| 2 |
C $Name$ |
C $Name$ |
| 3 |
|
|
| 4 |
#include "MOM_VECINV_OPTIONS.h" |
#include "MOM_VECINV_OPTIONS.h" |
| 5 |
|
#ifdef ALLOW_AUTODIFF |
| 6 |
|
# include "AUTODIFF_OPTIONS.h" |
| 7 |
|
#endif |
| 8 |
|
#ifdef ALLOW_MOM_COMMON |
| 9 |
|
# include "MOM_COMMON_OPTIONS.h" |
| 10 |
|
#endif |
| 11 |
|
|
| 12 |
SUBROUTINE MOM_VECINV( |
SUBROUTINE MOM_VECINV( |
| 13 |
I bi,bj,iMin,iMax,jMin,jMax,k,kUp,kDown, |
I bi,bj,k,iMin,iMax,jMin,jMax, |
| 14 |
I dPhiHydX,dPhiHydY,KappaRU,KappaRV, |
I KappaRU, KappaRV, |
| 15 |
U fVerU, fVerV, |
I fVerUkm, fVerVkm, |
| 16 |
|
O fVerUkp, fVerVkp, |
| 17 |
O guDiss, gvDiss, |
O guDiss, gvDiss, |
| 18 |
I myTime, myIter, myThid) |
I myTime, myIter, myThid ) |
| 19 |
C /==========================================================\ |
C *==========================================================* |
| 20 |
C | S/R MOM_VECINV | |
C | S/R MOM_VECINV | |
| 21 |
C | o Form the right hand-side of the momentum equation. | |
C | o Form the right hand-side of the momentum equation. | |
| 22 |
C |==========================================================| |
C *==========================================================* |
| 23 |
C | Terms are evaluated one layer at a time working from | |
C | Terms are evaluated one layer at a time working from | |
| 24 |
C | the bottom to the top. The vertically integrated | |
C | the bottom to the top. The vertically integrated | |
| 25 |
C | barotropic flow tendency term is evluated by summing the | |
C | barotropic flow tendency term is evluated by summing the | |
| 30 |
C | form produces a diffusive flux that does not scale with | |
C | form produces a diffusive flux that does not scale with | |
| 31 |
C | open-area. Need to do something to solidfy this and to | |
C | open-area. Need to do something to solidfy this and to | |
| 32 |
C | deal "properly" with thin walls. | |
C | deal "properly" with thin walls. | |
| 33 |
C \==========================================================/ |
C *==========================================================* |
| 34 |
IMPLICIT NONE |
IMPLICIT NONE |
| 35 |
|
|
| 36 |
C == Global variables == |
C == Global variables == |
| 37 |
#include "SIZE.h" |
#include "SIZE.h" |
|
#include "DYNVARS.h" |
|
| 38 |
#include "EEPARAMS.h" |
#include "EEPARAMS.h" |
| 39 |
#include "PARAMS.h" |
#include "PARAMS.h" |
|
#ifdef ALLOW_MNC |
|
|
#include "MNC_PARAMS.h" |
|
|
#endif |
|
| 40 |
#include "GRID.h" |
#include "GRID.h" |
| 41 |
|
#include "SURFACE.h" |
| 42 |
|
#include "DYNVARS.h" |
| 43 |
|
#ifdef ALLOW_MOM_COMMON |
| 44 |
|
# include "MOM_VISC.h" |
| 45 |
|
#endif |
| 46 |
#ifdef ALLOW_TIMEAVE |
#ifdef ALLOW_TIMEAVE |
| 47 |
#include "TIMEAVE_STATV.h" |
# include "TIMEAVE_STATV.h" |
| 48 |
|
#endif |
| 49 |
|
#ifdef ALLOW_MNC |
| 50 |
|
# include "MNC_PARAMS.h" |
| 51 |
|
#endif |
| 52 |
|
#ifdef ALLOW_AUTODIFF_TAMC |
| 53 |
|
# include "tamc.h" |
| 54 |
|
# include "tamc_keys.h" |
| 55 |
#endif |
#endif |
| 56 |
|
|
| 57 |
C == Routine arguments == |
C == Routine arguments == |
| 58 |
C fVerU :: Flux of momentum in the vertical direction, out of the upper |
C bi,bj :: current tile indices |
| 59 |
C fVerV :: face of a cell K ( flux into the cell above ). |
C k :: current vertical level |
| 60 |
C dPhiHydX,Y :: Gradient (X & Y dir.) of Hydrostatic Potential |
C iMin,iMax,jMin,jMax :: loop ranges |
| 61 |
C guDiss :: dissipation tendency (all explicit terms), u component |
C fVerU :: Flux of momentum in the vertical direction, out of the upper |
| 62 |
C gvDiss :: dissipation tendency (all explicit terms), v component |
C fVerV :: face of a cell K ( flux into the cell above ). |
| 63 |
C bi, bj, iMin, iMax, jMin, jMax - Range of points for which calculation |
C fVerUkm :: vertical viscous flux of U, interface above (k-1/2) |
| 64 |
C results will be set. |
C fVerVkm :: vertical viscous flux of V, interface above (k-1/2) |
| 65 |
C kUp, kDown - Index for upper and lower layers. |
C fVerUkp :: vertical viscous flux of U, interface below (k+1/2) |
| 66 |
C myThid - Instance number for this innvocation of CALC_MOM_RHS |
C fVerVkp :: vertical viscous flux of V, interface below (k+1/2) |
| 67 |
_RL dPhiHydX(1-Olx:sNx+Olx,1-Oly:sNy+Oly) |
|
| 68 |
_RL dPhiHydY(1-Olx:sNx+Olx,1-Oly:sNy+Oly) |
C guDiss :: dissipation tendency (all explicit terms), u component |
| 69 |
|
C gvDiss :: dissipation tendency (all explicit terms), v component |
| 70 |
|
C myTime :: current time |
| 71 |
|
C myIter :: current time-step number |
| 72 |
|
C myThid :: my Thread Id number |
| 73 |
|
INTEGER bi,bj,k |
| 74 |
|
INTEGER iMin,iMax,jMin,jMax |
| 75 |
_RL KappaRU(1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr) |
_RL KappaRU(1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr) |
| 76 |
_RL KappaRV(1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr) |
_RL KappaRV(1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr) |
| 77 |
_RL fVerU(1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
_RL fVerUkm(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 78 |
_RL fVerV(1-OLx:sNx+OLx,1-OLy:sNy+OLy,2) |
_RL fVerVkm(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 79 |
|
_RL fVerUkp(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 80 |
|
_RL fVerVkp(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 81 |
_RL guDiss(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL guDiss(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 82 |
