgOrigin   :: Origin of the X-axis (Cartesian Grid) / Longitude of Western
539    C                :: most cell face (Lat-Lon grid) (Note: this is an "inert"
540    C                :: parameter but it makes geographical references simple.)
541    C     ygOrigin   :: Origin of the Y-axis (Cartesian Grid) / Latitude of Southern
542    C                :: most face (Lat-Lon grid).
543    C     gravity   :: Accel. due to gravity ( m/s^2 )
544    C     recip_gravity and its inverse
545    C     gBaro     :: Accel. due to gravity used in barotropic equation ( m/s^2 )
546    C     rhoNil    :: Reference density for the linear equation of state
547    C     rhoConst  :: Vertically constant reference density (Boussinesq)
548    C     rhoFacC   :: normalized (by rhoConst) reference density at cell-Center
549    C     rhoFacF   :: normalized (by rhoConst) reference density at cell-interFace
550    C     rhoConstFresh :: Constant reference density for fresh water (rain)
551    C     rho1Ref   :: reference vertical profile for density
552    C     tRef      :: reference vertical profile for potential temperature
553    C     sRef      :: reference vertical profile for salinity/specific humidity
554    C     phiRef    :: reference potential (pressure/rho, geopotential) profile
555    C     dBdrRef   :: vertical gradient of reference buoyancy  [(m/s/r)^2]:
556    C               :: z-coord: = N^2_ref = Brunt-Vaissala frequency [s^-2]
557    C               :: p-coord: = -(d.alpha/dp)_ref          [(m^2.s/kg)^2]
558    C     rVel2wUnit :: units conversion factor (Non-Hydrostatic code),
559    C                :: from r-coordinate vertical velocity to vertical velocity [m/s].
560    C                :: z-coord: = 1 ; p-coord: wSpeed [m/s] = rVel [Pa/s] * rVel2wUnit
561    C     wUnit2rVel :: units conversion factor (Non-Hydrostatic code),
562    C                :: from vertical velocity [m/s] to r-coordinate vertical velocity.
563    C                :: z-coord: = 1 ; p-coord: rVel [Pa/s] = wSpeed [m/s] * wUnit2rVel
564    C     mass2rUnit :: units conversion factor (surface forcing),
565    C                :: from mass per unit area [kg/m2] to vertical r-coordinate unit.
566    C                :: z-coord: = 1/rhoConst ( [kg/m2] / rho = [m] ) ;
567    C                :: p-coord: = gravity    ( [kg/m2] *  g = [Pa] ) ;
568    C     rUnit2mass :: units conversion factor (surface forcing),
569    C                :: from vertical r-coordinate unit to mass per unit area [kg/m2].
570    C                :: z-coord: = rhoConst  ( [m] * rho = [kg/m2] ) ;
571    C                :: p-coord: = 1/gravity ( [Pa] /  g = [kg/m2] ) ;
572    C     rSphere    :: Radius of sphere for a spherical polar grid ( m ).
573    C     recip_rSphere  :: Reciprocal radius of sphere ( m ).
574    C     radius_fromHorizGrid :: sphere Radius of input horiz. grid (Curvilinear Grid)
575    C     f0         :: Reference coriolis parameter ( 1/s )
576    C                   ( Southern edge f for beta plane )
577    C     beta       :: df/dy ( s^-1.m^-1 )
578    C     fPrime     :: Second Coriolis parameter ( 1/s ), related to Y-component
579    C                   of rotation (reference value = 2.Omega.Cos(Phi))
580    C     omega      :: Angular velocity ( rad/s )
581    C     rotationPeriod :: Rotation period (s) (= 2.pi/omega)
582    C     viscArNr   :: vertical profile of Eddy viscosity coeff.
583    C                   for vertical mixing of momentum ( units of r^2/s )
584    C     viscAh     :: Eddy viscosity coeff. for mixing of
