1 |
C $Header$ |
C $Header$ |
2 |
C $Name$ |
C $Name$ |
3 |
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#include "PACKAGES_CONFIG.h" |
5 |
#include "CPP_OPTIONS.h" |
#include "CPP_OPTIONS.h" |
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7 |
CBOP |
CBOP |
73 |
#include "EEPARAMS.h" |
#include "EEPARAMS.h" |
74 |
#include "PARAMS.h" |
#include "PARAMS.h" |
75 |
#include "DYNVARS.h" |
#include "DYNVARS.h" |
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#ifdef ALLOW_CD_CODE |
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#include "CD_CODE_VARS.h" |
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#endif |
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#include "GRID.h" |
#include "GRID.h" |
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#ifdef ALLOW_PASSIVE_TRACER |
#ifdef ALLOW_PASSIVE_TRACER |
81 |
#include "TR1.h" |
#include "TR1.h" |
89 |
# include "KPP.h" |
# include "KPP.h" |
90 |
# endif |
# endif |
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#endif /* ALLOW_AUTODIFF_TAMC */ |
#endif /* ALLOW_AUTODIFF_TAMC */ |
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#ifdef ALLOW_TIMEAVE |
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#include "TIMEAVE_STATV.h" |
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#endif |
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C !CALLING SEQUENCE: |
C !CALLING SEQUENCE: |
94 |
C DYNAMICS() |
C DYNAMICS() |
99 |
C | |
C | |
100 |
C |-- CALC_PHI_HYD |
C |-- CALC_PHI_HYD |
101 |
C | |
C | |
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C |-- STORE_PRESSURE |
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C | |
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102 |
C |-- MOM_FLUXFORM |
C |-- MOM_FLUXFORM |
103 |
C | |
C | |
104 |
C |-- MOM_VECINV |
C |-- MOM_VECINV |
129 |
C is "pipelined" in the vertical |
C is "pipelined" in the vertical |
130 |
C so we need an fVer for each |
C so we need an fVer for each |
131 |
C variable. |
C variable. |
132 |
C rhoK, rhoKM1 - Density at current level, and level above |
C phiHydC :: hydrostatic potential anomaly at cell center |
133 |
C phiHyd - Hydrostatic part of the potential phiHydi. |
C In z coords phiHyd is the hydrostatic potential |
134 |
C In z coords phiHydiHyd is the hydrostatic |
C (=pressure/rho0) anomaly |
135 |
C Potential (=pressure/rho0) anomaly |
C In p coords phiHyd is the geopotential height anomaly. |
136 |
C In p coords phiHydiHyd is the geopotential |
C phiHydF :: hydrostatic potential anomaly at middle between 2 centers |
137 |
C surface height anomaly. |
C dPhiHydX,Y :: Gradient (X & Y directions) of hydrostatic potential anom. |
138 |
C phiSurfX, - gradient of Surface potentiel (Pressure/rho, ocean) |
C phiSurfX, :: gradient of Surface potential (Pressure/rho, ocean) |
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C phiSurfY or geopotentiel (atmos) in X and Y direction |
C phiSurfY or geopotential (atmos) in X and Y direction |
140 |
C iMin, iMax - Ranges and sub-block indices on which calculations |
C iMin, iMax - Ranges and sub-block indices on which calculations |
141 |
C jMin, jMax are applied. |
C jMin, jMax are applied. |
142 |
C bi, bj |
C bi, bj |
145 |
C index into fVerTerm. |
C index into fVerTerm. |
146 |
_RL fVerU (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
_RL fVerU (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
147 |
_RL fVerV (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
_RL fVerV (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
148 |
_RL phiHyd (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr) |
_RL phiHydF (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
149 |