_RL gvDiss(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL gvDiss(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
|
INTEGER kUp,kDown |
|
| 83 |
_RL myTime |
_RL myTime |
| 84 |
INTEGER myIter |
INTEGER myIter |
| 85 |
INTEGER myThid |
INTEGER myThid |
|
INTEGER bi,bj,iMin,iMax,jMin,jMax |
|
| 86 |
|
|
| 87 |
#ifdef ALLOW_MOM_VECINV |
#ifdef ALLOW_MOM_VECINV |
| 88 |
|
|
| 91 |
EXTERNAL DIFFERENT_MULTIPLE |
EXTERNAL DIFFERENT_MULTIPLE |
| 92 |
|
|
| 93 |
C == Local variables == |
C == Local variables == |
| 94 |
|
C strainBC :: same as strain but account for no-slip BC |
| 95 |
|
C vort3BC :: same as vort3 but account for no-slip BC |
| 96 |
_RL vF (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL vF (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 97 |
_RL vrF (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL vrF(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 98 |
_RL uCf (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL uCf(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 99 |
_RL vCf (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL vCf(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 100 |
c _RL mT (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RS hFacZ (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 101 |
_RL del2u(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RS h0FacZ (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 102 |
_RL del2v(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RS r_hFacZ (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 103 |
_RL tension(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL uFld (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 104 |
_RL strain(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL vFld (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 105 |
_RS hFacZ(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL del2u (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 106 |
_RS r_hFacZ(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL del2v (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 107 |
_RL uFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL dStar (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 108 |
_RL vFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL zStar (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 109 |
_RL dStar(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL tension (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 110 |
_RL zStar(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL strain (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 111 |
C I,J,K - Loop counters |
_RL strainBC(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 112 |
INTEGER i,j,k |
_RL KE (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 113 |
C xxxFac - On-off tracer parameters used for switching terms off. |
_RL omega3 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 114 |
|
_RL vort3 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 115 |
|
_RL vort3BC (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 116 |
|
_RL hDiv (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 117 |
|
_RL viscAh_Z(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 118 |
|
_RL viscAh_D(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 119 |
|
_RL viscA4_Z(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 120 |
|
_RL viscA4_D(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
| 121 |
|
C i,j :: Loop counters |
| 122 |
|
INTEGER i,j |
| 123 |
|
C xxxFac :: On-off tracer parameters used for switching terms off. |
| 124 |
_RL ArDudrFac |
_RL ArDudrFac |
|
_RL phxFac |
|
|
c _RL mtFacU |
|
| 125 |
_RL ArDvdrFac |
_RL ArDvdrFac |
| 126 |
_RL phyFac |
_RL sideMaskFac |
|
c _RL mtFacV |
|
| 127 |
LOGICAL bottomDragTerms |
LOGICAL bottomDragTerms |
| 128 |
LOGICAL writeDiag |
LOGICAL writeDiag |
| 129 |
_RL KE(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
#ifdef ALLOW_AUTODIFF_TAMC |
| 130 |
_RL omega3(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
INTEGER imomkey |
| 131 |
_RL vort3(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
#endif |
|
_RL hDiv(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
|
| 132 |
|
|
| 133 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
| 134 |
INTEGER offsets(9) |
INTEGER offsets(9) |
| 135 |
|
CHARACTER*(1) pf |
| 136 |
#endif |
#endif |
| 137 |
|
|
| 138 |
#ifdef ALLOW_AUTODIFF_TAMC |
#ifdef ALLOW_AUTODIFF |
| 139 |
C-- only the kDown part of fverU/V is set in this subroutine |
C-- only the kDown part of fverU/V is set in this subroutine |
| 140 |
C-- the kUp is still required |
C-- the kUp is still required |
| 141 |
C-- In the case of mom_fluxform Kup is set as well |
C-- In the case of mom_fluxform Kup is set as well |
| 142 |
C-- (at least in part) |
C-- (at least in part) |
| 143 |
fVerU(1,1,kUp) = fVerU(1,1,kUp) |
fVerUkm(1,1) = fVerUkm(1,1) |
| 144 |
fVerV(1,1,kUp) = fVerV(1,1,kUp) |
fVerVkm(1,1) = fVerVkm(1,1) |
| 145 |
#endif |
#endif |
| 146 |
|
|
| 147 |
writeDiag = DIFFERENT_MULTIPLE(diagFreq, myTime, |
#ifdef ALLOW_AUTODIFF_TAMC |
| 148 |
& myTime-deltaTClock) |
act0 = k - 1 |
| 149 |
|
max0 = Nr |
| 150 |
|
act1 = bi - myBxLo(myThid) |
| 151 |
|
max1 = myBxHi(myThid) - myBxLo(myThid) + 1 |
| 152 |
|
act2 = bj - myByLo(myThid) |
| 153 |