585    C                   momentum laterally ( m^2/s )
586    C     viscAhW    :: Eddy viscosity coeff. for mixing of vertical
587    C                   momentum laterally, no effect for hydrostatic
588    C                   model, defaults to viscAh if unset ( m^2/s )
589    C                   Not used if variable horiz. viscosity is used.
590    C     viscA4     :: Biharmonic viscosity coeff. for mixing of
591    C                   momentum laterally ( m^4/s )
592    C     viscA4W    :: Biharmonic viscosity coeff. for mixing of vertical
593    C                   momentum laterally, no effect for hydrostatic
594    C                   model, defaults to viscA4 if unset ( m^2/s )
595    C                   Not used if variable horiz. viscosity is used.
596    C     viscAhD    :: Eddy viscosity coeff. for mixing of momentum laterally
597    C                   (act on Divergence part) ( m^2/s )
598    C     viscAhZ    :: Eddy viscosity coeff. for mixing of momentum laterally
599    C                   (act on Vorticity  part) ( m^2/s )
600    C     viscA4D    :: Biharmonic viscosity coeff. for mixing of momentum laterally
601    C                   (act on Divergence part) ( m^4/s )
602    C     viscA4Z    :: Biharmonic viscosity coeff. for mixing of momentum laterally
603    C                   (act on Vorticity  part) ( m^4/s )
604    C     viscC2leith  :: Leith non-dimensional viscosity factor (grad(vort))
605    C     viscC2leithD :: Modified Leith non-dimensional visc. factor (grad(div))
606    C     viscC4leith  :: Leith non-dimensional viscosity factor (grad(vort))
607    C     viscC4leithD :: Modified Leith non-dimensional viscosity factor (grad(div))
608    C     viscC2smag   :: Smagorinsky non-dimensional viscosity factor (harmonic)
609    C     viscC4smag   :: Smagorinsky non-dimensional viscosity factor (biharmonic)
610    C     viscAhMax    :: Maximum eddy viscosity coeff. for mixing of
611    C                    momentum laterally ( m^2/s )
612    C     viscAhReMax  :: Maximum gridscale Reynolds number for eddy viscosity
613    C                     coeff. for mixing of momentum laterally (non-dim)
614    C     viscAhGrid   :: non-dimensional grid-size dependent viscosity
615    C     viscAhGridMax:: maximum and minimum harmonic viscosity coefficients ...
616    C     viscAhGridMin::  in terms of non-dimensional grid-size dependent visc.
617    C     viscA4Max    :: Maximum biharmonic viscosity coeff. for mixing of
618    C                     momentum laterally ( m^4/s )
619    C     viscA4ReMax  :: Maximum Gridscale Reynolds number for
620    C                     biharmonic viscosity coeff. momentum laterally (non-dim)
621    C     viscA4Grid   :: non-dimensional grid-size dependent bi-harmonic viscosity
622    C     viscA4GridMax:: maximum and minimum biharmonic viscosity coefficients ...
623    C     viscA4GridMin::  in terms of non-dimensional grid-size dependent viscosity
624    C     diffKhT   :: Laplacian diffusion coeff. for mixing of
625  C                 heat laterally ( m^2/s )  C                 heat laterally ( m^2/s )
626  C     diffKzT   - Laplacian diffusion coeff. for mixing of  C     diffK4T   :: Biharmonic diffusion coeff. for mixing of
 C                 heat vertically ( m^2/s )  
 C     diffK4T   - Biharmonic diffusion coeff. for mixing of  
627  C                 heat laterally ( m^4/s )  C                 heat laterally ( m^4/s )
628  C     diffKhS  -  Laplacian diffusion coeff. for mixing of  C     diffKrNrT :: vertical profile of Laplacian diffusion coeff.
