| 1 |
C $Header$ |
C $Header$ |
| 2 |
C $Name$ |
C $Name$ |
| 3 |
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| 4 |
#include "CPP_OPTIONS.h" |
#include "MOM_VECINV_OPTIONS.h" |
| 5 |
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| 6 |
SUBROUTINE MOM_VECINV( |
SUBROUTINE MOM_VECINV( |
| 7 |
I bi,bj,iMin,iMax,jMin,jMax,k,kUp,kDown, |
I bi,bj,iMin,iMax,jMin,jMax,k,kUp,kDown, |
| 8 |
I dPhiHydX,dPhiHydY,KappaRU,KappaRV, |
I dPhiHydX,dPhiHydY,KappaRU,KappaRV, |
| 9 |
U fVerU, fVerV, |
U fVerU, fVerV, |
| 10 |
I myCurrentTime, myIter, myThid) |
I myTime, myIter, myThid) |
| 11 |
C /==========================================================\ |
C /==========================================================\ |
| 12 |
C | S/R MOM_VECINV | |
C | S/R MOM_VECINV | |
| 13 |
C | o Form the right hand-side of the momentum equation. | |
C | o Form the right hand-side of the momentum equation. | |
| 30 |
#include "DYNVARS.h" |
#include "DYNVARS.h" |
| 31 |
#include "EEPARAMS.h" |
#include "EEPARAMS.h" |
| 32 |
#include "PARAMS.h" |
#include "PARAMS.h" |
| 33 |
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#ifdef ALLOW_MNC |
| 34 |
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#include "MNC_PARAMS.h" |
| 35 |
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#endif |
| 36 |
#include "GRID.h" |
#include "GRID.h" |
| 37 |
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#ifdef ALLOW_TIMEAVE |
| 38 |
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#include "TIMEAVE_STATV.h" |
| 39 |
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#endif |
| 40 |
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| 41 |
C == Routine arguments == |
C == Routine arguments == |
| 42 |
C fVerU - Flux of momentum in the vertical |
C fVerU - Flux of momentum in the vertical |
| 54 |
_RL fVerU(1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
_RL fVerU(1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
| 55 |
_RL fVerV(1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
_RL fVerV(1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
| 56 |
INTEGER kUp,kDown |
INTEGER kUp,kDown |
| 57 |
_RL myCurrentTime |
_RL myTime |
| 58 |
INTEGER myIter |
INTEGER myIter |
| 59 |
INTEGER myThid |
INTEGER myThid |
| 60 |
INTEGER bi,bj,iMin,iMax,jMin,jMax |
INTEGER bi,bj,iMin,iMax,jMin,jMax |
| 61 |
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| 62 |
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#ifdef ALLOW_MOM_VECINV |
| 63 |
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| 64 |
C == Functions == |
C == Functions == |
| 65 |
LOGICAL DIFFERENT_MULTIPLE |
LOGICAL DIFFERENT_MULTIPLE |
| 66 |
EXTERNAL DIFFERENT_MULTIPLE |
EXTERNAL DIFFERENT_MULTIPLE |
| 81 |
_RS r_hFacZ(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RS r_hFacZ(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 82 |
_RS xA(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RS xA(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 83 |
_RS yA(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RS yA(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
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_RL uTrans(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
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_RL vTrans(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
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| 84 |
_RL uFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL uFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 85 |
_RL vFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL vFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 86 |