|
max2 = myByHi(myThid) - myByLo(myThid) + 1 |
| 154 |
|
act3 = myThid - 1 |
| 155 |
|
max3 = nTx*nTy |
| 156 |
|
act4 = ikey_dynamics - 1 |
| 157 |
|
imomkey = (act0 + 1) |
| 158 |
|
& + act1*max0 |
| 159 |
|
& + act2*max0*max1 |
| 160 |
|
& + act3*max0*max1*max2 |
| 161 |
|
& + act4*max0*max1*max2*max3 |
| 162 |
|
#endif /* ALLOW_AUTODIFF_TAMC */ |
| 163 |
|
|
| 164 |
|
writeDiag = DIFFERENT_MULTIPLE(diagFreq, myTime, deltaTClock) |
| 165 |
|
|
| 166 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
| 167 |
IF (useMNC .AND. snapshot_mnc .AND. writeDiag) THEN |
IF (useMNC .AND. snapshot_mnc .AND. writeDiag) THEN |
| 168 |
|
IF ( writeBinaryPrec .EQ. precFloat64 ) THEN |
| 169 |
|
pf(1:1) = 'D' |
| 170 |
|
ELSE |
| 171 |
|
pf(1:1) = 'R' |
| 172 |
|
ENDIF |
| 173 |
IF ((bi .EQ. 1).AND.(bj .EQ. 1).AND.(k .EQ. 1)) THEN |
IF ((bi .EQ. 1).AND.(bj .EQ. 1).AND.(k .EQ. 1)) THEN |
| 174 |
CALL MNC_CW_SET_UDIM('mom_vi', -1, myThid) |
CALL MNC_CW_SET_UDIM('mom_vi', -1, myThid) |
| 175 |
CALL MNC_CW_I_W_S('I','mom_vi',0,0,'iter',myIter,myThid) |
CALL MNC_CW_RL_W_S('D','mom_vi',0,0,'T',myTime,myThid) |
| 176 |
CALL MNC_CW_SET_UDIM('mom_vi', 0, myThid) |
CALL MNC_CW_SET_UDIM('mom_vi', 0, myThid) |
| 177 |
|
CALL MNC_CW_I_W_S('I','mom_vi',0,0,'iter',myIter,myThid) |
| 178 |
ENDIF |
ENDIF |
| 179 |
DO i = 1,9 |
DO i = 1,9 |
| 180 |
offsets(i) = 0 |
offsets(i) = 0 |
| 181 |
ENDDO |
ENDDO |
| 182 |
offsets(3) = k |
offsets(3) = k |
| 183 |
C write(*,*) 'offsets = ',(offsets(i),i=1,9) |
c write(*,*) 'offsets = ',(offsets(i),i=1,9) |
| 184 |
ENDIF |
ENDIF |
| 185 |
#endif /* ALLOW_MNC */ |
#endif /* ALLOW_MNC */ |
| 186 |
|
|
| 187 |
C Initialise intermediate terms |
C-- Initialise intermediate terms |
| 188 |
DO J=1-OLy,sNy+OLy |
DO j=1-OLy,sNy+OLy |
| 189 |
DO I=1-OLx,sNx+OLx |
DO i=1-OLx,sNx+OLx |
| 190 |
vF(i,j) = 0. |
vF(i,j) = 0. |
| 191 |
vrF(i,j) = 0. |
vrF(i,j) = 0. |
| 192 |
uCf(i,j) = 0. |
uCf(i,j) = 0. |
| 193 |
vCf(i,j) = 0. |
vCf(i,j) = 0. |
|
c mT(i,j) = 0. |
|
| 194 |
del2u(i,j) = 0. |
del2u(i,j) = 0. |
| 195 |
del2v(i,j) = 0. |
del2v(i,j) = 0. |
| 196 |
dStar(i,j) = 0. |
dStar(i,j) = 0. |
| 199 |
gvDiss(i,j)= 0. |
gvDiss(i,j)= 0. |
| 200 |
vort3(i,j) = 0. |
vort3(i,j) = 0. |
| 201 |
omega3(i,j)= 0. |
omega3(i,j)= 0. |
| 202 |
ke(i,j) = 0. |
KE(i,j) = 0. |
| 203 |
#ifdef ALLOW_AUTODIFF_TAMC |
C- need to initialise hDiv for MOM_VI_DEL2UV(call FILL_CS_CORNER_TR_RL) |
| 204 |
|
hDiv(i,j) = 0. |
| 205 |
|
c viscAh_Z(i,j) = 0. |
| 206 |
|
c viscAh_D(i,j) = 0. |
| 207 |
|
c viscA4_Z(i,j) = 0. |
| 208 |
|
c viscA4_D(i,j) = 0. |
| 209 |
strain(i,j) = 0. _d 0 |
strain(i,j) = 0. _d 0 |
| 210 |
|
strainBC(i,j)= 0. _d 0 |
| 211 |
tension(i,j) = 0. _d 0 |
tension(i,j) = 0. _d 0 |
| 212 |
|
#ifdef ALLOW_AUTODIFF |
| 213 |
|
hFacZ(i,j) = 0. _d 0 |
| 214 |
#endif |
#endif |
| 215 |
ENDDO |
ENDDO |
| 216 |
ENDDO |
ENDDO |
| 218 |
C-- Term by term tracer parmeters |
C-- Term by term tracer parmeters |
| 219 |
C o U momentum equation |
C o U momentum equation |
| 220 |
ArDudrFac = vfFacMom*1. |
ArDudrFac = vfFacMom*1. |
|
c mTFacU = mtFacMom*1. |
|
|
phxFac = pfFacMom*1. |
|
| 221 |
C o V momentum equation |
C o V momentum equation |
| 222 |
ArDvdrFac = vfFacMom*1. |
ArDvdrFac = vfFacMom*1. |
| 223 |
c mTFacV = mtFacMom*1. |
|
| 224 |
phyFac = pfFacMom*1. |
C note: using standard stencil (no mask) results in under-estimating |
| 225 |
|
C vorticity at a no-slip boundary by a factor of 2 = sideDragFactor |
| 226 |
|
IF ( no_slip_sides ) THEN |
| 227 |
|
sideMaskFac = sideDragFactor |
| 228 |
|
ELSE |
| 229 |
|
sideMaskFac = 0. _d 0 |
| 230 |
|
ENDIF |
| 231 |
|
|
| 232 |
IF ( no_slip_bottom |
IF ( no_slip_bottom |
| 233 |
& .OR. bottomDragQuadratic.NE.0. |
& .OR. bottomDragQuadratic.NE.0. |
| 237 |
bottomDragTerms=.FALSE. |
bottomDragTerms=.FALSE. |
| 238 |
ENDIF |
ENDIF |
| 239 |
|
|
|
C-- with stagger time stepping, grad Phi_Hyp is directly incoporated in TIMESTEP |
|
|
IF (staggerTimeStep) THEN |
|
|
phxFac = 0. |
|
|
phyFac = 0. |
|
|
ENDIF |
|
|
|
|
| 240 |
C-- Calculate open water fraction at vorticity points |
C-- Calculate open water fraction at vorticity points |
| 241 |
CALL MOM_CALC_HFACZ(bi,bj,k,hFacZ,r_hFacZ,myThid) |
CALL MOM_CALC_HFACZ(bi,bj,k,hFacZ,r_hFacZ,myThid) |
| 242 |
|
|
| 252 |
C use the same maskZ (and hFacZ) => needs 2 call(s) |
C use the same maskZ (and hFacZ) => needs 2 call(s) |
| 253 |
c CALL MOM_VI_HFACZ_DISS(bi,bj,k,hFacZ,r_hFacZ,myThid) |
c CALL MOM_VI_HFACZ_DISS(bi,bj,k,hFacZ,r_hFacZ,myThid) |
| 254 |
|
|
| 255 |
CALL MOM_CALC_KE(bi,bj,k,2,uFld,vFld,KE,myThid) |
CALL MOM_CALC_KE(bi,bj,k,selectKEscheme,uFld,vFld,KE,myThid) |
|
|
|
|
CALL MOM_CALC_HDIV(bi,bj,k,2,uFld,vFld,hDiv,myThid) |
|
| 256 |
|
|
| 257 |
CALL MOM_CALC_RELVORT3(bi,bj,k,uFld,vFld,hFacZ,vort3,myThid) |
CALL MOM_CALC_RELVORT3(bi,bj,k,uFld,vFld,hFacZ,vort3,myThid) |
| 258 |
|
|
| 259 |
IF (useAbsVorticity) |
C- mask vort3 and account for no-slip / free-slip BC in vort3BC: |
| 260 |
& CALL MOM_CALC_ABSVORT3(bi,bj,k,vort3,omega3,myThid) |
DO j=1-OLy,sNy+OLy |
| 261 |
|
DO i=1-OLx,sNx+OLx |
| 262 |
|
vort3BC(i,j) = vort3(i,j) |
| 263 |
|
IF ( hFacZ(i,j).EQ.zeroRS ) THEN |
| 264 |
|
vort3BC(i,j) = sideMaskFac*vort3BC(i,j) |
| 265 |
|
vort3(i,j) = 0. |
| 266 |
|
ENDIF |
| 267 |
|
ENDDO |
| 268 |
|
ENDDO |
| 269 |
|
|
| 270 |
IF (momViscosity) THEN |
IF (momViscosity) THEN |
| 271 |
|