629    C                 for mixing of heat vertically ( units of r^2/s )
630    C     diffKr4T  :: vertical profile of Biharmonic diffusion coeff.
631    C                 for mixing of heat vertically ( units of r^4/s )
632    C     diffKhS  ::  Laplacian diffusion coeff. for mixing of
633  C                 salt laterally ( m^2/s )  C                 salt laterally ( m^2/s )
634  C     diffKzS   - Laplacian diffusion coeff. for mixing of  C     diffK4S   :: Biharmonic diffusion coeff. for mixing of
 C                 salt vertically ( m^2/s )  
 C     diffK4S   - Biharmonic diffusion coeff. for mixing of  
635  C                 salt laterally ( m^4/s )  C                 salt laterally ( m^4/s )
636  C     deltaT    - Default timestep ( s )  C     diffKrNrS :: vertical profile of Laplacian diffusion coeff.
637  C     deltaTMom    - Timestep for momemtum equations ( s )  C                 for mixing of salt vertically ( units of r^2/s ),
638  C     deltaTtracer - Timestep for tracer equations ( s )  C     diffKr4S  :: vertical profile of Biharmonic diffusion coeff.
639  C     tauCD     - CD scheme coupling timescale ( 1/s )  C                 for mixing of salt vertically ( units of r^4/s )
640  C     rCD       - CD scheme normalised coupling parameter ( 0-1 )  C     diffKrBL79surf :: T/S surface diffusivity (m^2/s) Bryan and Lewis, 1979
641  C     startTime - Starting time for this integration ( s ).  C     diffKrBL79deep :: T/S deep diffusivity (m^2/s) Bryan and Lewis, 1979
642  C     endTime   - Ending time for this integration ( s ).  C     diffKrBL79scl  :: depth scale for arctan fn (m) Bryan and Lewis, 1979
643  C     chkPtFreq - Frequency of check pointing ( s ).  C     diffKrBL79Ho   :: depth offset for arctan fn (m) Bryan and Lewis, 1979
644  C     dumpFreq  - Frequency with which model state is written to  C     BL79LatVary    :: polarwise of this latitude diffKrBL79 is applied with
645  C                 post-processing files ( s ).  C                       gradual transition to diffKrBLEQ towards Equator
646        COMMON /PARM_R/ cg2dTargetResidual, delZ, delX, delY, deltaT,  C     diffKrBLEQsurf :: same as diffKrBL79surf but at Equator
647       & deltaTmom, deltaTtracer, abeps, startTime, phiMin, thetaMin,  C     diffKrBLEQdeep :: same as diffKrBL79deep but at Equator
648       & rSphere, f0, fCori, beta, viscAh, viscAz, viscA4, diffKhT, diffKzT,  C     diffKrBLEQscl  :: same as diffKrBL79scl but at Equator
649       & diffK4T, diffKhS, diffKzS, diffK4S, delT, tauCD, rCD,  C     diffKrBLEQHo   :: same as diffKrBL79Ho but at Equator
650       & tAlpha, sBeta, gravity, rhonil, tRef, sRef,  C     deltaT    :: Default timestep ( s )
651       & endTime, chkPtFreq, dumpFreq  C     deltaTClock  :: Timestep used as model "clock". This determines the