_RL rhokm1 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL phiHydC (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
150 |
_RL rhok (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL dPhiHydX(1-Olx:sNx+Olx,1-Oly:sNy+Oly) |
151 |
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_RL dPhiHydY(1-Olx:sNx+Olx,1-Oly:sNy+Oly) |
152 |
_RL phiSurfX(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL phiSurfX(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
153 |
_RL phiSurfY(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL phiSurfY(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
154 |
_RL KappaRU (1-Olx:sNx+Olx,1-Oly:sNy+Oly,Nr) |
_RL KappaRU (1-Olx:sNx+Olx,1-Oly:sNy+Oly,Nr) |
160 |
INTEGER i, j |
INTEGER i, j |
161 |
INTEGER k, km1, kp1, kup, kDown |
INTEGER k, km1, kp1, kup, kDown |
162 |
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Cjmc : add for phiHyd output <- but not working if multi tile per CPU |
LOGICAL DIFFERENT_MULTIPLE |
164 |
c CHARACTER*(MAX_LEN_MBUF) suff |
EXTERNAL DIFFERENT_MULTIPLE |
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c LOGICAL DIFFERENT_MULTIPLE |
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c EXTERNAL DIFFERENT_MULTIPLE |
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Cjmc(end) |
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C--- The algorithm... |
C--- The algorithm... |
167 |
C |
C |
208 |
C--- |
C--- |
209 |
CEOP |
CEOP |
210 |
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C-- Set up work arrays with valid (i.e. not NaN) values |
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C These inital values do not alter the numerical results. They |
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C just ensure that all memory references are to valid floating |
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C point numbers. This prevents spurious hardware signals due to |
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C uninitialised but inert locations. |
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DO j=1-OLy,sNy+OLy |
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DO i=1-OLx,sNx+OLx |
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rhoKM1 (i,j) = 0. _d 0 |
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rhok (i,j) = 0. _d 0 |
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phiSurfX(i,j) = 0. _d 0 |
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phiSurfY(i,j) = 0. _d 0 |
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ENDDO |
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ENDDO |
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C-- Call to routine for calculation of |
C-- Call to routine for calculation of |
212 |
C Eliassen-Palm-flux-forced U-tendency, |
C Eliassen-Palm-flux-forced U-tendency, |
213 |
C if desired: |
C if desired: |
225 |
#ifdef ALLOW_AUTODIFF_TAMC |
#ifdef ALLOW_AUTODIFF_TAMC |
226 |
C-- HPF directive to help TAMC |
C-- HPF directive to help TAMC |
227 |
CHPF$ INDEPENDENT, NEW (fVerU,fVerV |
CHPF$ INDEPENDENT, NEW (fVerU,fVerV |
228 |
CHPF$& ,phiHyd |
CHPF$& ,phiHydF |
229 |
CHPF$& ,KappaRU,KappaRV |
CHPF$& ,KappaRU,KappaRV |
230 |
CHPF$& ) |
CHPF$& ) |
231 |
#endif /* ALLOW_AUTODIFF_TAMC */ |
#endif /* ALLOW_AUTODIFF_TAMC */ |
245 |
& + act4*max1*max2*max3 |
& + act4*max1*max2*max3 |
246 |
#endif /* ALLOW_AUTODIFF_TAMC */ |
#endif /* ALLOW_AUTODIFF_TAMC */ |
247 |
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248 |
C-- Set up work arrays that need valid initial values |
C-- Set up work arrays with valid (i.e. not NaN) values |
249 |
DO j=1-OLy,sNy+OLy |
C These inital values do not alter the numerical results. They |
250 |
DO i=1-OLx,sNx+OLx |
C just ensure that all memory references are to valid floating |