C-- For viscous term, compute horizontal divergence, tension & strain |
| 272 |
|
C and mask relative vorticity (free-slip case): |
| 273 |
|
|
| 274 |
|
DO j=1-OLy,sNy+OLy |
| 275 |
|
DO i=1-OLx,sNx+OLx |
| 276 |
|
h0FacZ(i,j) = hFacZ(i,j) |
| 277 |
|
ENDDO |
| 278 |
|
ENDDO |
| 279 |
|
#ifdef NONLIN_FRSURF |
| 280 |
|
IF ( no_slip_sides .AND. nonlinFreeSurf.GT.0 ) THEN |
| 281 |
|
DO j=2-OLy,sNy+OLy |
| 282 |
|
DO i=2-OLx,sNx+OLx |
| 283 |
|
h0FacZ(i,j) = MIN( |
| 284 |
|
& MIN( h0FacW(i,j,k,bi,bj), h0FacW(i,j-1,k,bi,bj) ), |
| 285 |
|
& MIN( h0FacS(i,j,k,bi,bj), h0FacS(i-1,j,k,bi,bj) ) ) |
| 286 |
|
ENDDO |
| 287 |
|
ENDDO |
| 288 |
|
ENDIF |
| 289 |
|
#endif /* NONLIN_FRSURF */ |
| 290 |
|
|
| 291 |
|
CALL MOM_CALC_HDIV(bi,bj,k,2,uFld,vFld,hDiv,myThid) |
| 292 |
|
|
| 293 |
|
IF ( useVariableVisc .OR. useStrainTensionVisc ) THEN |
| 294 |
|
CALL MOM_CALC_TENSION( bi,bj,k,uFld,vFld,tension,myThid ) |
| 295 |
|
CALL MOM_CALC_STRAIN( bi,bj,k,uFld,vFld,hFacZ,strain,myThid ) |
| 296 |
|
C- mask strain and account for no-slip / free-slip BC in strainBC: |
| 297 |
|
DO j=1-OLy,sNy+OLy |
| 298 |
|
DO i=1-OLx,sNx+OLx |
| 299 |
|
strainBC(i,j) = strain(i,j) |
| 300 |
|
IF ( hFacZ(i,j).EQ.zeroRS ) THEN |
| 301 |
|
strainBC(i,j) = sideMaskFac*strainBC(i,j) |
| 302 |
|
strain(i,j) = 0. |
| 303 |
|
ENDIF |
| 304 |
|
ENDDO |
| 305 |
|
ENDDO |
| 306 |
|
ENDIF |
| 307 |
|
|
| 308 |
|
C-- Calculate Lateral Viscosities |
| 309 |
|
DO j=1-OLy,sNy+OLy |
| 310 |
|
DO i=1-OLx,sNx+OLx |
| 311 |
|
viscAh_D(i,j) = viscAhD |
| 312 |
|
viscAh_Z(i,j) = viscAhZ |
| 313 |
|
viscA4_D(i,j) = viscA4D |
| 314 |
|
viscA4_Z(i,j) = viscA4Z |
| 315 |
|
ENDDO |
| 316 |
|
ENDDO |
| 317 |
|
IF ( useVariableVisc ) THEN |
| 318 |
|
C- uses vort3BC & strainBC which account for no-slip / free-slip BC |
| 319 |
|
CALL MOM_CALC_VISC( bi, bj, k, |
| 320 |
|
O viscAh_Z, viscAh_D, viscA4_Z, viscA4_D, |
| 321 |
|
I hDiv, vort3BC, tension, strainBC, KE, hfacZ, |
| 322 |
|
I myThid ) |
| 323 |
|
ENDIF |
| 324 |
|
|
| 325 |
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 |
| 326 |
IF ( (viscA4.NE.0. .AND. no_slip_sides) |
IF (useBiharmonicVisc) THEN |
|
& .OR. viscA4D.NE.0. .OR. viscA4Z.NE.0. |
|
|
& .OR. viscA4Grid.NE.0. |
|
|
& .OR. viscC4leith.NE.0. |
|
|
& ) THEN |
|
| 327 |
CALL MOM_VI_DEL2UV(bi,bj,k,hDiv,vort3,hFacZ, |
CALL MOM_VI_DEL2UV(bi,bj,k,hDiv,vort3,hFacZ, |
| 328 |
O del2u,del2v, |
O del2u,del2v, |
| 329 |
& myThid) |
I myThid) |
| 330 |
CALL MOM_CALC_HDIV(bi,bj,k,2,del2u,del2v,dStar,myThid) |
CALL MOM_CALC_HDIV(bi,bj,k,2,del2u,del2v,dStar,myThid) |
| 331 |
CALL MOM_CALC_RELVORT3( |
CALL MOM_CALC_RELVORT3(bi,bj,k, |
| 332 |
& bi,bj,k,del2u,del2v,hFacZ,zStar,myThid) |
& del2u,del2v,hFacZ,zStar,myThid) |
|
ENDIF |
|
|
C Calculate dissipation terms for U and V equations |
|
|
C in terms of vorticity and divergence |
|
|
IF ( viscAhD.NE.0. .OR. viscAhZ.NE.0. |
|
|
& .OR. viscA4D.NE.0. .OR. viscA4Z.NE.0. |
|
|
& .OR. viscAhGrid.NE.0. .OR. viscA4Grid.NE.0. |
|
|
& .OR. viscC2leith.NE.0. .OR. viscC4leith.NE.0. |
|
|
& ) THEN |
|
|
CALL MOM_VI_HDISSIP(bi,bj,k,hDiv,vort3,hFacZ,dStar,zStar, |
|
|
O guDiss,gvDiss, |
|
|
& myThid) |
|
|
ENDIF |
|
|
C or in terms of tension and strain |
|
|
IF (viscAstrain.NE.0. .OR. viscAtension.NE.0.) THEN |
|
|
CALL MOM_CALC_TENSION(bi,bj,k,uFld,vFld, |
|
|
O tension, |
|
|
I myThid) |
|
|
CALL MOM_CALC_STRAIN(bi,bj,k,uFld,vFld,hFacZ, |
|
|
O strain, |
|
|
I myThid) |
|
|
CALL MOM_HDISSIP(bi,bj,k, |
|
|
I tension,strain,hFacZ,viscAtension,viscAstrain, |
|
|
O guDiss,gvDiss, |
|
|
I myThid) |
|
| 333 |
ENDIF |
ENDIF |
|
ENDIF |
|
| 334 |
|
|
| 335 |
C- Return to standard hfacZ (min-4) and mask vort3 accordingly: |
C--- Calculate dissipation terms for U and V equations |
|
c CALL MOM_VI_MASK_VORT3(bi,bj,k,hFacZ,r_hFacZ,vort3,myThid) |
|
| 336 |
|
|
| 337 |
C---- Zonal momentum equation starts here |
C- in terms of tension and strain |
| 338 |
|
IF (useStrainTensionVisc) THEN |
| 339 |
|
C use masked strain as if free-slip since side-drag is computed separately |
| 340 |
|
CALL MOM_HDISSIP( bi, bj, k, |
| 341 |
|
I tension, strain, hFacZ, |
| 342 |
|
I viscAh_Z, viscAh_D, viscA4_Z, viscA4_D, |
| 343 |
|
I useHarmonicVisc, useBiharmonicVisc, useVariableVisc, |
| 344 |
|
O guDiss, gvDiss, |
| 345 |
|
I myThid ) |
| 346 |
|
ELSE |
| 347 |
|
C- in terms of vorticity and divergence |
| 348 |
|
CALL MOM_VI_HDISSIP( bi, bj, k, |
| 349 |
|
I hDiv, vort3, dStar, zStar, hFacZ, |
| 350 |
|
I viscAh_Z, viscAh_D, viscA4_Z, viscA4_D, |
| 351 |
|
I useHarmonicVisc, useBiharmonicVisc, useVariableVisc, |
| 352 |
|
O guDiss, gvDiss, |
| 353 |
|
I myThid ) |
| 354 |
|
ENDIF |
| 355 |
|
|
| 356 |
C-- Vertical flux (fVer is at upper face of "u" cell) |
C--- Other dissipation terms in Zonal momentum equation |
| 357 |
|
|
| 358 |
|
C-- Vertical flux (fVer is at upper face of "u" cell) |
| 359 |
C Eddy component of vertical flux (interior component only) -> vrF |
C Eddy component of vertical flux (interior component only) -> vrF |
| 360 |
IF (momViscosity.AND..NOT.implicitViscosity) THEN |
IF ( .NOT.implicitViscosity ) THEN |
| 361 |
CALL MOM_U_RVISCFLUX(bi,bj,k,uVel,KappaRU,vrF,myThid) |
CALL MOM_U_RVISCFLUX(bi,bj,k+1,uVel,KappaRU,vrF,myThid) |
|
|
|
| 362 |
C Combine fluxes |
C Combine fluxes |
| 363 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 364 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 365 |
