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C $Header$ |
C $Header$ |
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#include "CPP_EEOPTIONS.h" |
#include "CPP_OPTIONS.h" |
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SUBROUTINE DYNAMICS(myTime, myIter, myThid) |
SUBROUTINE DYNAMICS(myTime, myIter, myThid) |
6 |
C /==========================================================\ |
C /==========================================================\ |
87 |
_RL pH (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nz) |
_RL pH (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nz) |
88 |
_RL rhokm1(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL rhokm1(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
89 |
_RL rhokp1(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL rhokp1(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
90 |
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_RL rhok (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
91 |
_RL rhotmp(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL rhotmp(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
92 |
_RL pSurfX(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL pSurfX(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
93 |
_RL pSurfY(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL pSurfY(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
103 |
INTEGER bi, bj |
INTEGER bi, bj |
104 |
INTEGER i, j |
INTEGER i, j |
105 |
INTEGER k, kM1, kUp, kDown |
INTEGER k, kM1, kUp, kDown |
106 |
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LOGICAL BOTTOM_LAYER |
107 |
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108 |
C--- The algorithm... |
C--- The algorithm... |
109 |
C |
C |
175 |
KappaZT(i,j,k) = 0. _d 0 |
KappaZT(i,j,k) = 0. _d 0 |
176 |
ENDDO |
ENDDO |
177 |
rhokm1(i,j) = 0. _d 0 |
rhokm1(i,j) = 0. _d 0 |
178 |
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rhok (i,j) = 0. _d 0 |
179 |
rhokp1(i,j) = 0. _d 0 |
rhokp1(i,j) = 0. _d 0 |
180 |
rhotmp(i,j) = 0. _d 0 |
rhotmp(i,j) = 0. _d 0 |
181 |
maskC (i,j) = 0. _d 0 |
maskC (i,j) = 0. _d 0 |
203 |
K13(i,j,1) = 0. _d 0 |
K13(i,j,1) = 0. _d 0 |
204 |
K23(i,j,1) = 0. _d 0 |
K23(i,j,1) = 0. _d 0 |
205 |
K33(i,j,1) = 0. _d 0 |
K33(i,j,1) = 0. _d 0 |
206 |
KapGM(i,j) = 0. _d 0 |
KapGM(i,j) = GMkbackground |
207 |
ENDDO |
ENDDO |
208 |
ENDDO |
ENDDO |
209 |
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212 |
jMin = 1-OLy+1 |
jMin = 1-OLy+1 |
213 |
jMax = sNy+OLy |
jMax = sNy+OLy |
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215 |
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K = 1 |
216 |
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BOTTOM_LAYER = K .EQ. Nz |
217 |
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218 |
C-- Calculate gradient of surface pressure |
C-- Calculate gradient of surface pressure |
219 |
CALL GRAD_PSURF( |
CALL GRAD_PSURF( |
220 |
I bi,bj,iMin,iMax,jMin,jMax, |
I bi,bj,iMin,iMax,jMin,jMax, |
223 |
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224 |
C-- Update fields in top level according to tendency terms |
C-- Update fields in top level according to tendency terms |
225 |
CALL CORRECTION_STEP( |
CALL CORRECTION_STEP( |
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I bi,bj,iMin,iMax,jMin,jMax,1,pSurfX,pSurfY,myThid) |
I bi,bj,iMin,iMax,jMin,jMax,K,pSurfX,pSurfY,myTime,myThid) |
227 |
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228 |
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IF ( .NOT. BOTTOM_LAYER ) THEN |
229 |
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C-- Update fields in layer below according to tendency terms |
230 |
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CALL CORRECTION_STEP( |
231 |
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I bi,bj,iMin,iMax,jMin,jMax,K+1,pSurfX,pSurfY,myTime,myThid) |
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ENDIF |
233 |
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234 |
