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seaice_output.F
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seaice_output.F
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C $Header: /u/gcmpack/MITgcm/pkg/seaice/seaice_output.F,v 1.18 2017/03/24 23:51:14 jmc Exp $
C $Name: $
#include "SEAICE_OPTIONS.h"
#ifdef ALLOW_EXF
# include "EXF_OPTIONS.h"
#endif
CBOP 0
C !ROUTINE: SEAICE_OUTPUT
C !INTERFACE:
SUBROUTINE SEAICE_OUTPUT( myTime, myIter, myThid )
C !DESCRIPTION:
C *==========================================================*
C | SUBROUTINE SEAICE_OUTPUT
C | o Do SEAICE output and TimeAve averaging and output.
C *==========================================================*
C !USES:
IMPLICIT NONE
C === Global variables ===
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "FFIELDS.h"
#include "SEAICE_SIZE.h"
#include "SEAICE_PARAMS.h"
#include "SEAICE.h"
#include "SEAICE_TRACER.h"
#include "SEAICE_TAVE.h"
#ifdef ALLOW_EXF
# include "EXF_FIELDS.h"
#endif
C !INPUT PARAMETERS:
C == Routine arguments ==
C myTime :: my time in simulation ( s )
C myIter :: my Iteration number
C myThid :: my Thread Id number
_RL myTime
INTEGER myIter
INTEGER myThid
C !FUNCTIONS:
LOGICAL DIFFERENT_MULTIPLE
EXTERNAL DIFFERENT_MULTIPLE
C !LOCAL VARIABLES:
C == Local variables in common block :
C == Local variables ==
CHARACTER*(10) suff
#ifdef ALLOW_SITRACER
CHARACTER*(13) pref
INTEGER iTracer
#endif
#ifdef ALLOW_TIMEAVE
INTEGER i, j, bi, bj
#ifdef SEAICE_ITD
INTEGER k
#endif
LOGICAL dumpFiles
#endif /* ALLOW_TIMEAVE */
#ifdef ALLOW_MNC
CHARACTER*(1) pf
#endif /* ALLOW_MNC */
CEOP
IF (SEAICEwriteState) THEN
IF ( DIFFERENT_MULTIPLE(SEAICE_dumpFreq,myTime,deltaTClock)
& .OR. dumpInitAndLast.AND.( myTime.EQ.endTime .OR.
& myTime.EQ.startTime )
& ) THEN
#ifdef ALLOW_MNC
IF ( useMNC .AND. SEAICE_dump_mnc ) THEN
IF ( writeBinaryPrec .EQ. precFloat64 ) THEN
pf(1:1) = 'D'
ELSE
pf(1:1) = 'R'
ENDIF
CALL MNC_CW_SET_UDIM('sice', -1, myThid)
CALL MNC_CW_RL_W_S('D','sice',0,0,'T', myTime, myThid)
CALL MNC_CW_SET_UDIM('sice', 0, myThid)
CALL MNC_CW_I_W_S('I','sice',0,0,'iter', myIter, myThid)
CALL MNC_CW_RL_W_S('D','sice',0,0,'model_time',
& myTime,myThid)
#if ( defined(SEAICE_CGRID) && defined(SEAICE_ALLOW_EVP) )
IF ( SEAICEuseEVP ) THEN
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_sigma1',
& seaice_sigma1,myThid)
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_sigma2',
& seaice_sigma2,myThid)
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_sigma12',
& seaice_sigma12,myThid)
ENDIF
#endif /* SEAICE_CGRID and SEAICE_ALLOW_EVP */
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_UICE',uIce,myThid)
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_VICE',vIce,myThid)