652        REAL cg2dTargetResidual  C                    IO frequencies and is used in tagging output. It can
653        REAL delZ(Nz)  C                    be totally different to the dynamical time. Typically
654        REAL delX(Nx)  C                    it will be the deep-water timestep for accelerated runs.
655        REAL delY(Ny)  C                    Frequency of checkpointing and dumping of the model state
656        REAL deltaT  C                    are referenced to this clock. ( s )
657        REAL deltaTmom  C     deltaTMom    :: Timestep for momemtum equations ( s )
658        REAL deltaTtracer  C     dTtracerLev  :: Timestep for tracer equations ( s ), function of level k
659        REAL abeps  C     deltaTFreeSurf :: Timestep for free-surface equation ( s )
660        REAL phiMin  C     freeSurfFac  :: Parameter to turn implicit free surface term on or off
661        REAL thetaMin  C                     freeSurFac = 1. uses implicit free surface
662        REAL rSphere  C                     freeSurFac = 0. uses rigid lid
663        REAL f0  C     abEps        :: Adams-Bashforth-2 stabilizing weight
664        _RL  beta  C     alph_AB      :: Adams-Bashforth-3 primary factor
665        REAL viscAh  C     beta_AB      :: Adams-Bashforth-3 secondary factor
666        REAL viscAz  C     implicSurfPress :: parameter of the Crank-Nickelson time stepping :
667        REAL viscA4  C                     Implicit part of Surface Pressure Gradient ( 0-1 )
668        REAL diffKhT  C     implicDiv2Dflow :: parameter of the Crank-Nickelson time stepping :
669        REAL diffKzT  C                     Implicit part of barotropic flow Divergence ( 0-1 )
670        REAL diffK4T  C     implicitNHPress :: parameter of the Crank-Nickelson time stepping :
671        REAL diffKhS  C                     Implicit part of Non-Hydrostatic Pressure Gradient ( 0-1 )
672        REAL diffKzS  C     hFacMin      :: Minimum fraction size of a cell (affects hFacC etc...)
673        REAL diffK4S  C     hFacMinDz    :: Minimum dimensional size of a cell (affects hFacC etc..., m)
674        REAL delt  C     hFacMinDp    :: Minimum dimensional size of a cell (affects hFacC etc..., Pa)
675        REAL tauCD  C     hFacMinDr    :: Minimum dimensional size of a cell (-> hFacC etc..., r units)
676        REAL rCD  C     hFacInf      :: Threshold (inf and sup) for fraction size of surface cell
677        REAL tAlpha  C     hFacSup          that control vanishing and creating levels
678        REAL sBeta  C     tauCD         :: CD scheme coupling timescale ( s )
679        REAL gravity  C     rCD           :: CD scheme normalised coupling parameter (= 1 - deltaT/tauCD)
680        REAL rhonil  C     epsAB_CD      :: Adams-Bashforth-2 stabilizing weight used in CD scheme
681        REAL tRef(Nz)  C     baseTime      :: model base time (time origin) = time @ iteration zero
682        REAL sRef(Nz)  C     startTime     :: Starting time for this integration ( s ).
683        real Fcori(1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)  C     endTime       :: Ending time for this integration ( s ).
684        REAL startTime  C     chkPtFreq     :: Frequency of rolling check pointing ( s ).
685        REAL endTime  C     pChkPtFreq    :: Frequency of permanent check pointing ( s ).
686        REAL chkPtFreq  C     dumpFreq      :: Frequency with which model state is written to
687        REAL dumpFreq  C                      post-processing files ( s ).
688        COMMON /PARM_A/ HeatCapacity_Cp,  C     diagFreq      :: Frequency with which model writes diagnostic output
689       &                Lamba_theta  C                      of intermediate quantities.