C-- Density of 1st level (below W(1)) reference to level 1 |
C-- Density of 1st level (below W(1)) reference to level 1 |
235 |
CALL FIND_RHO( |
CALL FIND_RHO( |
236 |
I bi, bj, iMin, iMax, jMin, jMax, 1, 1, eosType, |
I bi, bj, iMin, iMax, jMin, jMax, K, K, eosType, |
237 |
O rhoKm1, |
O rhoKm1, |
238 |
I myThid ) |
I myThid ) |
239 |
C-- Integrate hydrostatic balance for pH with BC of pH(z=0)=0 |
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240 |
CALL CALC_PH( |
IF ( .NOT. BOTTOM_LAYER ) THEN |
241 |
I bi,bj,iMin,iMax,jMin,jMax,1,rhoKm1,rhoKm1, |
C-- Check static stability with layer below |
242 |
U pH, |
C and mix as needed. |
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CALL FIND_RHO( |
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I bi, bj, iMin, iMax, jMin, jMax, K+1, K, eosType, |
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O rhoKp1, |
246 |
I myThid ) |
I myThid ) |
247 |
DO J=jMin,jMax |
CALL CONVECT( |
248 |
DO I=iMin,iMax |
I bi,bj,iMin,iMax,jMin,jMax,K+1,rhoKm1,rhoKp1, |
249 |
rhoKp1(I,J)=rhoKm1(I,J) |
I myTime,myIter,myThid) |
250 |
ENDDO |
C-- Recompute density after mixing |
251 |
ENDDO |
CALL FIND_RHO( |
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I bi, bj, iMin, iMax, jMin, jMax, K, K, eosType, |
253 |
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O rhoKm1, |
254 |
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I myThid ) |
255 |
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ENDIF |
256 |
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DO K=2,Nz |
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C-- Update fields in Kth level according to tendency terms |
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CALL CORRECTION_STEP( |
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I bi,bj,iMin,iMax,jMin,jMax,K,pSurfX,pSurfY,myThid) |
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C-- Density of K-1 level (above W(K)) reference to K-1 level |
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copt CALL FIND_RHO( |
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copt I bi, bj, iMin, iMax, jMin, jMax, K-1, K-1, eosType, |
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copt O rhoKm1, |
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copt I myThid ) |
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C rhoKm1=rhoKp1 |
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DO J=jMin,jMax |
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DO I=iMin,iMax |
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rhoKm1(I,J)=rhoKp1(I,J) |
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ENDDO |
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ENDDO |
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C-- Density of K level (below W(K)) reference to K level |
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CALL FIND_RHO( |
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I bi, bj, iMin, iMax, jMin, jMax, K, K, eosType, |
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O rhoKp1, |
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I myThid ) |
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C-- Density of K-1 level (above W(K)) reference to K level |
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CALL FIND_RHO( |
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I bi, bj, iMin, iMax, jMin, jMax, K-1, K, eosType, |
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O rhotmp, |
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I myThid ) |
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C-- Calculate iso-neutral slopes for the GM/Redi parameterisation |
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CALL CALC_ISOSLOPES( |
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I bi, bj, iMin, iMax, jMin, jMax, K, |
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I rhoKm1, rhoKp1, rhotmp, |
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O K13, K23, K33, KapGM, |