_RL dStar(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL dStar(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 118 |
_RL phyFac |
_RL phyFac |
| 119 |
_RL vForcFac |
_RL vForcFac |
| 120 |
_RL mtFacV |
_RL mtFacV |
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INTEGER km1,kp1 |
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| 121 |
_RL wVelBottomOverride |
_RL wVelBottomOverride |
| 122 |
LOGICAL bottomDragTerms |
LOGICAL bottomDragTerms |
| 123 |
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LOGICAL writeDiag |
| 124 |
_RL KE(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL KE(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 125 |
_RL omega3(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL omega3(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 126 |
_RL vort3(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL vort3(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 127 |
_RL hDiv(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL hDiv(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 128 |
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| 129 |
km1=MAX(1,k-1) |
#ifdef ALLOW_MNC |
| 130 |
kp1=MIN(Nr,k+1) |
INTEGER offsets(9) |
| 131 |
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#endif |
| 132 |
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| 133 |
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#ifdef ALLOW_AUTODIFF_TAMC |
| 134 |
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C-- only the kDown part of fverU/V is set in this subroutine |
| 135 |
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C-- the kUp is still required |
| 136 |
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C-- In the case of mom_fluxform Kup is set as well |
| 137 |
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C-- (at least in part) |
| 138 |
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fVerU(1,1,kUp) = fVerU(1,1,kUp) |
| 139 |
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fVerV(1,1,kUp) = fVerV(1,1,kUp) |
| 140 |
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#endif |
| 141 |
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| 142 |
rVelMaskOverride=1. |
rVelMaskOverride=1. |
| 143 |
IF ( k .EQ. 1 ) rVelMaskOverride=freeSurfFac |
IF ( k .EQ. 1 ) rVelMaskOverride=freeSurfFac |
| 144 |
wVelBottomOverride=1. |
wVelBottomOverride=1. |
| 145 |
IF (k.EQ.Nr) wVelBottomOverride=0. |
IF (k.EQ.Nr) wVelBottomOverride=0. |
| 146 |
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writeDiag = DIFFERENT_MULTIPLE(diagFreq, myTime, |
| 147 |
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& myTime-deltaTClock) |
| 148 |
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| 149 |
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#ifdef ALLOW_MNC |
| 150 |
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IF (useMNC .AND. snapshot_mnc .AND. writeDiag) THEN |
| 151 |
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IF ((bi .EQ. 1).AND.(bj .EQ. 1).AND.(k .EQ. 1)) THEN |
| 152 |
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CALL MNC_CW_SET_UDIM('mom_vi', -1, myThid) |
| 153 |
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CALL MNC_CW_I_W_S('I','mom_vi',0,0,'iter',myIter,myThid) |
| 154 |
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CALL MNC_CW_SET_UDIM('mom_vi', 0, myThid) |
| 155 |
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ENDIF |
| 156 |
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DO i = 1,9 |
| 157 |
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offsets(i) = 0 |