251 |
DO k=1,Nr |
C point numbers. This prevents spurious hardware signals due to |
252 |
phiHyd(i,j,k) = 0. _d 0 |
C uninitialised but inert locations. |
253 |
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254 |
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DO k=1,Nr |
255 |
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DO j=1-OLy,sNy+OLy |
256 |
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DO i=1-OLx,sNx+OLx |
257 |
KappaRU(i,j,k) = 0. _d 0 |
KappaRU(i,j,k) = 0. _d 0 |
258 |
KappaRV(i,j,k) = 0. _d 0 |
KappaRV(i,j,k) = 0. _d 0 |
259 |
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#ifdef ALLOW_AUTODIFF_TAMC |
260 |
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cph( |
261 |
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c-- need some re-initialisation here to break dependencies |
262 |
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c-- totphihyd is assumed zero from ini_pressure, i.e. |
263 |
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c-- avoiding iterate pressure p = integral of (g*rho(p)*dz) |
264 |
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cph) |
265 |
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totPhiHyd(i,j,k,bi,bj) = 0. _d 0 |
266 |
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gu(i,j,k,bi,bj) = 0. _d 0 |
267 |
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gv(i,j,k,bi,bj) = 0. _d 0 |
268 |
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#endif |
269 |
ENDDO |
ENDDO |
270 |
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ENDDO |
271 |
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ENDDO |
272 |
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DO j=1-OLy,sNy+OLy |
273 |
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DO i=1-OLx,sNx+OLx |
274 |
fVerU (i,j,1) = 0. _d 0 |
fVerU (i,j,1) = 0. _d 0 |
275 |
fVerU (i,j,2) = 0. _d 0 |
fVerU (i,j,2) = 0. _d 0 |
276 |
fVerV (i,j,1) = 0. _d 0 |
fVerV (i,j,1) = 0. _d 0 |
277 |
fVerV (i,j,2) = 0. _d 0 |
fVerV (i,j,2) = 0. _d 0 |
278 |
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phiHydF (i,j) = 0. _d 0 |
279 |
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phiHydC (i,j) = 0. _d 0 |
280 |
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dPhiHydX(i,j) = 0. _d 0 |
281 |
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dPhiHydY(i,j) = 0. _d 0 |
282 |
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phiSurfX(i,j) = 0. _d 0 |
283 |
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phiSurfY(i,j) = 0. _d 0 |
284 |
ENDDO |
ENDDO |
285 |
ENDDO |
ENDDO |
286 |
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287 |
C-- Start computation of dynamics |
C-- Start computation of dynamics |
288 |
iMin = 1-OLx+2 |
iMin = 0 |
289 |
iMax = sNx+OLx-1 |
iMax = sNx+1 |
290 |
jMin = 1-OLy+2 |
jMin = 0 |
291 |
jMax = sNy+OLy-1 |
jMax = sNy+1 |
292 |
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293 |
#ifdef ALLOW_AUTODIFF_TAMC |
#ifdef ALLOW_AUTODIFF_TAMC |
294 |
CADJ STORE wvel (:,:,:,bi,bj) = |
CADJ STORE wvel (:,:,:,bi,bj) = |
324 |
ENDDO |
ENDDO |
325 |
#endif |
#endif |
326 |
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327 |
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#ifdef ALLOW_AUTODIFF_TAMC |
328 |
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CADJ STORE KappaRU(:,:,:) |
329 |
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CADJ & = comlev1_bibj, key=idynkey, byte=isbyte |
330 |
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CADJ STORE KappaRV(:,:,:) |
331 |
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CADJ & = comlev1_bibj, key=idynkey, byte=isbyte |
332 |
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#endif /* ALLOW_AUTODIFF_TAMC */ |