fVerU(i,j,kDown) = ArDudrFac*vrF(i,j) |
fVerUkp(i,j) = ArDudrFac*vrF(i,j) |
| 366 |
ENDDO |
ENDDO |
| 367 |
ENDDO |
ENDDO |
|
|
|
| 368 |
C-- Tendency is minus divergence of the fluxes |
C-- Tendency is minus divergence of the fluxes |
| 369 |
DO j=2-Oly,sNy+Oly-1 |
DO j=jMin,jMax |
| 370 |
DO i=2-Olx,sNx+Olx-1 |
DO i=iMin,iMax |
| 371 |
guDiss(i,j) = guDiss(i,j) |
guDiss(i,j) = guDiss(i,j) |
| 372 |
& -_recip_hFacW(i,j,k,bi,bj)*recip_drF(k) |
& -_recip_hFacW(i,j,k,bi,bj)*recip_drF(k) |
| 373 |
& *recip_rAw(i,j,bi,bj) |
& *recip_rAw(i,j,bi,bj) |
| 374 |
& *( |
& *( fVerUkp(i,j) - fVerUkm(i,j) )*rkSign |
|
& +fVerU(i,j,kUp)*rkFac - fVerU(i,j,kDown)*rkFac |
|
|
& ) |
|
| 375 |
ENDDO |
ENDDO |
| 376 |
ENDDO |
ENDDO |
| 377 |
ENDIF |
ENDIF |
| 378 |
|
|
| 379 |
C-- No-slip and drag BCs appear as body forces in cell abutting topography |
C-- No-slip and drag BCs appear as body forces in cell abutting topography |
| 380 |
IF (momViscosity.AND.no_slip_sides) THEN |
IF ( no_slip_sides ) THEN |
| 381 |
C- No-slip BCs impose a drag at walls... |
C- No-slip BCs impose a drag at walls... |
| 382 |
CALL MOM_U_SIDEDRAG(bi,bj,k,uFld,del2u,hFacZ,vF,myThid) |
CALL MOM_U_SIDEDRAG( bi, bj, k, |
| 383 |
|
I uFld, del2u, h0FacZ, |
| 384 |
|
I viscAh_Z, viscA4_Z, |
| 385 |
|
I useHarmonicVisc, useBiharmonicVisc, useVariableVisc, |
| 386 |
|
O vF, |
| 387 |
|
I myThid ) |
| 388 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 389 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 390 |
guDiss(i,j) = guDiss(i,j)+vF(i,j) |
guDiss(i,j) = guDiss(i,j)+vF(i,j) |
| 393 |
ENDIF |
ENDIF |
| 394 |
|
|
| 395 |
C- No-slip BCs impose a drag at bottom |
C- No-slip BCs impose a drag at bottom |
| 396 |
IF (momViscosity.AND.bottomDragTerms) THEN |
IF ( bottomDragTerms ) THEN |
| 397 |
CALL MOM_U_BOTTOMDRAG(bi,bj,k,uFld,KE,KappaRU,vF,myThid) |
CALL MOM_U_BOTTOMDRAG(bi,bj,k,uFld,KE,KappaRU,vF,myThid) |
| 398 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 399 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 401 |
ENDDO |
ENDDO |
| 402 |
ENDDO |
ENDDO |
| 403 |
ENDIF |
ENDIF |
| 404 |
|
#ifdef ALLOW_SHELFICE |
| 405 |
|
IF ( useShelfIce.AND.bottomDragTerms ) THEN |
| 406 |
|
CALL SHELFICE_U_DRAG(bi,bj,k,uFld,KE,KappaRU,vF,myThid) |
| 407 |
|
DO j=jMin,jMax |
| 408 |
|
DO i=iMin,iMax |
| 409 |
|
guDiss(i,j) = guDiss(i,j) + vF(i,j) |
| 410 |
|
ENDDO |
| 411 |
|
ENDDO |
| 412 |
|
ENDIF |
| 413 |
|
#endif /* ALLOW_SHELFICE */ |
| 414 |
|
|
| 415 |
C-- Metric terms for curvilinear grid systems |
C--- Other dissipation terms in Meridional momentum equation |
|
c IF (usingSphericalPolarMTerms) THEN |
|
|
C o Spherical polar grid metric terms |
|
|
c CALL MOM_U_METRIC_NH(bi,bj,k,uFld,wVel,mT,myThid) |
|
|
c DO j=jMin,jMax |
|
|
c DO i=iMin,iMax |
|
|
c gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+mTFacU*mT(i,j) |
|
|
c ENDDO |
|
|
c ENDDO |
|
|
c ENDIF |
|
|
|
|
|
C---- Meridional momentum equation starts here |
|
| 416 |
|
|
| 417 |
C-- Vertical flux (fVer is at upper face of "v" cell) |
C-- Vertical flux (fVer is at upper face of "v" cell) |
|
|
|
| 418 |
C Eddy component of vertical flux (interior component only) -> vrF |
C Eddy component of vertical flux (interior component only) -> vrF |
| 419 |
IF (momViscosity.AND..NOT.implicitViscosity) THEN |
IF ( .NOT.implicitViscosity ) THEN |
| 420 |
CALL MOM_V_RVISCFLUX(bi,bj,k,vVel,KappaRV,vrf,myThid) |
CALL MOM_V_RVISCFLUX(bi,bj,k+1,vVel,KappaRV,vrF,myThid) |
|
|
|
| 421 |
C Combine fluxes -> fVerV |
C Combine fluxes -> fVerV |
| 422 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 423 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 424 |
fVerV(i,j,kDown) = ArDvdrFac*vrF(i,j) |
fVerVkp(i,j) = ArDvdrFac*vrF(i,j) |
| 425 |
ENDDO |
ENDDO |
| 426 |
ENDDO |
ENDDO |
|
|
|
| 427 |
C-- Tendency is minus divergence of the fluxes |
C-- Tendency is minus divergence of the fluxes |
| 428 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 429 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 430 |
gvDiss(i,j) = gvDiss(i,j) |
gvDiss(i,j) = gvDiss(i,j) |
| 431 |
& -_recip_hFacS(i,j,k,bi,bj)*recip_drF(k) |
& -_recip_hFacS(i,j,k,bi,bj)*recip_drF(k) |
| 432 |
& *recip_rAs(i,j,bi,bj) |
& *recip_rAs(i,j,bi,bj) |
| 433 |
& *( |
& *( fVerVkp(i,j) - fVerVkm(i,j) )*rkSign |
|
& +fVerV(i,j,kUp)*rkFac - fVerV(i,j,kDown)*rkFac |
|
|
& ) |
|
| 434 |
ENDDO |
ENDDO |
| 435 |
ENDDO |
ENDDO |
| 436 |
ENDIF |
ENDIF |
| 437 |
|
|
| 438 |
C-- No-slip and drag BCs appear as body forces in cell abutting topography |
C-- No-slip and drag BCs appear as body forces in cell abutting topography |
| 439 |
IF (momViscosity.AND.no_slip_sides) THEN |
IF ( no_slip_sides ) THEN |
| 440 |
C- No-slip BCs impose a drag at walls... |
C- No-slip BCs impose a drag at walls... |
| 441 |
CALL MOM_V_SIDEDRAG(bi,bj,k,vFld,del2v,hFacZ,vF,myThid) |
CALL MOM_V_SIDEDRAG( bi, bj, k, |
| 442 |
|
I vFld, del2v, h0FacZ, |
| 443 |
|
I viscAh_Z, viscA4_Z, |
| 444 |
|
I useHarmonicVisc, useBiharmonicVisc, useVariableVisc, |
| 445 |
|
O vF, |
| 446 |
|
I myThid ) |
| 447 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 448 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 449 |
gvDiss(i,j) = gvDiss(i,j)+vF(i,j) |
gvDiss(i,j) = gvDiss(i,j)+vF(i,j) |
| 450 |
ENDDO |
ENDDO |
| 451 |
ENDDO |
ENDDO |
| 452 |
ENDIF |
ENDIF |
| 453 |
|
|
| 454 |
C- No-slip BCs impose a drag at bottom |