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I myThid ) |
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C-- Calculate static stability and mix where convectively unstable |
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CALL CONVECT( |
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I bi,bj,iMin,iMax,jMin,jMax,K,rhotmp,rhoKp1, |
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I myTime,myIter,myThid) |
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C-- Density of K-1 level (above W(K)) reference to K-1 level |
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CALL FIND_RHO( |
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I bi, bj, iMin, iMax, jMin, jMax, K-1, K-1, eosType, |
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O rhoKm1, |
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I myThid ) |
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C-- Density of K level (below W(K)) referenced to K level |
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CALL FIND_RHO( |
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I bi, bj, iMin, iMax, jMin, jMax, K, K, eosType, |
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O rhoKp1, |
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I myThid ) |
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257 |
C-- Integrate hydrostatic balance for pH with BC of pH(z=0)=0 |
C-- Integrate hydrostatic balance for pH with BC of pH(z=0)=0 |
258 |
CALL CALC_PH( |
CALL CALC_PH( |
259 |
I bi,bj,iMin,iMax,jMin,jMax,K,rhoKm1,rhoKp1, |
I bi,bj,iMin,iMax,jMin,jMax,K,rhoKm1,rhoKm1, |
260 |
U pH, |
U pH, |
261 |
I myThid ) |
I myThid ) |
262 |
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263 |
ENDDO ! K |
DO K=2,Nz |
264 |
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265 |
C-- Initial boundary condition on barotropic divergence integral |
BOTTOM_LAYER = K .EQ. Nz |
266 |
DO j=1-OLy,sNy+OLy |
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267 |
DO i=1-OLx,sNx+OLx |
IF ( .NOT. BOTTOM_LAYER ) THEN |
268 |
cg2d_b(i,j,bi,bj) = 0. _d 0 |
C-- Update fields in layer below according to tendency terms |
269 |
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CALL CORRECTION_STEP( |
270 |
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I bi,bj,iMin,iMax,jMin,jMax,K+1,pSurfX,pSurfY,myTime,myThid) |
271 |
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ENDIF |
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C-- Update fields in layer below according to tendency terms |
273 |
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C CALL CORRECTION_STEP( |
274 |
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C I bi,bj,iMin,iMax,jMin,jMax,K,pSurfX,pSurfY,myTime,myThid) |
275 |
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276 |
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C-- Density of K level (below W(K)) reference to K level |
277 |
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CALL FIND_RHO( |
278 |
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I bi, bj, iMin, iMax, jMin, jMax, K, K, eosType, |
279 |
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O rhoK, |
280 |
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I myThid ) |
281 |
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IF ( .NOT. BOTTOM_LAYER ) THEN |
282 |
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C-- Check static stability with layer below |
283 |
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C and mix as needed. |
284 |
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C-- Density of K+1 level (below W(K+1)) reference to K level |
285 |
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CALL FIND_RHO( |
286 |
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I bi, bj, iMin, iMax, jMin, jMax, K+1, K, eosType, |
287 |
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O rhoKp1, |
288 |
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I myThid ) |
289 |
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CALL CONVECT( |