| 158 |
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ENDDO |
| 159 |
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offsets(3) = k |
| 160 |
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C write(*,*) 'offsets = ',(offsets(i),i=1,9) |
| 161 |
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ENDIF |
| 162 |
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#endif /* ALLOW_MNC */ |
| 163 |
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|
| 164 |
C Initialise intermediate terms |
C Initialise intermediate terms |
| 165 |
DO J=1-OLy,sNy+OLy |
DO J=1-OLy,sNy+OLy |
| 180 |
vort3(i,j) = 0. |
vort3(i,j) = 0. |
| 181 |
omega3(i,j) = 0. |
omega3(i,j) = 0. |
| 182 |
ke(i,j) = 0. |
ke(i,j) = 0. |
| 183 |
|
#ifdef ALLOW_AUTODIFF_TAMC |
| 184 |
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strain(i,j) = 0. _d 0 |
| 185 |
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tension(i,j) = 0. _d 0 |
| 186 |
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#endif |
| 187 |
ENDDO |
ENDDO |
| 188 |
ENDDO |
ENDDO |
| 189 |
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|
| 250 |
ENDDO |
ENDDO |
| 251 |
ENDDO |
ENDDO |
| 252 |
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| 253 |
C Calculate velocity field "volume transports" through tracer cell faces. |
C note (jmc) : Dissipation and Vort3 advection do not necesary |
| 254 |
DO j=1-OLy,sNy+OLy |
C use the same maskZ (and hFacZ) => needs 2 call(s) |
| 255 |
DO i=1-OLx,sNx+OLx |
c CALL MOM_VI_HFACZ_DISS(bi,bj,k,hFacZ,r_hFacZ,myThid) |
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uTrans(i,j) = uFld(i,j)*xA(i,j) |
|
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vTrans(i,j) = vFld(i,j)*yA(i,j) |
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ENDDO |
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ENDDO |
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| 256 |
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| 257 |
CALL MOM_VI_CALC_KE(bi,bj,k,uFld,vFld,KE,myThid) |
CALL MOM_CALC_KE(bi,bj,k,2,uFld,vFld,KE,myThid) |
| 258 |
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| 259 |
CALL MOM_VI_CALC_HDIV(bi,bj,k,uFld,vFld,hDiv,myThid) |
CALL MOM_CALC_HDIV(bi,bj,k,2,uFld,vFld,hDiv,myThid) |
| 260 |
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|
| 261 |
CALL MOM_VI_CALC_RELVORT3(bi,bj,k,uFld,vFld,hFacZ,vort3,myThid) |
CALL MOM_CALC_RELVORT3(bi,bj,k,uFld,vFld,hFacZ,vort3,myThid) |
| 262 |
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|
| 263 |
c CALL MOM_VI_CALC_ABSVORT3(bi,bj,k,vort3,omega3,myThid) |
IF (useAbsVorticity) |
| 264 |
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& CALL MOM_CALC_ABSVORT3(bi,bj,k,vort3,omega3,myThid) |
| 265 |
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| 266 |
IF (momViscosity) THEN |
IF (momViscosity) THEN |
| 267 |
C Calculate del^2 u and del^2 v for bi-harmonic term |
C Calculate del^2 u and del^2 v for bi-harmonic term |
| 268 |
IF (viscA4.NE.0.) THEN |
IF (viscA4.NE.0. |
| 269 |
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& .OR. viscA4Grid.NE.0. |
| 270 |
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& .OR. viscC4leith.NE.0. |
| 271 |
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& ) THEN |
| 272 |
CALL MOM_VI_DEL2UV(bi,bj,k,hDiv,vort3,hFacZ, |
CALL MOM_VI_DEL2UV(bi,bj,k,hDiv,vort3,hFacZ, |
| 273 |
O del2u,del2v, |
O del2u,del2v, |
| 274 |
& myThid) |
& myThid) |
| 275 |
CALL MOM_VI_CALC_HDIV(bi,bj,k,del2u,del2v,dStar,myThid) |
CALL MOM_CALC_HDIV(bi,bj,k,2,del2u,del2v,dStar,myThid) |
| 276 |
CALL MOM_VI_CALC_RELVORT3( |
CALL MOM_CALC_RELVORT3( |