IF ( .NOT.useThSIce ) THEN
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_HEFF',hEff,myThid)
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_AREA',area,myThid)
#ifdef SEAICE_ITD
c CALL MNC_CW_RL_W(pf,'sice',0,0,'si_HEFFITD',HEFFITD,myThid)
c CALL MNC_CW_RL_W(pf,'sice',0,0,'si_AREAITD',AREAITD,myThid)
#endif
ENDIF
#ifdef ALLOW_EXF
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_UWIND',uwind,myThid)
CALL MNC_CW_RL_W(pf,'sice',0,0,'si_VWIND',vwind,myThid)
#endif
CALL MNC_CW_RS_W(pf,'sice',0,0,'fu',fu,myThid)
CALL MNC_CW_RS_W(pf,'sice',0,0,'fv',fv,myThid)
CALL MNC_CW_RS_W(pf,'sice',0,0,'EmPmR',EmPmR,myThid)
CALL MNC_CW_RS_W(pf,'sice',0,0,'Qnet',Qnet,myThid)
CALL MNC_CW_RS_W(pf,'sice',0,0,'Qsw',Qsw,myThid)
ENDIF
#endif /* ALLOW_MNC */
IF (SEAICE_dump_mdsio) THEN
IF ( rwSuffixType.EQ.0 ) THEN
WRITE(suff,'(I10.10)') myIter
ELSE
CALL RW_GET_SUFFIX( suff, myTime, myIter, myThid )
ENDIF
IF ( myIter.NE.nIter0 ) THEN
#ifdef ALLOW_EXF
CALL WRITE_FLD_XY_RL('UWIND.',suff,uwind,myIter,myThid)
CALL WRITE_FLD_XY_RL('VWIND.',suff,vwind,myIter,myThid)
#endif
CALL WRITE_FLD_XY_RS('FU.',suff,fu,myIter,myThid)
CALL WRITE_FLD_XY_RS('FV.',suff,fv,myIter,myThid)
CALL WRITE_FLD_XY_RS('EmPmR.',suff,EmPmR,myIter,myThid)
CALL WRITE_FLD_XY_RS('Qnet.',suff,Qnet,myIter,myThid)
CALL WRITE_FLD_XY_RS('Qsw.',suff,Qsw,myIter,myThid)
ENDIF
CALL WRITE_FLD_XY_RL( 'UICE.',suff,uIce,myIter,myThid)
CALL WRITE_FLD_XY_RL( 'VICE.',suff,vIce,myIter,myThid)
IF ( .NOT.useThSIce ) THEN
CALL WRITE_FLD_XY_RL( 'HEFF.',suff,hEff,myIter,myThid)
CALL WRITE_FLD_XY_RL( 'AREA.',suff,area,myIter,myThid)
CALL WRITE_FLD_XY_RL( 'HSNOW.',suff,HSNOW,myIter,myThid)
#ifdef SEAICE_ITD
CALL WRITE_FLD_3D_RL( 'HEFFITD.', suff, nITD, HEFFITD,
& myIter, myThid )
CALL WRITE_FLD_3D_RL( 'AREAITD.', suff, nITD, AREAITD,
& myIter, myThid )
CALL WRITE_FLD_3D_RL('HSNOWITD.', suff, nITD, HSNOWITD,
& myIter, myThid )
#endif
#ifdef SEAICE_VARIABLE_SALINITY
CALL WRITE_FLD_XY_RL( 'HSALT.',suff,HSALT,myIter,myThid)
#endif
#ifdef ALLOW_SITRACER
DO iTracer = 1, SItrNumInUse
WRITE(pref,'(A8,I2.2,A1)') 'SITRACER', iTracer, '.'
CALL WRITE_FLD_XY_RL(
& pref,suff,
& SItracer(1-OLx,1-OLy,1,1,iTracer),
& myIter, myThid )
ENDDO
#endif
ENDIF
#if ( defined(SEAICE_CGRID) && defined(SEAICE_ALLOW_EVP) )
IF ( SEAICEuseEVP ) THEN
CALL WRITE_FLD_XY_RL('SIGMA1.',suff,seaice_sigma1,
& myIter,myThid)
CALL WRITE_FLD_XY_RL('SIGMA2.',suff,seaice_sigma2,
& myIter,myThid)
CALL WRITE_FLD_XY_RL('SIGMA12.',suff,seaice_sigma12,
& myIter,myThid)
ENDIF
#endif /* SEAICE_CGRID and SEAICE_ALLOW_EVP */
C-- end SEAICE_dump_mdsio block
ENDIF
ENDIF
ENDIF
C----------------------------------------------------------------
C Do SEAICE time averaging.