290 |
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I bi,bj,iMin,iMax,jMin,jMax,K+1,rhoK,rhoKp1, |
291 |
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I myTime,myIter,myThid) |
292 |
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C-- Recompute density after mixing |
293 |
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CALL FIND_RHO( |
294 |
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I bi, bj, iMin, iMax, jMin, jMax, K, K, eosType, |
295 |
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O rhoK, |
296 |
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I myThid ) |
297 |
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ENDIF |
298 |
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C-- Integrate hydrostatic balance for pH with BC of pH(z=0)=0 |
299 |
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CALL CALC_PH( |
300 |
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I bi,bj,iMin,iMax,jMin,jMax,K,rhoKm1,rhoK, |
301 |
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U pH, |
302 |
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I myThid ) |
303 |
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C-- Calculate iso-neutral slopes for the GM/Redi parameterisation |
304 |
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CALL FIND_RHO( |
305 |
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I bi, bj, iMin, iMax, jMin, jMax, K-1, K, eosType, |
306 |
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O rhoTmp, |
307 |
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I myThid ) |
308 |
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CALL CALC_ISOSLOPES( |
309 |
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I bi, bj, iMin, iMax, jMin, jMax, K, |
310 |
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I rhoKm1, rhoK, rhotmp, |
311 |
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O K13, K23, K33, KapGM, |
312 |
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I myThid ) |
313 |
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DO J=jMin,jMax |
314 |
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DO I=iMin,iMax |
315 |
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rhoKm1(I,J)=rhoK(I,J) |
316 |
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ENDDO |
317 |
ENDDO |
ENDDO |
318 |
ENDDO |
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319 |
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ENDDO ! K |
320 |
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321 |
DO K = Nz, 1, -1 |
DO K = Nz, 1, -1 |
322 |
kM1 =max(1,k-1) ! Points to level above k (=k-1) |
kM1 =max(1,k-1) ! Points to level above k (=k-1) |
355 |
IF ( tempStepping ) THEN |
IF ( tempStepping ) THEN |
356 |
CALL CALC_GT( |
CALL CALC_GT( |
357 |
I bi,bj,iMin,iMax,jMin,jMax, k,kM1,kUp,kDown, |
I bi,bj,iMin,iMax,jMin,jMax, k,kM1,kUp,kDown, |
358 |
I xA,yA,uTrans,vTrans,wTrans,maskUp, |
I xA,yA,uTrans,vTrans,wTrans,maskUp,maskC, |
359 |
I K13,K23,KappaZT,KapGM, |
I K13,K23,KappaZT,KapGM, |
360 |
U aTerm,xTerm,fZon,fMer,fVerT, |
U aTerm,xTerm,fZon,fMer,fVerT, |
361 |
I myThid) |
I myThid) |
363 |
IF ( saltStepping ) THEN |
IF ( saltStepping ) THEN |
364 |
CALL CALC_GS( |
CALL CALC_GS( |
365 |
I bi,bj,iMin,iMax,jMin,jMax, k,kM1,kUp,kDown, |
I bi,bj,iMin,iMax,jMin,jMax, k,kM1,kUp,kDown, |
366 |
I xA,yA,uTrans,vTrans,wTrans,maskUp, |
I xA,yA,uTrans,vTrans,wTrans,maskUp,maskC, |
367 |
I K13,K23,KappaZS,KapGM, |
I K13,K23,KappaZS,KapGM, |
368 |
U aTerm,xTerm,fZon,fMer,fVerS, |
U aTerm,xTerm,fZon,fMer,fVerS, |
369 |
I myThid) |
I myThid) |
380 |
I xA,yA, |
I xA,yA, |
381 |
I myThid) |
I myThid) |
382 |
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383 |
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C-- Cumulative diagnostic calculations (ie. time-averaging) |
384 |
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#ifdef ALLOW_DIAGNOSTICS |
385 |
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IF (taveFreq.GT.0.) THEN |
386 |