333 |
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334 |
C-- Start of dynamics loop |
C-- Start of dynamics loop |
335 |
DO k=1,Nr |
DO k=1,Nr |
336 |
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345 |
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346 |
#ifdef ALLOW_AUTODIFF_TAMC |
#ifdef ALLOW_AUTODIFF_TAMC |
347 |
kkey = (idynkey-1)*Nr + k |
kkey = (idynkey-1)*Nr + k |
348 |
CADJ STORE pressure(:,:,k,bi,bj) = comlev1_bibj_k , |
c |
349 |
CADJ & key=kkey , byte=isbyte |
CADJ STORE totphihyd (:,:,k,bi,bj) |
350 |
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CADJ & = comlev1_bibj_k, key=kkey, byte=isbyte |
351 |
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CADJ STORE gt (:,:,k,bi,bj) |
352 |
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CADJ & = comlev1_bibj_k, key=kkey, byte=isbyte |
353 |
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CADJ STORE gs (:,:,k,bi,bj) |
354 |
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CADJ & = comlev1_bibj_k, key=kkey, byte=isbyte |
355 |
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CADJ STORE theta (:,:,k,bi,bj) |
356 |
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CADJ & = comlev1_bibj_k, key=kkey, byte=isbyte |
357 |
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CADJ STORE salt (:,:,k,bi,bj) |
358 |
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CADJ & = comlev1_bibj_k, key=kkey, byte=isbyte |
359 |
#endif /* ALLOW_AUTODIFF_TAMC */ |
#endif /* ALLOW_AUTODIFF_TAMC */ |
360 |
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361 |
C-- Integrate hydrostatic balance for phiHyd with BC of |
C-- Integrate hydrostatic balance for phiHyd with BC of |
365 |
CALL CALC_PHI_HYD( |
CALL CALC_PHI_HYD( |
366 |
I bi,bj,iMin,iMax,jMin,jMax,k, |
I bi,bj,iMin,iMax,jMin,jMax,k, |
367 |
I gT, gS, |
I gT, gS, |
368 |
U phiHyd, |
U phiHydF, |
369 |
I myThid ) |
O phiHydC, dPhiHydX, dPhiHydY, |
370 |
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I myTime, myIter, myThid ) |
371 |
ELSE |
ELSE |
372 |
CALL CALC_PHI_HYD( |
CALL CALC_PHI_HYD( |
373 |
I bi,bj,iMin,iMax,jMin,jMax,k, |
I bi,bj,iMin,iMax,jMin,jMax,k, |
374 |
I theta, salt, |
I theta, salt, |
375 |
U phiHyd, |
U phiHydF, |
376 |
I myThid ) |
O phiHydC, dPhiHydX, dPhiHydY, |
377 |
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I myTime, myIter, myThid ) |
378 |
ENDIF |
ENDIF |
379 |
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C calculate pressure from phiHyd and store it on common block |
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C variable pressure |
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CALL STORE_PRESSURE( bi, bj, k, phiHyd, myThid ) |
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380 |
C-- Calculate accelerations in the momentum equations (gU, gV, ...) |
C-- Calculate accelerations in the momentum equations (gU, gV, ...) |
381 |
C and step forward storing the result in gUnm1, gVnm1, etc... |
C and step forward storing the result in gU, gV, etc... |
382 |
IF ( momStepping ) THEN |
IF ( momStepping ) THEN |
383 |
#ifndef DISABLE_MOM_FLUXFORM |
#ifdef ALLOW_MOM_FLUXFORM |
384 |
IF (.NOT. vectorInvariantMomentum) CALL MOM_FLUXFORM( |
IF (.NOT. vectorInvariantMomentum) CALL MOM_FLUXFORM( |
385 |
I bi,bj,iMin,iMax,jMin,jMax,k,kup,kDown, |
I bi,bj,iMin,iMax,jMin,jMax,k,kup,kDown, |
386 |
I phiHyd,KappaRU,KappaRV, |
I dPhiHydX,dPhiHydY,KappaRU,KappaRV, |
387 |
U fVerU, fVerV, |
U fVerU, fVerV, |
388 |
I myTime, myIter, myThid) |
I myTime, myIter, myThid) |
389 |
#endif |
#endif |
390 |
#ifndef DISABLE_MOM_VECINV |
#ifdef ALLOW_MOM_VECINV |
391 |
IF (vectorInvariantMomentum) CALL MOM_VECINV( |
IF (vectorInvariantMomentum) CALL MOM_VECINV( |
392 |