C- No-slip BCs impose a drag at bottom |
| 455 |
IF (momViscosity.AND.bottomDragTerms) THEN |
IF ( bottomDragTerms ) THEN |
| 456 |
CALL MOM_V_BOTTOMDRAG(bi,bj,k,vFld,KE,KappaRV,vF,myThid) |
CALL MOM_V_BOTTOMDRAG(bi,bj,k,vFld,KE,KappaRV,vF,myThid) |
| 457 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 458 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 460 |
ENDDO |
ENDDO |
| 461 |
ENDDO |
ENDDO |
| 462 |
ENDIF |
ENDIF |
| 463 |
|
#ifdef ALLOW_SHELFICE |
| 464 |
|
IF (useShelfIce.AND.bottomDragTerms ) THEN |
| 465 |
|
CALL SHELFICE_V_DRAG(bi,bj,k,vFld,KE,KappaRV,vF,myThid) |
| 466 |
|
DO j=jMin,jMax |
| 467 |
|
DO i=iMin,iMax |
| 468 |
|
gvDiss(i,j) = gvDiss(i,j) + vF(i,j) |
| 469 |
|
ENDDO |
| 470 |
|
ENDDO |
| 471 |
|
ENDIF |
| 472 |
|
#endif /* ALLOW_SHELFICE */ |
| 473 |
|
|
| 474 |
C-- Metric terms for curvilinear grid systems |
C-- if (momViscosity) end of block. |
| 475 |
c IF (usingSphericalPolarMTerms) THEN |
ENDIF |
| 476 |
C o Spherical polar grid metric terms |
|
| 477 |
c CALL MOM_V_METRIC_NH(bi,bj,k,vFld,wVel,mT,myThid) |
C- Return to standard hfacZ (min-4) and mask vort3 accordingly: |
| 478 |
c DO j=jMin,jMax |
c CALL MOM_VI_MASK_VORT3(bi,bj,k,hFacZ,r_hFacZ,vort3,myThid) |
| 479 |
c DO i=iMin,iMax |
|
| 480 |
c gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+mTFacV*mT(i,j) |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
| 481 |
c ENDDO |
|
| 482 |
c ENDDO |
C--- Prepare for Advection & Coriolis terms: |
| 483 |
c ENDIF |
C- calculate absolute vorticity |
| 484 |
|
IF (useAbsVorticity) |
| 485 |
|
& CALL MOM_CALC_ABSVORT3(bi,bj,k,vort3,omega3,myThid) |
| 486 |
|
|
| 487 |
C-- Horizontal Coriolis terms |
C-- Horizontal Coriolis terms |
| 488 |
IF (useCoriolis .AND. .NOT.useCDscheme |
c IF (useCoriolis .AND. .NOT.useCDscheme |
| 489 |
& .AND. .NOT. useAbsVorticity) THEN |
c & .AND. .NOT. useAbsVorticity) THEN |
| 490 |
CALL MOM_VI_CORIOLIS(bi,bj,k,uFld,vFld,hFacZ,r_hFacZ, |
C- jmc: change it to keep the Coriolis terms when useAbsVorticity=T & momAdvection=F |
| 491 |
& uCf,vCf,myThid) |
IF ( useCoriolis .AND. |
| 492 |
|
& .NOT.( useCDscheme .OR. useAbsVorticity.AND.momAdvection ) |
| 493 |
|
& ) THEN |
| 494 |
|
IF (useAbsVorticity) THEN |
| 495 |
|
CALL MOM_VI_U_CORIOLIS(bi,bj,K,vFld,omega3,hFacZ,r_hFacZ, |
| 496 |
|
& uCf,myThid) |
| 497 |
|
CALL MOM_VI_V_CORIOLIS(bi,bj,K,uFld,omega3,hFacZ,r_hFacZ, |
| 498 |
|
& vCf,myThid) |
| 499 |
|
ELSE |
| 500 |
|
CALL MOM_VI_CORIOLIS(bi,bj,k,uFld,vFld,hFacZ,r_hFacZ, |
| 501 |
|
& uCf,vCf,myThid) |
| 502 |
|
ENDIF |
| 503 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 504 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 505 |
gU(i,j,k,bi,bj) = uCf(i,j) - phxFac*dPhiHydX(i,j) |
gU(i,j,k,bi,bj) = uCf(i,j) |
| 506 |
gV(i,j,k,bi,bj) = vCf(i,j) - phyFac*dPhiHydY(i,j) |
gV(i,j,k,bi,bj) = vCf(i,j) |
| 507 |
ENDDO |
ENDDO |
| 508 |
ENDDO |
ENDDO |
| 509 |
IF ( writeDiag ) THEN |
IF ( writeDiag ) THEN |
| 513 |
ENDIF |
ENDIF |
| 514 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
| 515 |
IF (useMNC .AND. snapshot_mnc) THEN |
IF (useMNC .AND. snapshot_mnc) THEN |
| 516 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'fV', uCf, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj, 'fV', uCf, |
| 517 |
& offsets, myThid) |
& offsets, myThid) |
| 518 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'fU', vCf, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj, 'fU', vCf, |
| 519 |
& offsets, myThid) |
& offsets, myThid) |
| 520 |
ENDIF |
ENDIF |
| 521 |
#endif /* ALLOW_MNC */ |
#endif /* ALLOW_MNC */ |
| 522 |
ENDIF |
ENDIF |
| 523 |
|
#ifdef ALLOW_DIAGNOSTICS |
| 524 |
|
IF ( useDiagnostics ) THEN |
| 525 |
|
CALL DIAGNOSTICS_FILL(uCf,'Um_Cori ',k,1,2,bi,bj,myThid) |
| 526 |
|
CALL DIAGNOSTICS_FILL(vCf,'Vm_Cori ',k,1,2,bi,bj,myThid) |
| 527 |
|
ENDIF |
| 528 |
|
#endif /* ALLOW_DIAGNOSTICS */ |
| 529 |
ELSE |
ELSE |
| 530 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 531 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 532 |
gU(i,j,k,bi,bj) = -phxFac*dPhiHydX(i,j) |
gU(i,j,k,bi,bj) = 0. _d 0 |
| 533 |
gV(i,j,k,bi,bj) = -phyFac*dPhiHydY(i,j) |
gV(i,j,k,bi,bj) = 0. _d 0 |
| 534 |
ENDDO |
ENDDO |
| 535 |
ENDDO |
ENDDO |
| 536 |
ENDIF |
ENDIF |
| 537 |
|
|
| 538 |
IF (momAdvection) THEN |
IF (momAdvection) THEN |
| 539 |
C-- Horizontal advection of relative vorticity |
C-- Horizontal advection of relative (or absolute) vorticity |
| 540 |
IF (useAbsVorticity) THEN |
IF ( (highOrderVorticity.OR.upwindVorticity) |
| 541 |
|
& .AND.useAbsVorticity ) THEN |
| 542 |
|
CALL MOM_VI_U_CORIOLIS_C4(bi,bj,k,vFld,omega3,r_hFacZ, |
| 543 |
|
& uCf,myThid) |
| 544 |
|
ELSEIF ( (highOrderVorticity.OR.upwindVorticity) ) THEN |
| 545 |
|
CALL MOM_VI_U_CORIOLIS_C4(bi,bj,k,vFld,vort3, r_hFacZ, |
| 546 |
|
& uCf,myThid) |
| 547 |
|
ELSEIF ( useAbsVorticity ) THEN |
| 548 |
CALL MOM_VI_U_CORIOLIS(bi,bj,K,vFld,omega3,hFacZ,r_hFacZ, |
CALL MOM_VI_U_CORIOLIS(bi,bj,K,vFld,omega3,hFacZ,r_hFacZ, |
| 549 |
& uCf,myThid) |
& uCf,myThid) |
| 550 |
ELSE |
ELSE |
| 551 |
CALL MOM_VI_U_CORIOLIS(bi,bj,k,vFld,vort3,hFacZ,r_hFacZ, |
CALL MOM_VI_U_CORIOLIS(bi,bj,k,vFld,vort3, hFacZ,r_hFacZ, |
| 552 |
& uCf,myThid) |
& uCf,myThid) |
| 553 |
ENDIF |
ENDIF |
|
c CALL MOM_VI_U_CORIOLIS_C4(bi,bj,K,vFld,vort3,r_hFacZ,uCf,myThid) |
|
| 554 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 555 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 556 |