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CALL DO_TIME_AVERAGES( |
387 |
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I myTime, myIter, bi, bj, K, kUp, kDown, |
388 |
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I K13, K23, wVel, KapGM, |
389 |
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I myThid ) |
390 |
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ENDIF |
391 |
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#endif |
392 |
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393 |
ENDDO ! K |
ENDDO ! K |
394 |
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395 |
C-- Implicit diffusion |
C-- Implicit diffusion |
402 |
ENDDO |
ENDDO |
403 |
ENDDO |
ENDDO |
404 |
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405 |
write(0,*) 'dynamics: pS ',minval(cg2d_x(1:sNx,1:sNy,:,:)), |
C write(0,*) 'dynamics: pS ',minval(cg2d_x(1:sNx,1:sNy,:,:)), |
406 |
& maxval(cg2d_x(1:sNx,1:sNy,:,:)) |
C & maxval(cg2d_x(1:sNx,1:sNy,:,:)) |
407 |
write(0,*) 'dynamics: U ',minval(uVel(1:sNx,1:sNy,:,:,:)), |
C write(0,*) 'dynamics: U ',minval(uVel(1:sNx,1:sNy,1,:,:),mask=uVel(1:sNx,1:sNy,1,:,:).NE.0.), |
408 |
& maxval(uVel(1:sNx,1:sNy,:,:,:)) |
C & maxval(uVel(1:sNx,1:sNy,1,:,:),mask=uVel(1:sNx,1:sNy,1,:,:).NE.0.) |
409 |
write(0,*) 'dynamics: V ',minval(vVel(1:sNx,1:sNy,:,:,:)), |
C write(0,*) 'dynamics: V ',minval(vVel(1:sNx,1:sNy,1,:,:),mask=vVel(1:sNx,1:sNy,1,:,:).NE.0.), |
410 |
& maxval(vVel(1:sNx,1:sNy,:,:,:)) |
C & maxval(vVel(1:sNx,1:sNy,1,:,:),mask=vVel(1:sNx,1:sNy,1,:,:).NE.0.) |
411 |
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C write(0,*) 'dynamics: wVel(1) ', |
412 |
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C & minval(wVel(1:sNx,1:sNy,1),mask=wVel(1:sNx,1:sNy,1).NE.0.), |
413 |
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C & maxval(wVel(1:sNx,1:sNy,1),mask=wVel(1:sNx,1:sNy,1).NE.0.) |
414 |
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C write(0,*) 'dynamics: wVel(2) ', |
415 |
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C & minval(wVel(1:sNx,1:sNy,2),mask=wVel(1:sNx,1:sNy,2).NE.0.), |
416 |
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C & maxval(wVel(1:sNx,1:sNy,2),mask=wVel(1:sNx,1:sNy,2).NE.0.) |
417 |
cblk write(0,*) 'dynamics: K13',minval(K13(1:sNx,1:sNy,:)), |
cblk write(0,*) 'dynamics: K13',minval(K13(1:sNx,1:sNy,:)), |
418 |
cblk & maxval(K13(1:sNx,1:sNy,:)) |
cblk & maxval(K13(1:sNx,1:sNy,:)) |
419 |
cblk write(0,*) 'dynamics: K23',minval(K23(1:sNx,1:sNy,:)), |
cblk write(0,*) 'dynamics: K23',minval(K23(1:sNx,1:sNy,:)), |
420 |
cblk & maxval(K23(1:sNx,1:sNy,:)) |
cblk & maxval(K23(1:sNx,1:sNy,:)) |
421 |
cblk write(0,*) 'dynamics: K33',minval(K33(1:sNx,1:sNy,:)), |
cblk write(0,*) 'dynamics: K33',minval(K33(1:sNx,1:sNy,:)), |
422 |
cblk & maxval(K33(1:sNx,1:sNy,:)) |
cblk & maxval(K33(1:sNx,1:sNy,:)) |
423 |
write(0,*) 'dynamics: gT ',minval(gT(1:sNx,1:sNy,:,:,:)), |
C write(0,*) 'dynamics: gT ',minval(gT(1:sNx,1:sNy,:,:,:)), |
424 |
& maxval(gT(1:sNx,1:sNy,:,:,:)) |
C & maxval(gT(1:sNx,1:sNy,:,:,:)) |
425 |
write(0,*) 'dynamics: T ',minval(Theta(1:sNx,1:sNy,:,:,:)), |
C write(0,*) 'dynamics: T ',minval(Theta(1:sNx,1:sNy,:,:,:)), |
426 |
& maxval(Theta(1:sNx,1:sNy,:,:,:)) |
C & maxval(Theta(1:sNx,1:sNy,:,:,:)) |
427 |
write(0,*) 'dynamics: gS ',minval(gS(1:sNx,1:sNy,:,:,:)), |
C write(0,*) 'dynamics: gS ',minval(gS(1:sNx,1:sNy,:,:,:)), |
428 |
& maxval(gS(1:sNx,1:sNy,:,:,:)) |
C & maxval(gS(1:sNx,1:sNy,:,:,:)) |
429 |
write(0,*) 'dynamics: S ',minval(salt(1:sNx,1:sNy,:,:,:)), |
C write(0,*) 'dynamics: S ',minval(salt(1:sNx,1:sNy,:,:,:)), |
430 |
& maxval(salt(1:sNx,1:sNy,:,:,:)) |
C & maxval(salt(1:sNx,1:sNy,:,:,:)) |
431 |
cblk write(0,*) 'dynamics: pH ',minval(pH/(Gravity*Rhonil)), |
C write(0,*) 'dynamics: pH ',minval(pH/(Gravity*Rhonil),mask=ph.NE.0.), |
432 |
cblk & maxval(pH/(Gravity*Rhonil)) |
C & maxval(pH/(Gravity*Rhonil)) |
433 |
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434 |
RETURN |
RETURN |
435 |
END |
END |