| 277 |
& bi,bj,k,del2u,del2v,hFacZ,zStar,myThid) |
& bi,bj,k,del2u,del2v,hFacZ,zStar,myThid) |
| 278 |
ENDIF |
ENDIF |
| 279 |
C Calculate dissipation terms for U and V equations |
C Calculate dissipation terms for U and V equations |
| 280 |
C in terms of vorticity and divergence |
C in terms of vorticity and divergence |
| 281 |
IF (viscAh.NE.0. .OR. viscA4.NE.0.) THEN |
IF ( viscAhD.NE.0. .OR. viscAhZ.NE.0. |
| 282 |
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& .OR. viscA4D.NE.0. .OR. viscA4Z.NE.0. |
| 283 |
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& .OR. viscAhGrid.NE.0. .OR. viscA4Grid.NE.0. |
| 284 |
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& .OR. viscC2leith.NE.0. .OR. viscC4leith.NE.0. |
| 285 |
|
& ) THEN |
| 286 |
CALL MOM_VI_HDISSIP(bi,bj,k,hDiv,vort3,hFacZ,dStar,zStar, |
CALL MOM_VI_HDISSIP(bi,bj,k,hDiv,vort3,hFacZ,dStar,zStar, |
| 287 |
O uDiss,vDiss, |
O uDiss,vDiss, |
| 288 |
& myThid) |
& myThid) |
| 302 |
ENDIF |
ENDIF |
| 303 |
ENDIF |
ENDIF |
| 304 |
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|
| 305 |
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C- Return to standard hfacZ (min-4) and mask vort3 accordingly: |
| 306 |
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c CALL MOM_VI_MASK_VORT3(bi,bj,k,hFacZ,r_hFacZ,vort3,myThid) |
| 307 |
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| 308 |
C---- Zonal momentum equation starts here |
C---- Zonal momentum equation starts here |
| 309 |
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| 310 |
C-- Vertical flux (fVer is at upper face of "u" cell) |
C-- Vertical flux (fVer is at upper face of "u" cell) |
| 343 |
ENDDO |
ENDDO |
| 344 |
ENDDO |
ENDDO |
| 345 |
ENDIF |
ENDIF |
| 346 |
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|
| 347 |
C- No-slip BCs impose a drag at bottom |
C- No-slip BCs impose a drag at bottom |
| 348 |
IF (momViscosity.AND.bottomDragTerms) THEN |
IF (momViscosity.AND.bottomDragTerms) THEN |
| 349 |
CALL MOM_U_BOTTOMDRAG(bi,bj,k,uFld,KE,KappaRU,vF,myThid) |
CALL MOM_U_BOTTOMDRAG(bi,bj,k,uFld,KE,KappaRU,vF,myThid) |
| 354 |
ENDDO |
ENDDO |
| 355 |
ENDIF |
ENDIF |
| 356 |
|
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C-- Forcing term (moved to timestep.F) |
|
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c IF (momForcing) |
|
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c & CALL EXTERNAL_FORCING_U( |
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c I iMin,iMax,jMin,jMax,bi,bj,k, |
|
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c I myCurrentTime,myThid) |
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| 357 |
C-- Metric terms for curvilinear grid systems |
C-- Metric terms for curvilinear grid systems |
| 358 |
c IF (usingSphericalPolarMTerms) THEN |
c IF (usingSphericalPolarMTerms) THEN |
| 359 |
C o Spherical polar grid metric terms |
C o Spherical polar grid metric terms |
| 365 |
c ENDDO |
c ENDDO |
| 366 |
c ENDIF |
c ENDIF |
| 367 |
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| 368 |
C---- Meridional momentum equation starts here |
C---- Meridional momentum equation starts here |
| 369 |
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| 370 |
C-- Vertical flux (fVer is at upper face of "v" cell) |
C-- Vertical flux (fVer is at upper face of "v" cell) |
| 413 |
ENDDO |
ENDDO |
| 414 |
ENDIF |
ENDIF |
| 415 |
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|
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C-- Forcing term (moved to timestep.F) |
|
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c IF (momForcing) |