690        REAL HeatCapacity_Cp  C     afFacMom      :: Advection of momentum term tracer parameter
691        REAL Lamba_theta  C     vfFacMom      :: Momentum viscosity tracer parameter
692    C     pfFacMom      :: Momentum pressure forcing tracer parameter
693    C     cfFacMom      :: Coriolis term tracer parameter
694    C     foFacMom      :: Momentum forcing tracer parameter
695    C     mtFacMom      :: Metric terms tracer parameter
696    C     cosPower      :: Power of cosine of latitude to multiply viscosity
697    C     cAdjFreq      :: Frequency of convective adjustment
698    C
699    C     taveFreq      :: Frequency with which time-averaged model state
700    C                      is written to post-processing files ( s ).
701    C     tave_lastIter :: (for state variable only) fraction of the last time
702    C                      step (of each taveFreq period) put in the time average.
703    C                      (fraction for 1rst iter = 1 - tave_lastIter)
704    C     tauThetaClimRelax :: Relaxation to climatology time scale ( s ).
705    C     tauSaltClimRelax :: Relaxation to climatology time scale ( s ).
706    C     latBandClimRelax :: latitude band where Relaxation to Clim. is applied,
707    C                         i.e. where |yC| <= latBandClimRelax
708    C     externForcingPeriod :: Is the period of which forcing varies (eg. 1 month)
709    C     externForcingCycle :: Is the repeat time of the forcing (eg. 1 year)
710    C                          (note: externForcingCycle must be an integer
711    C                           number times externForcingPeriod)
712    C     convertFW2Salt :: salinity, used to convert Fresh-Water Flux to Salt Flux
713    C                       (use model surface (local) value if set to -1)
714    C     temp_EvPrRn :: temperature of Rain & Evap.
715    C     salt_EvPrRn :: salinity of Rain & Evap.
716    C     temp_addMass :: temperature of addMass array
717    C     salt_addMass :: salinity of addMass array
718    C        (notes: a) tracer content of Rain/Evap only used if both
719    C                     NonLin_FrSurf & useRealFreshWater are set.
720    C                b) use model surface (local) value if set to UNSET_RL)
721    C     hMixCriteria:: criteria for mixed-layer diagnostic
722    C     dRhoSmall   :: parameter for mixed-layer diagnostic
723    C     hMixSmooth  :: Smoothing parameter for mixed-layer diag (default=0=no smoothing)
724    C     ivdc_kappa  :: implicit vertical diffusivity for convection [m^2/s]
725    C     Ro_SeaLevel :: standard position of Sea-Level in "R" coordinate, used as
726    C                    starting value (k=1) for vertical coordinate (rf(1)=Ro_SeaLevel)
727    C     rSigmaBnd   :: vertical position (in r-unit) of r/sigma transition (Hybrid-Sigma)
728    C     sideDragFactor     :: side-drag scaling factor (used only if no_slip_sides)
729    C                           (default=2: full drag ; =1: gives half-slip BC)
