/[MITgcm]/MITgcm/pkg/generic_advdiff/gad_dst3_adv_r.F
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Annotation of /MITgcm/pkg/generic_advdiff/gad_dst3_adv_r.F

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Revision 1.1.6.1 - (hide annotations) (download)
Wed Feb 6 15:48:08 2002 UTC (22 years, 3 months ago) by heimbach
Branch: ecco-branch
CVS Tags: icebear5, icebear4, icebear3, icebear2, ecco_c44_e19, ecco_c44_e18, ecco_c44_e17, ecco_c44_e16, ecco_ice2, ecco_ice1, ecco_c44_e22, ecco_c44_e25, ecco_c44_e23, ecco_c44_e20, ecco_c44_e21, ecco_c44_e26, ecco_c44_e27, ecco_c44_e24, ecco-branch-mod2, ecco-branch-mod3, ecco-branch-mod4, ecco-branch-mod5
Branch point for: c24_e25_ice, icebear
Changes since 1.1: +6 -6 lines 
Updating ecco-branch-mod1 to checkpoint44.
Will be tagged ecco-branch-mod2.
1 heimbach 1.1.6.1 C $Header: /u/gcmpack/MITgcm/pkg/generic_advdiff/gad_dst3_adv_r.F,v 1.2 2002/01/17 16:48:59 adcroft Exp $
2     C $Name: $
3 adcroft 1.1
4     #include "GAD_OPTIONS.h"
5    
6     SUBROUTINE GAD_DST3_ADV_R(
7     I bi_arg,bj_arg,k,dTarg,
8     I rTrans, wVel,
9     I tracer,
10     O wT,
11     I myThid )
12     C /==========================================================\
13     C | SUBROUTINE GAD_DST3_ADV_R |
14     C | o Compute Vertical advective Flux of Tracer using |
15     C | 3rd Order DST Sceheme |
16     C |==========================================================|
17     IMPLICIT NONE
18    
19     C == GLobal variables ==
20     #include "SIZE.h"
21     #include "GRID.h"
22     #include "EEPARAMS.h"
23     #include "PARAMS.h"
24     #include "GAD.h"
25    
26     C == Routine arguments ==
27     INTEGER bi_arg,bj_arg,k
28     _RL dTarg
29     _RL rTrans(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
30     _RL wVel(1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr,nSx,nSy)
31     _RL tracer(1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr,nSx,nSy)
32     _RL wT (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
33     INTEGER myThid
34    
35     C == Local variables ==
36     INTEGER i,j,kp1,km1,km2,bi,bj
37     _RL Rjm,Rj,Rjp,cfl,d0,d1
38     _RL psiP,psiM,thetaP,thetaM
39    
40     IF (.NOT. multiDimAdvection) THEN
41     C If using the standard time-stepping/advection schemes (ie. AB-II)
42     C then the data-structures are all global arrays
43     bi=bi_arg
44     bj=bj_arg
45     ELSE
46     C otherwise if using the multi-dimensional advection schemes
47     C then the data-structures are all local arrays except
48     C for maskC(...) and wVel(...)
49     bi=1
50     bj=1
51     ENDIF
52    
53     km2=MAX(1,k-2)
54     km1=MAX(1,k-1)
55     kp1=MIN(Nr,k+1)
56    
57     DO j=1-Oly,sNy+Oly
58     DO i=1-Olx,sNx+Olx
59     Rjp=(tracer(i,j,k,bi,bj)-tracer(i,j,kp1,bi,bj))
60 heimbach 1.1.6.1 & *maskC(i,j,kp1,bi_arg,bj_arg)
61 adcroft 1.1 Rj =(tracer(i,j,km1,bi,bj)-tracer(i,j,k,bi,bj))
62 heimbach 1.1.6.1 & *maskC(i,j,k,bi_arg,bj_arg)*maskC(i,j,km1,bi_arg,bj_arg)
63 adcroft 1.1 Rjm=(tracer(i,j,km2,bi,bj)-tracer(i,j,km1,bi,bj))
64 heimbach 1.1.6.1 & *maskC(i,j,km1,bi_arg,bj_arg)
65 adcroft 1.1
66 heimbach 1.1.6.1 cfl=abs(wVel(i,j,k,bi_arg,bj_arg)*dTarg*recip_drc(k))
67 adcroft 1.1 d0=(2.-cfl)*(1.-cfl)*oneSixth
68     d1=(1.-cfl*cfl)*oneSixth
69     c thetaP=0.
70     c IF (Rj.NE.0.) thetaP=Rjm/Rj
71     thetaP=Rjm/(1.D-20+Rj)
72     psiP=d0+d1*thetaP
73     c psiP=max(0.,min(min(1.,psiP),(1.-cfl)/(1.D-20+cfl)*thetaP))
74     thetaM=Rjp/(1.D-20+Rj)
75     c thetaM=0.
76     c IF (Rj.NE.0.) thetaM=Rjp/Rj
77     psiM=d0+d1*thetaM
78     c psiM=max(0.,min(min(1.,psiM),(1.-cfl)/(1.D-20+cfl)*thetaM))
79     wT(i,j)=
80     & 0.5*(rTrans(i,j)+abs(rTrans(i,j)))
81     & *( Tracer(i,j, k ,bi,bj) + psiM*Rj )
82     & +0.5*(rTrans(i,j)-abs(rTrans(i,j)))
83     & *( Tracer(i,j,km1,bi,bj) - psiP*Rj )
84    
85     ENDDO
86     ENDDO
87    
88     RETURN
89     END
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