|
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c & CALL EXTERNAL_FORCING_V( |
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c I iMin,iMax,jMin,jMax,bi,bj,k, |
|
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c I myCurrentTime,myThid) |
|
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|
| 416 |
C-- Metric terms for curvilinear grid systems |
C-- Metric terms for curvilinear grid systems |
| 417 |
c IF (usingSphericalPolarMTerms) THEN |
c IF (usingSphericalPolarMTerms) THEN |
| 418 |
C o Spherical polar grid metric terms |
C o Spherical polar grid metric terms |
| 425 |
c ENDIF |
c ENDIF |
| 426 |
|
|
| 427 |
C-- Horizontal Coriolis terms |
C-- Horizontal Coriolis terms |
| 428 |
IF (useCoriolis .AND. .NOT.useCDscheme) THEN |
IF (useCoriolis .AND. .NOT.useCDscheme |
| 429 |
CALL MOM_VI_CORIOLIS(bi,bj,K,uFld,vFld,omega3,r_hFacZ, |
& .AND. .NOT. useAbsVorticity) THEN |
| 430 |
|
CALL MOM_VI_CORIOLIS(bi,bj,k,uFld,vFld,hFacZ,r_hFacZ, |
| 431 |
& uCf,vCf,myThid) |
& uCf,vCf,myThid) |
| 432 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 433 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 435 |
gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j) |
gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j) |
| 436 |
ENDDO |
ENDDO |
| 437 |
ENDDO |
ENDDO |
| 438 |
|
IF ( writeDiag ) THEN |
| 439 |
|
IF (snapshot_mdsio) THEN |
| 440 |
|
CALL WRITE_LOCAL_RL('fV','I10',1,uCf,bi,bj,k,myIter,myThid) |
| 441 |
|
CALL WRITE_LOCAL_RL('fU','I10',1,vCf,bi,bj,k,myIter,myThid) |
| 442 |
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ENDIF |
| 443 |
|
#ifdef ALLOW_MNC |
| 444 |
|
IF (useMNC .AND. snapshot_mnc) THEN |
| 445 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'fV', uCf, |
| 446 |
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& offsets, myThid) |
| 447 |
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CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'fU', vCf, |
| 448 |
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& offsets, myThid) |
| 449 |
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ENDIF |
| 450 |
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#endif /* ALLOW_MNC */ |
| 451 |
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ENDIF |
| 452 |
ENDIF |
ENDIF |
| 453 |
|
|
| 454 |
IF (momAdvection) THEN |
IF (momAdvection) THEN |
| 455 |
C-- Horizontal advection of relative vorticity |
C-- Horizontal advection of relative vorticity |
| 456 |
c CALL MOM_VI_U_CORIOLIS(bi,bj,K,vFld,omega3,r_hFacZ,uCf,myThid) |
IF (useAbsVorticity) THEN |
| 457 |
CALL MOM_VI_U_CORIOLIS(bi,bj,K,vFld,vort3,r_hFacZ,uCf,myThid) |
CALL MOM_VI_U_CORIOLIS(bi,bj,K,vFld,omega3,hFacZ,r_hFacZ, |
| 458 |
|
& uCf,myThid) |
| 459 |
|
ELSE |
| 460 |
|
CALL MOM_VI_U_CORIOLIS(bi,bj,k,vFld,vort3,hFacZ,r_hFacZ, |
| 461 |
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& uCf,myThid) |
| 462 |
|
ENDIF |
| 463 |
c CALL MOM_VI_U_CORIOLIS_C4(bi,bj,K,vFld,vort3,r_hFacZ,uCf,myThid) |
c CALL MOM_VI_U_CORIOLIS_C4(bi,bj,K,vFld,vort3,r_hFacZ,uCf,myThid) |
| 464 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 465 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 466 |
gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j) |
gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j) |
| 467 |
ENDDO |
ENDDO |
| 468 |
ENDDO |
ENDDO |
| 469 |
c CALL MOM_VI_V_CORIOLIS(bi,bj,K,uFld,omega3,r_hFacZ,vCf,myThid) |
IF (useAbsVorticity) THEN |
| 470 |
CALL MOM_VI_V_CORIOLIS(bi,bj,K,uFld,vort3,r_hFacZ,vCf,myThid) |
CALL MOM_VI_V_CORIOLIS(bi,bj,K,uFld,omega3,hFacZ,r_hFacZ, |
| 471 |
|
& vCf,myThid) |
| 472 |
|
ELSE |