730    C     bottomDragLinear    :: Linear    bottom-drag coefficient (units of [r]/s)
731    C     bottomDragQuadratic :: Quadratic bottom-drag coefficient (units of [r]/m)
732    C               (if using zcoordinate, units becomes linear: m/s, quadratic: [-])
733    C     smoothAbsFuncRange :: 1/2 of interval around zero, for which FORTRAN ABS
734    C                           is to be replace by a smoother function
735    C                           (affects myabs, mymin, mymax)
736    C     nh_Am2        :: scales the non-hydrostatic terms and changes internal scales
737    C                      (i.e. allows convection at different Rayleigh numbers)
738    C     tCylIn        :: Temperature of the cylinder inner boundary
739    C     tCylOut       :: Temperature of the cylinder outer boundary
740    C     phiEuler      :: Euler angle, rotation about original z-axis
741    C     thetaEuler    :: Euler angle, rotation about new x-axis
742    C     psiEuler      :: Euler angle, rotation about new z-axis
743          COMMON /PARM_R/ cg2dTargetResidual, cg2dTargetResWunit,
744         & cg2dpcOffDFac, cg3dTargetResidual,
745         & delR, delRc, xgOrigin, ygOrigin,
746         & deltaT, deltaTMom, dTtracerLev, deltaTFreeSurf, deltaTClock,
747         & abEps, alph_AB, beta_AB,
748         & rSphere, recip_rSphere, radius_fromHorizGrid,
749         & f0, beta, fPrime, omega, rotationPeriod,
750         & viscFacAdj, viscAh, viscAhW, viscAhMax,
751         & viscAhGrid, viscAhGridMax, viscAhGridMin,
752         & viscC2leith, viscC2leithD,
753         & viscC2smag, viscC4smag,
754         & viscAhD, viscAhZ, viscA4D, viscA4Z,
755         & viscA4, viscA4W, viscA4Max,
756         & viscA4Grid, viscA4GridMax, viscA4GridMin,
757         & viscAhReMax, viscA4ReMax,
758         & viscC4leith, viscC4leithD, viscArNr,
759         & diffKhT, diffK4T, diffKrNrT, diffKr4T,
760         & diffKhS, diffK4S, diffKrNrS, diffKr4S,
761         & diffKrBL79surf, diffKrBL79deep, diffKrBL79scl, diffKrBL79Ho,
762         & BL79LatVary,
763         & diffKrBLEQsurf, diffKrBLEQdeep, diffKrBLEQscl, diffKrBLEQHo,
764         & tauCD, rCD, epsAB_CD,
765         & freeSurfFac, implicSurfPress, implicDiv2Dflow, implicitNHPress,
766         & hFacMin, hFacMinDz, hFacInf, hFacSup,
767         & gravity, recip_gravity, gBaro,
768         & rhoNil, rhoConst, recip_rhoConst,
769         & rhoFacC, recip_rhoFacC, rhoFacF, recip_rhoFacF,
770         & rhoConstFresh, rho1Ref, tRef, sRef, phiRef, dBdrRef,
771         & rVel2wUnit, wUnit2rVel, mass2rUnit, rUnit2mass,
772         & baseTime, startTime, endTime,
773         & chkPtFreq, pChkPtFreq, dumpFreq, adjDumpFreq,
774         & diagFreq, taveFreq, tave_lastIter, monitorFreq, adjMonitorFreq,
775         & afFacMom, vfFacMom, pfFacMom, cfFacMom, foFacMom, mtFacMom,
776         & cosPower, cAdjFreq,
777         & tauThetaClimRelax, tauSaltClimRelax, latBandClimRelax,
778         & externForcingCycle, externForcingPeriod,