C----------------------------------------------------------------
#ifdef ALLOW_TIMEAVE
IF ( SEAICE_taveFreq.GT.0. _d 0 ) THEN
C-- Time-cumulations
DO bj = myByLo(myThid), myByHi(myThid)
DO bi = myBxLo(myThid), myBxHi(myThid)
DO j=1,sNy
DO i=1,sNx
C- note(jmc): surf.Fluxes have not yet been computed when called @ nIter0
FUtave(i,j,bi,bj) =
& FUtave(i,j,bi,bj) +FU(i,j,bi,bj) *deltaTClock
FVtave(i,j,bi,bj) =
& FVtave(i,j,bi,bj) +FV(i,j,bi,bj) *deltaTClock
EmPmRtave(i,j,bi,bj)=
& EmPmRtave(i,j,bi,bj)+EmPmR(i,j,bi,bj) *deltaTClock
QNETtave(i,j,bi,bj) =
& QNETtave(i,j,bi,bj) +QNET(i,j,bi,bj) *deltaTClock
QSWtave(i,j,bi,bj) =
& QSWtave(i,j,bi,bj) +QSW(i,j,bi,bj) *deltaTClock
UICEtave(i,j,bi,bj) =
& UICEtave(i,j,bi,bj) +UICE(i,j,bi,bj)*deltaTClock
VICEtave(i,j,bi,bj) =
& VICEtave(i,j,bi,bj) +VICE(i,j,bi,bj)*deltaTClock
HEFFtave(i,j,bi,bj) =
& HEFFtave(i,j,bi,bj) +HEFF(i,j,bi,bj)*deltaTClock
AREAtave(i,j,bi,bj) =
& AREAtave(i,j,bi,bj) +AREA(i,j,bi,bj)*deltaTClock
ENDDO
ENDDO
#ifdef SEAICE_ITD
DO k=1,nITD
DO j=1,sNy
DO i=1,sNx
HEFFITDtave(i,j,k,bi,bj) =
& HEFFITDtave(i,j,k,bi,bj) +HEFFITD(i,j,k,bi,bj)*deltaTClock
AREAITDtave(i,j,k,bi,bj) =
& AREAITDtave(i,j,k,bi,bj) +AREAITD(i,j,k,bi,bj)*deltaTClock
ENDDO
ENDDO
ENDDO
#endif
SEAICE_timeAve(bi,bj) = SEAICE_timeAve(bi,bj)+deltaTClock
ENDDO
ENDDO
C Dump files and restart average computation if needed
dumpFiles = .FALSE.
IF ( myIter .NE. nIter0 ) THEN
dumpFiles =
& DIFFERENT_MULTIPLE(SEAICE_taveFreq,myTime,deltaTClock)
#ifdef ALLOW_CAL
IF ( useCAL ) THEN
CALL CAL_TIME2DUMP( ZERO, SEAICE_taveFreq, deltaTClock,
U dumpFiles,
I myTime, myIter, myThid )
ENDIF
#endif
ENDIF
IF (dumpFiles) THEN
C Normalize by integrated time
DO bj = myByLo(myThid), myByHi(myThid)
DO bi = myBxLo(myThid), myBxHi(myThid)
CALL TIMEAVE_NORMALIZE( FUtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( FVtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( EmPmRtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( QNETtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( QSWtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( UICEtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( VICEtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( HEFFtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( AREAtave,
& SEAICE_timeAve, 1, bi, bj, myThid )
#ifdef SEAICE_ITD
CALL TIMEAVE_NORMALIZE( HEFFITDtave,
& SEAICE_timeAve, nITD, bi, bj, myThid )
CALL TIMEAVE_NORMALIZE( AREAITDtave,
& SEAICE_timeAve, nITD, bi, bj, myThid )
#endif
ENDDO
ENDDO
c IF (myIter.EQ.10) WRITE(0,*) myThid, dumpFiles
#ifdef ALLOW_MNC
IF (useMNC .AND. SEAICE_tave_mnc) THEN
IF ( writeBinaryPrec .EQ. precFloat64 ) THEN