| 473 |
|
CALL MOM_VI_V_CORIOLIS(bi,bj,k,uFld,vort3,hFacZ,r_hFacZ, |
| 474 |
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& vCf,myThid) |
| 475 |
|
ENDIF |
| 476 |
c CALL MOM_VI_V_CORIOLIS_C4(bi,bj,K,uFld,vort3,r_hFacZ,vCf,myThid) |
c CALL MOM_VI_V_CORIOLIS_C4(bi,bj,K,uFld,vort3,r_hFacZ,vCf,myThid) |
| 477 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 478 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 480 |
ENDDO |
ENDDO |
| 481 |
ENDDO |
ENDDO |
| 482 |
|
|
| 483 |
|
IF ( writeDiag ) THEN |
| 484 |
|
IF (snapshot_mdsio) THEN |
| 485 |
|
CALL WRITE_LOCAL_RL('zV','I10',1,uCf,bi,bj,k,myIter,myThid) |
| 486 |
|
CALL WRITE_LOCAL_RL('zU','I10',1,vCf,bi,bj,k,myIter,myThid) |
| 487 |
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ENDIF |
| 488 |
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#ifdef ALLOW_MNC |
| 489 |
|
IF (useMNC .AND. snapshot_mnc) THEN |
| 490 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'zV', uCf, |
| 491 |
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& offsets, myThid) |
| 492 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'zU', vCf, |
| 493 |
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& offsets, myThid) |
| 494 |
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ENDIF |
| 495 |
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#endif /* ALLOW_MNC */ |
| 496 |
|
ENDIF |
| 497 |
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|
| 498 |
|
#ifdef ALLOW_TIMEAVE |
| 499 |
|
#ifndef HRCUBE |
| 500 |
|
IF (taveFreq.GT.0.) THEN |
| 501 |
|
CALL TIMEAVE_CUMUL_1K1T(uZetatave,vCf,deltaTClock, |
| 502 |
|
& Nr, k, bi, bj, myThid) |
| 503 |
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CALL TIMEAVE_CUMUL_1K1T(vZetatave,uCf,deltaTClock, |
| 504 |
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& Nr, k, bi, bj, myThid) |
| 505 |
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ENDIF |
| 506 |
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#endif /* ndef HRCUBE */ |
| 507 |
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#endif /* ALLOW_TIMEAVE */ |
| 508 |
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|
| 509 |
C-- Vertical shear terms (-w*du/dr & -w*dv/dr) |
C-- Vertical shear terms (-w*du/dr & -w*dv/dr) |
| 510 |
CALL MOM_VI_U_VERTSHEAR(bi,bj,K,uVel,wVel,uCf,myThid) |
IF ( .NOT. momImplVertAdv ) THEN |
| 511 |
DO j=jMin,jMax |
CALL MOM_VI_U_VERTSHEAR(bi,bj,K,uVel,wVel,uCf,myThid) |
| 512 |
DO i=iMin,iMax |
DO j=jMin,jMax |
| 513 |
gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j) |
DO i=iMin,iMax |
| 514 |
|
gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j) |
| 515 |
|
ENDDO |
| 516 |
|
ENDDO |
| 517 |
|
CALL MOM_VI_V_VERTSHEAR(bi,bj,K,vVel,wVel,vCf,myThid) |
| 518 |
|
DO j=jMin,jMax |
| 519 |
|
DO i=iMin,iMax |
| 520 |
|
gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j) |
| 521 |
|
ENDDO |
| 522 |
ENDDO |
ENDDO |
| 523 |
ENDDO |
ENDIF |
|
CALL MOM_VI_V_VERTSHEAR(bi,bj,K,vVel,wVel,vCf,myThid) |
|
|
DO j=jMin,jMax |
|
|
DO i=iMin,iMax |
|
|
gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j) |
|
|
ENDDO |
|
|
ENDDO |
|
| 524 |
|
|
| 525 |
C-- Bernoulli term |
C-- Bernoulli term |
| 526 |
CALL MOM_VI_U_GRAD_KE(bi,bj,K,KE,uCf,myThid) |
CALL MOM_VI_U_GRAD_KE(bi,bj,K,KE,uCf,myThid) |
| 535 |
gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j) |
gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j) |
| 536 |
ENDDO |
ENDDO |
| 537 |
ENDDO |
ENDDO |
| 538 |
|
IF ( writeDiag ) THEN |
| 539 |
|
IF (snapshot_mdsio) THEN |
| 540 |
|
CALL WRITE_LOCAL_RL('KEx','I10',1,uCf,bi,bj,k,myIter,myThid) |
| 541 |
|