779         & convertFW2Salt, temp_EvPrRn, salt_EvPrRn,
780         & temp_addMass, salt_addMass, hFacMinDr, hFacMinDp,
781         & ivdc_kappa, hMixCriteria, dRhoSmall, hMixSmooth,
782         & Ro_SeaLevel, rSigmaBnd,
783         & sideDragFactor, bottomDragLinear, bottomDragQuadratic, nh_Am2,
784         & smoothAbsFuncRange,
785         & tCylIn, tCylOut,
786         & phiEuler, thetaEuler, psiEuler
787    
788          _RL cg2dTargetResidual
789          _RL cg2dTargetResWunit
790          _RL cg3dTargetResidual
791          _RL cg2dpcOffDFac
792          _RL delR(Nr)
793          _RL delRc(Nr+1)
794          _RL xgOrigin
795          _RL ygOrigin
796          _RL deltaT
797          _RL deltaTClock
798          _RL deltaTMom
799          _RL dTtracerLev(Nr)
800          _RL deltaTFreeSurf
801          _RL abEps, alph_AB, beta_AB
802          _RL rSphere
803          _RL recip_rSphere
804          _RL radius_fromHorizGrid
805          _RL f0
806          _RL beta
807          _RL fPrime
808          _RL omega
809          _RL rotationPeriod
810          _RL freeSurfFac
811          _RL implicSurfPress
812          _RL implicDiv2Dflow
813          _RL implicitNHPress
814          _RL hFacMin
815          _RL hFacMinDz
816          _RL hFacMinDp
817          _RL hFacMinDr
818          _RL hFacInf
819          _RL hFacSup
820          _RL viscArNr(Nr)
821          _RL viscFacAdj
822          _RL viscAh
823          _RL viscAhW
824          _RL viscAhD
825          _RL viscAhZ
826          _RL viscAhMax
827          _RL viscAhReMax
828          _RL viscAhGrid, viscAhGridMax, viscAhGridMin
829          _RL viscC2leith
830          _RL viscC2leithD
831          _RL viscC2smag
832          _RL viscA4
833          _RL viscA4W
834          _RL viscA4D
835          _RL viscA4Z
836          _RL viscA4Max
837          _RL viscA4ReMax
838          _RL viscA4Grid, viscA4GridMax, viscA4GridMin
839          _RL viscC4leith
840          _RL viscC4leithD
841          _RL viscC4smag
842          _RL diffKhT
843          _RL diffK4T
844          _RL diffKrNrT(Nr)
845          _RL diffKr4T(Nr)
846          _RL diffKhS
847          _RL diffK4S
848          _RL diffKrNrS(Nr)
849          _RL diffKr4S(Nr)
850          _RL diffKrBL79surf
851          _RL diffKrBL79deep
852          _RL diffKrBL79scl
853          _RL diffKrBL79Ho
854          _RL BL79LatVary
855          _RL diffKrBLEQsurf
856          _RL diffKrBLEQdeep
857          _RL diffKrBLEQscl
858          _RL diffKrBLEQHo
859          _RL tauCD, rCD, epsAB_CD
860          _RL gravity
861          _RL recip_gravity
862          _RL gBaro
863          _RL rhoNil
864          _RL rhoConst,      recip_rhoConst
865          _RL rhoFacC(Nr),   recip_rhoFacC(Nr)
866          _RL rhoFacF(Nr+1), recip_rhoFacF(Nr+1)
867          _RL rhoConstFresh
868          _RL rho1Ref(Nr)
869          _RL tRef(Nr)
870          _RL sRef(Nr)
871          _RL phiRef(2*Nr+1)
872          _RL dBdrRef(Nr)
873          _RL rVel2wUnit(Nr+1), wUnit2rVel(Nr+1)