pf(1:1) = 'D'
ELSE
pf(1:1) = 'R'
ENDIF
CALL MNC_CW_SET_UDIM('sice_tave', -1, myThid)
CALL MNC_CW_RL_W_S('D','sice_tave',0,0,'T', myTime, myThid)
CALL MNC_CW_SET_UDIM('sice_tave', 0, myThid)
CALL MNC_CW_I_W_S('I','sice_tave',0,0,'iter', myIter, myThid)
C CALL MNC_CW_RL_W_S('D','sice_tave',0,0,'model_time',
C & myTime,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_UICEtave',UICEtave,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_VICEtave',VICEtave,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_FUtave',FUtave,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_FVtave',FVtave,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_EmPmRtave',EmPmRtave,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_QNETtave',QNETtave,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_QSWtave',QSWtave,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_HEFFtave',HEFFtave,myThid)
CALL MNC_CW_RL_W(pf,'sice_tave',0,0,
& 'si_AREAtave',AREAtave,myThid)
ENDIF
#endif
IF (SEAICE_tave_mdsio) THEN
IF ( rwSuffixType.EQ.0 ) THEN
WRITE(suff,'(I10.10)') myIter
ELSE
CALL RW_GET_SUFFIX( suff, myTime, myIter, myThid )
ENDIF
CALL WRITE_FLD_XY_RL('FUtave.' ,suff,FUtave ,myIter,myThid)
CALL WRITE_FLD_XY_RL('FVtave.' ,suff,FVtave ,myIter,myThid)
CALL WRITE_FLD_XY_RL('EmPmRtave.',suff,EmPmRtave,myIter,myThid)
CALL WRITE_FLD_XY_RL('QNETtave.' ,suff,QNETtave ,myIter,myThid)
CALL WRITE_FLD_XY_RL('QSWtave.' ,suff,QSWtave ,myIter,myThid)
CALL WRITE_FLD_XY_RL('UICEtave.' ,suff,UICEtave ,myIter,myThid)
CALL WRITE_FLD_XY_RL('VICEtave.' ,suff,VICEtave ,myIter,myThid)
CALL WRITE_FLD_XY_RL('HEFFtave.' ,suff,HEFFtave ,myIter,myThid)
CALL WRITE_FLD_XY_RL('AREAtave.' ,suff,AREAtave ,myIter,myThid)
ENDIF
C Reset averages to zero
DO bj = myByLo(myThid), myByHi(myThid)
DO bi = myBxLo(myThid), myBxHi(myThid)
CALL TIMEAVE_RESET( FUtave , 1, bi, bj, myThid )
CALL TIMEAVE_RESET( FVtave , 1, bi, bj, myThid )
CALL TIMEAVE_RESET( EmPmRtave, 1, bi, bj, myThid )
CALL TIMEAVE_RESET( QNETtave , 1, bi, bj, myThid )
CALL TIMEAVE_RESET( QSWtave , 1, bi, bj, myThid )
CALL TIMEAVE_RESET( UICEtave , 1, bi, bj, myThid )
CALL TIMEAVE_RESET( VICEtave , 1, bi, bj, myThid )
CALL TIMEAVE_RESET( HEFFtave , 1, bi, bj, myThid )
CALL TIMEAVE_RESET( AREAtave , 1, bi, bj, myThid )
SEAICE_timeAve(bi,bj) = ZERO
ENDDO
ENDDO
C-- end dumpFiles block
ENDIF
C-- end if SEAICE_taveFreq > 0
ENDIF
#endif /* ALLOW_TIMEAVE */
C-- do SEAICE monitor output : print some statistics about seaice fields
CALL SEAICE_MONITOR( myTime, myIter, myThid )
C-- do SEAICE Open-Boundary output
IF ( useOBCS ) CALL SEAICE_OBCS_OUTPUT( myTime, myIter, myThid )
RETURN
END