CALL WRITE_LOCAL_RL('KEy','I10',1,vCf,bi,bj,k,myIter,myThid) |
| 542 |
|
ENDIF |
| 543 |
|
#ifdef ALLOW_MNC |
| 544 |
|
IF (useMNC .AND. snapshot_mnc) THEN |
| 545 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'KEx', uCf, |
| 546 |
|
& offsets, myThid) |
| 547 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'KEy', vCf, |
| 548 |
|
& offsets, myThid) |
| 549 |
|
ENDIF |
| 550 |
|
#endif /* ALLOW_MNC */ |
| 551 |
|
ENDIF |
| 552 |
|
|
| 553 |
C-- end if momAdvection |
C-- end if momAdvection |
| 554 |
ENDIF |
ENDIF |
| 555 |
|
|
| 561 |
ENDDO |
ENDDO |
| 562 |
ENDDO |
ENDDO |
| 563 |
|
|
| 564 |
|
#ifdef ALLOW_DEBUG |
| 565 |
|
IF ( debugLevel .GE. debLevB |
| 566 |
|
& .AND. k.EQ.4 .AND. myIter.EQ.nIter0 |
| 567 |
|
& .AND. nPx.EQ.1 .AND. nPy.EQ.1 |
| 568 |
|
& .AND. useCubedSphereExchange ) THEN |
| 569 |
|
CALL DEBUG_CS_CORNER_UV( ' uDiss,vDiss from MOM_VECINV', |
| 570 |
|
& uDiss,vDiss, k, standardMessageUnit,bi,bj,myThid ) |
| 571 |
|
ENDIF |
| 572 |
|
#endif /* ALLOW_DEBUG */ |
| 573 |
|
|
| 574 |
IF ( |
IF ( writeDiag ) THEN |
| 575 |
& DIFFERENT_MULTIPLE(diagFreq,myCurrentTime, |
IF (snapshot_mdsio) THEN |
| 576 |
& myCurrentTime-deltaTClock) |
CALL WRITE_LOCAL_RL('Ds','I10',1,strain,bi,bj,k,myIter,myThid) |
| 577 |
& ) THEN |
CALL WRITE_LOCAL_RL('Dt','I10',1,tension,bi,bj,k,myIter, |
| 578 |
CALL WRITE_LOCAL_RL('Ds','I10',1,strain,bi,bj,k,myIter,myThid) |
& myThid) |
| 579 |
CALL WRITE_LOCAL_RL('Dt','I10',1,tension,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('Du','I10',1,uDiss,bi,bj,k,myIter,myThid) |
| 580 |
CALL WRITE_LOCAL_RL('fV','I10',1,uCf,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('Dv','I10',1,vDiss,bi,bj,k,myIter,myThid) |
| 581 |
CALL WRITE_LOCAL_RL('fU','I10',1,vCf,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('Z3','I10',1,vort3,bi,bj,k,myIter,myThid) |
| 582 |
CALL WRITE_LOCAL_RL('Du','I10',1,uDiss,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('W3','I10',1,omega3,bi,bj,k,myIter,myThid) |
| 583 |
CALL WRITE_LOCAL_RL('Dv','I10',1,vDiss,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('KE','I10',1,KE,bi,bj,k,myIter,myThid) |
| 584 |
CALL WRITE_LOCAL_RL('Z3','I10',1,vort3,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('D','I10',1,hdiv,bi,bj,k,myIter,myThid) |
| 585 |
c CALL WRITE_LOCAL_RL('W3','I10',1,omega3,bi,bj,k,myIter,myThid) |
ENDIF |
| 586 |
CALL WRITE_LOCAL_RL('KE','I10',1,KE,bi,bj,k,myIter,myThid) |
#ifdef ALLOW_MNC |
| 587 |
CALL WRITE_LOCAL_RL('D','I10',1,hdiv,bi,bj,k,myIter,myThid) |
IF (useMNC .AND. snapshot_mnc) THEN |
| 588 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Ds',strain, |
| 589 |
|
& offsets, myThid) |
| 590 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Dt',tension, |
| 591 |
|
& offsets, myThid) |
| 592 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Du',uDiss, |
| 593 |
|
& offsets, myThid) |
| 594 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Dv',vDiss, |
| 595 |
|
& offsets, myThid) |
| 596 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Z3',vort3, |
| 597 |
|
& offsets, myThid) |
| 598 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'W3',omega3, |
| 599 |
|
& offsets, myThid) |
| 600 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'KE',KE, |
| 601 |
|
& offsets, myThid) |
| 602 |
|
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'D', hdiv, |
| 603 |
|
& offsets, myThid) |
| 604 |
|
ENDIF |
| 605 |
|
#endif /* ALLOW_MNC */ |
| 606 |
ENDIF |
ENDIF |
| 607 |
|
|
| 608 |
|
#endif /* ALLOW_MOM_VECINV */ |
| 609 |
|
|
| 610 |
RETURN |
RETURN |
| 611 |
END |
END |
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