874          _RL mass2rUnit, rUnit2mass
875          _RL baseTime
876          _RL startTime
877          _RL endTime
878          _RL chkPtFreq
879          _RL pChkPtFreq
880          _RL dumpFreq
881          _RL adjDumpFreq
882          _RL diagFreq
883          _RL taveFreq
884          _RL tave_lastIter
885          _RL monitorFreq
886          _RL adjMonitorFreq
887          _RL afFacMom
888          _RL vfFacMom
889          _RL pfFacMom
890          _RL cfFacMom
891          _RL foFacMom
892          _RL mtFacMom
893          _RL cosPower
894          _RL cAdjFreq
895          _RL tauThetaClimRelax
896          _RL tauSaltClimRelax
897          _RL latBandClimRelax
898          _RL externForcingCycle
899          _RL externForcingPeriod
900          _RL convertFW2Salt
901          _RL temp_EvPrRn
902          _RL salt_EvPrRn
903          _RL temp_addMass
904          _RL salt_addMass
905          _RL ivdc_kappa
906          _RL hMixCriteria
907          _RL dRhoSmall
908          _RL hMixSmooth
909          _RL Ro_SeaLevel
910          _RL rSigmaBnd
911          _RL sideDragFactor
912          _RL bottomDragLinear
913          _RL bottomDragQuadratic
914          _RL smoothAbsFuncRange
915          _RL nh_Am2
916          _RL tCylIn, tCylOut
917          _RL phiEuler, thetaEuler, psiEuler
918    
919    C--   COMMON /PARM_A/ Thermodynamics constants ?
920          COMMON /PARM_A/ HeatCapacity_Cp,recip_Cp
921          _RL HeatCapacity_Cp
922          _RL recip_Cp
923    
924    C--   COMMON /PARM_ATM/ Atmospheric physical parameters (Ideal Gas EOS, ...)
925    C     celsius2K :: convert centigrade (Celsius) degree to Kelvin
926    C     atm_Po    :: standard reference pressure
927    C     atm_Cp    :: specific heat (Cp) of the (dry) air at constant pressure
928    C     atm_Rd    :: gas constant for dry air
929    C     atm_kappa :: kappa = R/Cp (R: constant of Ideal Gas EOS)
930    C     atm_Rq    :: water vapour specific volume anomaly relative to dry air
931    C                  (e.g. typical value = (29/18 -1) 10^-3 with q [g/kg])
932    C     integr_GeoPot :: option to select the way we integrate the geopotential
933    C                     (still a subject of discussions ...)
934    C     selectFindRoSurf :: select the way surf. ref. pressure (=Ro_surf) is
935    C             derived from the orography. Implemented: 0,1 (see INI_P_GROUND)
936          COMMON /PARM_ATM/
937         &            celsius2K,
938         &            atm_Cp, atm_Rd, atm_kappa, atm_Rq, atm_Po,
939         &            integr_GeoPot, selectFindRoSurf
940          _RL celsius2K
941          _RL atm_Po, atm_Cp, atm_Rd, atm_kappa, atm_Rq
942          INTEGER integr_GeoPot, selectFindRoSurf
943    
944    C Logical flags for selecting packages
945          LOGICAL useGAD
946          LOGICAL useOBCS
947          LOGICAL useSHAP_FILT
948          LOGICAL useZONAL_FILT
949          LOGICAL useOPPS
950          LOGICAL usePP81
951          LOGICAL useMY82
952          LOGICAL useGGL90
953          LOGICAL useKPP
954          LOGICAL useGMRedi
955          LOGICAL useDOWN_SLOPE
956          LOGICAL useBBL
957          LOGICAL useCAL
958          LOGICAL useEXF
959          LOGICAL useBulkForce
960          LOGICAL useEBM
961          LOGICAL useCheapAML
962          LOGICAL useGrdchk
963          LOGICAL useSMOOTH
964          LOGICAL usePROFILES
965          LOGICAL useECCO
966          LOGICAL useSBO
967          LOGICAL useFLT
968          LOGICAL usePTRACERS
969          LOGICAL useGCHEM
970          LOGICAL useRBCS
971          LOGICAL useOffLine
972          LOGICAL useMATRIX
973          LOGICAL useFRAZIL
974          LOGICAL useSEAICE
975          LOGICAL useSALT_PLUME
976          LOGICAL useShelfIce
977          LOGICAL useStreamIce
978          LOGICAL useICEFRONT
979          LOGICAL useThSIce
980          LOGICAL useATM2d
981          LOGICAL useAIM
982          LOGICAL useLand
983          LOGICAL useFizhi
984          LOGICAL useGridAlt
985          LOGICAL useDiagnostics
986          LOGICAL useREGRID
987          LOGICAL useLayers
988          LOGICAL useMNC
989          LOGICAL useRunClock
990          LOGICAL useEMBED_FILES
991          LOGICAL useMYPACKAGE
992          COMMON /PARM_PACKAGES/
993         &        useGAD, useOBCS, useSHAP_FILT, useZONAL_FILT,
994         &        useOPPS, usePP81, useMY82, useGGL90, useKPP,
995         &        useGMRedi, useBBL, useDOWN_SLOPE,
996         &        useCAL, useEXF, useBulkForce, useEBM, useCheapAML,
997         &        useGrdchk,useSMOOTH,usePROFILES,useECCO,useSBO, useFLT,
998         &        usePTRACERS, useGCHEM, useRBCS, useOffLine, useMATRIX,
999         &        useFRAZIL, useSEAICE, useSALT_PLUME, useShelfIce,
1000         &        useStreamIce, useICEFRONT, useThSIce,
1001         &        useATM2D, useAIM, useLand, useFizhi, useGridAlt,
1002         &        useDiagnostics, useREGRID, useLayers, useMNC,
1003         &        useRunClock, useEMBED_FILES,
1004         &        useMYPACKAGE
1005    
1006    CEH3 ;;; Local Variables: ***
1007    CEH3 ;;; mode:fortran ***
1008    CEH3 ;;; End: ***
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