I bi,bj,iMin,iMax,jMin,jMax,k,kup,kDown, |
I bi,bj,iMin,iMax,jMin,jMax,k,kup,kDown, |
393 |
I phiHyd,KappaRU,KappaRV, |
I dPhiHydX,dPhiHydY,KappaRU,KappaRV, |
394 |
U fVerU, fVerV, |
U fVerU, fVerV, |
395 |
I myTime, myIter, myThid) |
I myTime, myIter, myThid) |
396 |
#endif |
#endif |
397 |
CALL TIMESTEP( |
CALL TIMESTEP( |
398 |
I bi,bj,iMin,iMax,jMin,jMax,k, |
I bi,bj,iMin,iMax,jMin,jMax,k, |
399 |
I phiHyd, phiSurfX, phiSurfY, |
I dPhiHydX,dPhiHydY, phiSurfX, phiSurfY, |
400 |
I myIter, myThid) |
I myTime, myIter, myThid) |
401 |
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402 |
#ifdef ALLOW_OBCS |
#ifdef ALLOW_OBCS |
403 |
C-- Apply open boundary conditions |
C-- Apply open boundary conditions |
404 |
IF (useOBCS) THEN |
IF (useOBCS) THEN |
405 |
CALL OBCS_APPLY_UV( bi, bj, k, gUnm1, gVnm1, myThid ) |
CALL OBCS_APPLY_UV( bi, bj, k, gU, gV, myThid ) |
406 |
END IF |
ENDIF |
407 |
#endif /* ALLOW_OBCS */ |
#endif /* ALLOW_OBCS */ |
408 |
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#ifdef ALLOW_AUTODIFF_TAMC |
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#ifdef INCLUDE_CD_CODE |
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ELSE |
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DO j=1-OLy,sNy+OLy |
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DO i=1-OLx,sNx+OLx |
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guCD(i,j,k,bi,bj) = 0.0 |
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gvCD(i,j,k,bi,bj) = 0.0 |
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END DO |
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END DO |
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#endif /* INCLUDE_CD_CODE */ |
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#endif /* ALLOW_AUTODIFF_TAMC */ |
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409 |
ENDIF |
ENDIF |
410 |
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411 |
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412 |
C-- end of dynamics k loop (1:Nr) |
C-- end of dynamics k loop (1:Nr) |
413 |
ENDDO |
ENDDO |
414 |
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415 |
C-- Implicit viscosity |
C-- Implicit Vertical advection & viscosity |
416 |
IF (implicitViscosity.AND.momStepping) THEN |
#ifdef INCLUDE_IMPLVERTADV_CODE |
417 |
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IF ( momImplVertAdv ) THEN |
418 |
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CALL MOM_U_IMPLICIT_R( kappaRU, |
419 |
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I bi, bj, myTime, myIter, myThid ) |
420 |
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CALL MOM_V_IMPLICIT_R( kappaRV, |
421 |
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I bi, bj, myTime, myIter, myThid ) |
422 |
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ELSEIF ( implicitViscosity ) THEN |
423 |
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#else /* INCLUDE_IMPLVERTADV_CODE */ |
424 |
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IF ( implicitViscosity ) THEN |
425 |
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#endif /* INCLUDE_IMPLVERTADV_CODE */ |
426 |
#ifdef ALLOW_AUTODIFF_TAMC |
#ifdef ALLOW_AUTODIFF_TAMC |
427 |
CADJ STORE gUNm1(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte |
CADJ STORE KappaRU(:,:,:) = comlev1_bibj , key=idynkey, byte=isbyte |
428 |
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CADJ STORE gU(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte |
429 |
#endif /* ALLOW_AUTODIFF_TAMC */ |
#endif /* ALLOW_AUTODIFF_TAMC */ |
430 |
CALL IMPLDIFF( |
CALL IMPLDIFF( |
431 |
I bi, bj, iMin, iMax, jMin, jMax, |
I bi, bj, iMin, iMax, jMin, jMax, |
432 |
I deltaTmom, KappaRU,recip_HFacW, |