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) |
| 557 |
ENDDO |
ENDDO |
| 558 |
ENDDO |
ENDDO |
| 559 |
IF (useAbsVorticity) THEN |
IF ( (highOrderVorticity.OR.upwindVorticity) |
| 560 |
|
& .AND.useAbsVorticity ) THEN |
| 561 |
|
CALL MOM_VI_V_CORIOLIS_C4(bi,bj,K,uFld,omega3,r_hFacZ, |
| 562 |
|
& vCf,myThid) |
| 563 |
|
ELSEIF ( (highOrderVorticity.OR.upwindVorticity) ) THEN |
| 564 |
|
CALL MOM_VI_V_CORIOLIS_C4(bi,bj,K,uFld,vort3, r_hFacZ, |
| 565 |
|
& vCf,myThid) |
| 566 |
|
ELSEIF ( useAbsVorticity ) THEN |
| 567 |
CALL MOM_VI_V_CORIOLIS(bi,bj,K,uFld,omega3,hFacZ,r_hFacZ, |
CALL MOM_VI_V_CORIOLIS(bi,bj,K,uFld,omega3,hFacZ,r_hFacZ, |
| 568 |
& vCf,myThid) |
& vCf,myThid) |
| 569 |
ELSE |
ELSE |
| 570 |
CALL MOM_VI_V_CORIOLIS(bi,bj,k,uFld,vort3,hFacZ,r_hFacZ, |
CALL MOM_VI_V_CORIOLIS(bi,bj,k,uFld,vort3, hFacZ,r_hFacZ, |
| 571 |
& vCf,myThid) |
& vCf,myThid) |
| 572 |
ENDIF |
ENDIF |
|
c CALL MOM_VI_V_CORIOLIS_C4(bi,bj,K,uFld,vort3,r_hFacZ,vCf,myThid) |
|
| 573 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 574 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 575 |
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) |
| 583 |
ENDIF |
ENDIF |
| 584 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
| 585 |
IF (useMNC .AND. snapshot_mnc) THEN |
IF (useMNC .AND. snapshot_mnc) THEN |
| 586 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'zV', uCf, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj, 'zV', uCf, |
| 587 |
& offsets, myThid) |
& offsets, myThid) |
| 588 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'zU', vCf, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj, 'zU', vCf, |
| 589 |
& offsets, myThid) |
& offsets, myThid) |
| 590 |
ENDIF |
ENDIF |
| 591 |
#endif /* ALLOW_MNC */ |
#endif /* ALLOW_MNC */ |
| 592 |
ENDIF |
ENDIF |
| 593 |
|
|
| 594 |
#ifdef ALLOW_TIMEAVE |
#ifdef ALLOW_TIMEAVE |
|
#ifndef MINIMAL_TAVE_OUTPUT |
|
| 595 |
IF (taveFreq.GT.0.) THEN |
IF (taveFreq.GT.0.) THEN |
| 596 |
CALL TIMEAVE_CUMUL_1K1T(uZetatave,vCf,deltaTClock, |
CALL TIMEAVE_CUMUL_1K1T(uZetatave,vCf,deltaTClock, |
| 597 |
& Nr, k, bi, bj, myThid) |
& Nr, k, bi, bj, myThid) |
| 598 |
CALL TIMEAVE_CUMUL_1K1T(vZetatave,uCf,deltaTClock, |
CALL TIMEAVE_CUMUL_1K1T(vZetatave,uCf,deltaTClock, |
| 599 |
& Nr, k, bi, bj, myThid) |
& Nr, k, bi, bj, myThid) |
| 600 |
ENDIF |
ENDIF |
|
#endif /* ndef MINIMAL_TAVE_OUTPUT */ |
|
| 601 |
#endif /* ALLOW_TIMEAVE */ |
#endif /* ALLOW_TIMEAVE */ |
| 602 |
|
#ifdef ALLOW_DIAGNOSTICS |
| 603 |
|
IF ( useDiagnostics ) THEN |
| 604 |
|
CALL DIAGNOSTICS_FILL(uCf,'Um_AdvZ3',k,1,2,bi,bj,myThid) |
| 605 |
|
CALL DIAGNOSTICS_FILL(vCf,'Vm_AdvZ3',k,1,2,bi,bj,myThid) |
| 606 |
|
ENDIF |
| 607 |
|
#endif /* ALLOW_DIAGNOSTICS */ |
| 608 |
|
|
| 609 |
C-- Vertical shear terms (-w*du/dr & -w*dv/dr) |
C-- Vertical shear terms (-w*du/dr & -w*dv/dr) |
| 610 |
IF ( .NOT. momImplVertAdv ) THEN |
IF ( .NOT. momImplVertAdv ) THEN |
| 620 |
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) |
| 621 |
ENDDO |
ENDDO |
| 622 |
ENDDO |
ENDDO |
| 623 |
|
#ifdef ALLOW_DIAGNOSTICS |
| 624 |
|
IF ( useDiagnostics ) THEN |
| 625 |
|
CALL DIAGNOSTICS_FILL(uCf,'Um_AdvRe',k,1,2,bi,bj,myThid) |
| 626 |
|
CALL DIAGNOSTICS_FILL(vCf,'Vm_AdvRe',k,1,2,bi,bj,myThid) |
| 627 |
|
ENDIF |
| 628 |
|
#endif /* ALLOW_DIAGNOSTICS */ |
| 629 |
ENDIF |
ENDIF |
| 630 |
|
|
| 631 |
C-- Bernoulli term |
C-- Bernoulli term |
| 648 |
ENDIF |
ENDIF |
| 649 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
| 650 |
IF (useMNC .AND. snapshot_mnc) THEN |
IF (useMNC .AND. snapshot_mnc) THEN |
| 651 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'KEx', uCf, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj, 'KEx', uCf, |
| 652 |
& offsets, myThid) |
& offsets, myThid) |
| 653 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'KEy', vCf, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj, 'KEy', vCf, |
| 654 |
& offsets, myThid) |
& offsets, myThid) |
| 655 |
ENDIF |
ENDIF |
| 656 |
#endif /* ALLOW_MNC */ |
#endif /* ALLOW_MNC */ |
| 657 |
ENDIF |
ENDIF |
| 658 |
|
|
| 659 |
C-- end if momAdvection |
C-- end if momAdvection |
| 660 |
ENDIF |
ENDIF |
| 661 |
|
|
| 662 |
|
C-- 3.D Coriolis term (horizontal momentum, Eastward component: -fprime*w) |
| 663 |
|
IF ( use3dCoriolis ) THEN |
| 664 |
|
CALL MOM_U_CORIOLIS_NH(bi,bj,k,wVel,uCf,myThid) |
| 665 |
|
DO j=jMin,jMax |
| 666 |
|
DO i=iMin,iMax |
| 667 |
|
gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j) |
| 668 |
|
ENDDO |
| 669 |
|
ENDDO |
| 670 |
|
IF ( usingCurvilinearGrid ) THEN |
| 671 |
|
C- presently, non zero angleSinC array only supported with Curvilinear-Grid |
| 672 |
|
CALL MOM_V_CORIOLIS_NH(bi,bj,k,wVel,vCf,myThid) |
| 673 |
|
DO j=jMin,jMax |
| 674 |
|
DO i=iMin,iMax |
| 675 |
|
gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j) |
| 676 |
|
ENDDO |
| 677 |
|
ENDDO |
| 678 |
|
ENDIF |
| 679 |
|
ENDIF |
| 680 |
|
|
| 681 |
|
C-- Non-Hydrostatic (spherical) metric terms |
| 682 |
|
IF ( useNHMTerms ) THEN |
| 683 |
|
CALL MOM_U_METRIC_NH(bi,bj,k,uFld,wVel,uCf,myThid) |
| 684 |
|
DO j=jMin,jMax |
| 685 |
|
DO i=iMin,iMax |
| 686 |
|
gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j) |
| 687 |
|
ENDDO |
| 688 |
|
ENDDO |
| 689 |
|
CALL MOM_V_METRIC_NH(bi,bj,k,vFld,wVel,vCf,myThid) |
| 690 |
|
DO j=jMin,jMax |
| 691 |