I deltaTmom, KappaRU,recip_HFacW, |
433 |
U gUNm1, |
U gU, |
434 |
I myThid ) |
I myThid ) |
435 |
#ifdef ALLOW_AUTODIFF_TAMC |
#ifdef ALLOW_AUTODIFF_TAMC |
436 |
CADJ STORE gVNm1(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte |
CADJ STORE KappaRV(:,:,:) = comlev1_bibj , key=idynkey, byte=isbyte |
437 |
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CADJ STORE gV(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte |
438 |
#endif /* ALLOW_AUTODIFF_TAMC */ |
#endif /* ALLOW_AUTODIFF_TAMC */ |
439 |
CALL IMPLDIFF( |
CALL IMPLDIFF( |
440 |
I bi, bj, iMin, iMax, jMin, jMax, |
I bi, bj, iMin, iMax, jMin, jMax, |
441 |
I deltaTmom, KappaRV,recip_HFacS, |
I deltaTmom, KappaRV,recip_HFacS, |
442 |
U gVNm1, |
U gV, |
443 |
I myThid ) |
I myThid ) |
444 |
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ENDIF |
445 |
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446 |
#ifdef ALLOW_OBCS |
#ifdef ALLOW_OBCS |
447 |
C-- Apply open boundary conditions |
C-- Apply open boundary conditions |
448 |
IF (useOBCS) THEN |
IF ( useOBCS .AND.(implicitViscosity.OR.momImplVertAdv) ) THEN |
449 |
DO K=1,Nr |
DO K=1,Nr |
450 |
CALL OBCS_APPLY_UV( bi, bj, k, gUnm1, gVnm1, myThid ) |
CALL OBCS_APPLY_UV( bi, bj, k, gU, gV, myThid ) |
451 |
ENDDO |
ENDDO |
452 |
END IF |
ENDIF |
453 |
#endif /* ALLOW_OBCS */ |
#endif /* ALLOW_OBCS */ |
454 |
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455 |
#ifdef INCLUDE_CD_CODE |
#ifdef ALLOW_CD_CODE |
456 |
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IF (implicitViscosity.AND.useCDscheme) THEN |
457 |
#ifdef ALLOW_AUTODIFF_TAMC |
#ifdef ALLOW_AUTODIFF_TAMC |
458 |
CADJ STORE vVelD(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte |
CADJ STORE vVelD(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte |
459 |
#endif /* ALLOW_AUTODIFF_TAMC */ |
#endif /* ALLOW_AUTODIFF_TAMC */ |
470 |
I deltaTmom, KappaRV,recip_HFacS, |
I deltaTmom, KappaRV,recip_HFacS, |
471 |
U uVelD, |
U uVelD, |
472 |
I myThid ) |
I myThid ) |
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#endif /* INCLUDE_CD_CODE */ |
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C-- End If implicitViscosity.AND.momStepping |
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473 |
ENDIF |
ENDIF |
474 |
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#endif /* ALLOW_CD_CODE */ |
475 |
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C-- End implicit Vertical advection & viscosity |
476 |
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Cjmc : add for phiHyd output <- but not working if multi tile per CPU |
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c IF ( DIFFERENT_MULTIPLE(dumpFreq,myTime+deltaTClock,myTime) |
|
|
c & .AND. buoyancyRelation .ne. 'OCEANIC' ) THEN |
|
|
c WRITE(suff,'(I10.10)') myIter+1 |
|
|
c CALL WRITE_FLD_XYZ_RL('PH.',suff,phiHyd,myIter+1,myThid) |
|
|
c ENDIF |
|
|
Cjmc(end) |
|
|
|
|
|
#ifdef ALLOW_TIMEAVE |
|
|
IF (taveFreq.GT.0.) THEN |
|
|
CALL TIMEAVE_CUMUL_1T(phiHydtave, phiHyd, Nr, |
|
|
I deltaTclock, bi, bj, myThid) |
|
|
ENDIF |
|
|
#endif /* ALLOW_TIMEAVE */ |
|
|
|
|
477 |
ENDDO |
ENDDO |
478 |
ENDDO |
ENDDO |
479 |
|
|
485 |
C & 'phiHydLow', myThid ) |
C & 'phiHydLow', myThid ) |
486 |
Cml) |
Cml) |
487 |
|
|
488 |
#ifndef DISABLE_DEBUGMODE |
#ifdef ALLOW_DEBUG |
489 |
If (debugMode) THEN |
If ( debugLevel .GE. debLevB ) THEN |
490 |
CALL DEBUG_STATS_RL(1,EtaN,'EtaN (DYNAMICS)',myThid) |
CALL DEBUG_STATS_RL(1,EtaN,'EtaN (DYNAMICS)',myThid) |
491 |
CALL DEBUG_STATS_RL(Nr,uVel,'Uvel (DYNAMICS)',myThid) |
CALL DEBUG_STATS_RL(Nr,uVel,'Uvel (DYNAMICS)',myThid) |
492 |
CALL DEBUG_STATS_RL(Nr,vVel,'Vvel (DYNAMICS)',myThid) |
CALL DEBUG_STATS_RL(Nr,vVel,'Vvel (DYNAMICS)',myThid) |