|
DO i=iMin,iMax |
| 692 |
|
gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j) |
| 693 |
|
ENDDO |
| 694 |
|
ENDDO |
| 695 |
|
ENDIF |
| 696 |
|
|
| 697 |
C-- Set du/dt & dv/dt on boundaries to zero |
C-- Set du/dt & dv/dt on boundaries to zero |
| 698 |
DO j=jMin,jMax |
DO j=jMin,jMax |
| 699 |
DO i=iMin,iMax |
DO i=iMin,iMax |
| 703 |
ENDDO |
ENDDO |
| 704 |
|
|
| 705 |
#ifdef ALLOW_DEBUG |
#ifdef ALLOW_DEBUG |
| 706 |
IF ( debugLevel .GE. debLevB |
IF ( debugLevel .GE. debLevC |
| 707 |
& .AND. k.EQ.4 .AND. myIter.EQ.nIter0 |
& .AND. k.EQ.4 .AND. myIter.EQ.nIter0 |
| 708 |
& .AND. nPx.EQ.1 .AND. nPy.EQ.1 |
& .AND. nPx.EQ.1 .AND. nPy.EQ.1 |
| 709 |
& .AND. useCubedSphereExchange ) THEN |
& .AND. useCubedSphereExchange ) THEN |
| 713 |
#endif /* ALLOW_DEBUG */ |
#endif /* ALLOW_DEBUG */ |
| 714 |
|
|
| 715 |
IF ( writeDiag ) THEN |
IF ( writeDiag ) THEN |
| 716 |
|
IF (useBiharmonicVisc) THEN |
| 717 |
|
CALL WRITE_LOCAL_RL( 'del2u', 'I10', 1, del2u, |
| 718 |
|
& bi,bj,k, myIter, myThid ) |
| 719 |
|
CALL WRITE_LOCAL_RL( 'del2v', 'I10', 1, del2v, |
| 720 |
|
& bi,bj,k, myIter, myThid ) |
| 721 |
|
CALL WRITE_LOCAL_RL( 'dStar', 'I10', 1, dStar, |
| 722 |
|
& bi,bj,k, myIter, myThid ) |
| 723 |
|
CALL WRITE_LOCAL_RL( 'zStar', 'I10', 1, zStar, |
| 724 |
|
& bi,bj,k, myIter, myThid ) |
| 725 |
|
ENDIF |
| 726 |
IF (snapshot_mdsio) THEN |
IF (snapshot_mdsio) THEN |
| 727 |
CALL WRITE_LOCAL_RL('Ds','I10',1,strain,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('W3','I10',1,omega3, bi,bj,k,myIter,myThid) |
| 728 |
CALL WRITE_LOCAL_RL('Dt','I10',1,tension,bi,bj,k,myIter, |
CALL WRITE_LOCAL_RL('Z3','I10',1,vort3BC,bi,bj,k,myIter,myThid) |
| 729 |
& myThid) |
CALL WRITE_LOCAL_RL('KE','I10',1,KE, bi,bj,k,myIter,myThid) |
| 730 |
CALL WRITE_LOCAL_RL('Du','I10',1,guDiss,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('D', 'I10',1,hDiv, bi,bj,k,myIter,myThid) |
| 731 |
CALL WRITE_LOCAL_RL('Dv','I10',1,gvDiss,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('Dt','I10',1,tension,bi,bj,k,myIter,myThid) |
| 732 |
CALL WRITE_LOCAL_RL('Z3','I10',1,vort3,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL( 'Ds', 'I10', 1, strainBC, |
| 733 |
CALL WRITE_LOCAL_RL('W3','I10',1,omega3,bi,bj,k,myIter,myThid) |
& bi,bj,k, myIter, myThid ) |
| 734 |
CALL WRITE_LOCAL_RL('KE','I10',1,KE,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('Du','I10',1,guDiss, bi,bj,k,myIter,myThid) |
| 735 |
CALL WRITE_LOCAL_RL('D','I10',1,hdiv,bi,bj,k,myIter,myThid) |
CALL WRITE_LOCAL_RL('Dv','I10',1,gvDiss, bi,bj,k,myIter,myThid) |
| 736 |
ENDIF |
ENDIF |
| 737 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
| 738 |
IF (useMNC .AND. snapshot_mnc) THEN |
IF (useMNC .AND. snapshot_mnc) THEN |
| 739 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Ds',strain, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj,'W3',omega3, |
| 740 |
& offsets, myThid) |
& offsets, myThid) |
| 741 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Dt',tension, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj,'Z3',vort3BC, |
| 742 |
& offsets, myThid) |
& offsets, myThid) |
| 743 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Du',guDiss, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj,'KE',KE, |
| 744 |
& offsets, myThid) |
& offsets, myThid) |
| 745 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Dv',gvDiss, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj,'D', hDiv, |
| 746 |
& offsets, myThid) |
& offsets, myThid) |
| 747 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Z3',vort3, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj,'Dt',tension, |
| 748 |
& offsets, myThid) |
& offsets, myThid) |
| 749 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'W3',omega3, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj,'Ds',strainBC, |
| 750 |
& offsets, myThid) |
& offsets, myThid) |
| 751 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'KE',KE, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj,'Du',guDiss, |
| 752 |
& offsets, myThid) |
& offsets, myThid) |
| 753 |
CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'D', hdiv, |
CALL MNC_CW_RL_W_OFFSET(pf,'mom_vi',bi,bj,'Dv',gvDiss, |
| 754 |
& offsets, myThid) |
& offsets, myThid) |
| 755 |
ENDIF |
ENDIF |
| 756 |
#endif /* ALLOW_MNC */ |
#endif /* ALLOW_MNC */ |
| 757 |
ENDIF |
ENDIF |
| 758 |
|
|
| 759 |
|
#ifdef ALLOW_DIAGNOSTICS |
| 760 |
|
IF ( useDiagnostics ) THEN |
| 761 |
|
CALL DIAGNOSTICS_FILL(vort3BC,'momVort3',k,1,2,bi,bj,myThid) |
| 762 |
|
CALL DIAGNOSTICS_FILL(KE, 'momKE ',k,1,2,bi,bj,myThid) |
| 763 |
|
IF (momViscosity) THEN |
| 764 |
|
CALL DIAGNOSTICS_FILL(hDiv, 'momHDiv ',k,1,2,bi,bj,myThid) |
| 765 |
|
ENDIF |
| 766 |
|
IF ( useVariableVisc .OR. useStrainTensionVisc ) THEN |
| 767 |
|
CALL DIAGNOSTICS_FILL(tension, 'Tension ',k,1,2,bi,bj,myThid) |
| 768 |
|
CALL DIAGNOSTICS_FILL(strainBC,'Strain ',k,1,2,bi,bj,myThid) |
| 769 |
|
ENDIF |
| 770 |
|
CALL DIAGNOSTICS_FILL(gU(1-OLx,1-OLy,k,bi,bj), |
| 771 |
|
& 'Um_Advec',k,1,2,bi,bj,myThid) |
| 772 |
|
CALL DIAGNOSTICS_FILL(gV(1-OLx,1-OLy,k,bi,bj), |
| 773 |
|
& 'Vm_Advec',k,1,2,bi,bj,myThid) |
| 774 |
|
ENDIF |
| 775 |
|
#endif /* ALLOW_DIAGNOSTICS */ |
| 776 |
|
|
| 777 |
#endif /* ALLOW_MOM_VECINV */ |
#endif /* ALLOW_MOM_VECINV */ |
| 778 |
|
|
| 779 |
RETURN |
RETURN |
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