pkg/seaice/seaice_do_diags.F

C $Header: /u/gcmpack/MITgcm/pkg/seaice/seaice_do_diags.F,v 1.8 2004/12/27 20:34:11 dimitri Exp $
C $Name:  $

#include "SEAICE_OPTIONS.h"

      SUBROUTINE SEAICE_DO_DIAGS( myTime, myIter, myThid )
C     /==========================================================\
C     | SUBROUTINE SEAICE_DO_DIAGS                               |
C     | o Do SEAICE diagnostic output.                           |
C     \==========================================================/
      IMPLICIT NONE

C     === Global variables ===
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "FFIELDS.h"
#include "SEAICE_DIAGS.h"
#include "SEAICE_PARAMS.h"
#include "SEAICE_FFIELDS.h"
#include "SEAICE.h"

C     == Routine arguments ==
C     myTime        - Current time of simulation ( s )
C     myIter        - Iteration number
C     myThid        - Number of this instance of SEAICE_DO_DIAGS
      _RL     myTime
      INTEGER myIter
      INTEGER myThid

C     == Local variables ==
      CHARACTER*(MAX_LEN_MBUF) suff
      LOGICAL  DIFFERENT_MULTIPLE
      EXTERNAL DIFFERENT_MULTIPLE
      INTEGER i, j, k, bi, bj
      _RS arr(1-oLx:sNx+oLx,1-oLy:sNy+oLy,nSx,nSy)
      INTEGER thisdate(4), prevdate(4)
      LOGICAL dumpFiles
         
      IF (SEAICEwriteState) THEN

         IF ( DIFFERENT_MULTIPLE(SEAICE_dumpFreq,myTime,
     &        myTime-deltaTClock) ) THEN
            
            WRITE(suff,'(I10.10)') myIter
            _BARRIER
            _BEGIN_MASTER( myThid )
            CALL WRITE_FLD_XY_RS( 'UWIND.',suff,uwind,myIter,myThid)
            CALL WRITE_FLD_XY_RS( 'VWIND.',suff,vwind,myIter,myThid)
            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)
            _END_MASTER( myThid )
            _BARRIER

#ifdef SEAICE_DEBUG
       CALL PLOT_FIELD_XYRS( uwind , 'Current uwind ', myIter, myThid )
       CALL PLOT_FIELD_XYRS( vwind , 'Current vwind ', myIter, myThid )
       CALL PLOT_FIELD_XYRS( atemp , 'Current atemp ', myIter, myThid )
       CALL PLOT_FIELD_XYRS( aqh   , 'Current aqh   ', myIter, myThid )
       CALL PLOT_FIELD_XYRS( lwdown, 'Current lwdown', myIter, myThid )
       CALL PLOT_FIELD_XYRS( swdown, 'Current swdown', myIter, myThid )
       CALL PLOT_FIELD_XYRS( precip, 'Current precip', myIter, myThid )
       CALL PLOT_FIELD_XYRL( evap  , 'Current evap  ', myIter, myThid )
       CALL PLOT_FIELD_XYRS( runoff, 'Current runoff', myIter, myThid )
       CALL PLOT_FIELD_XYRS( SSS   , 'Current SSS   ', myIter, myThid )
       CALL PLOT_FIELD_XYRS( SST   , 'Current SST   ', myIter, myThid )
       CALL PLOT_FIELD_XYRL( fu    , 'Current fu    ', myIter, myThid )
       CALL PLOT_FIELD_XYRL( fv    , 'Current fv    ', myIter, myThid )
       CALL PLOT_FIELD_XYRL( EmPmR , 'Current EmPmR ', myIter, myThid )
       CALL PLOT_FIELD_XYRL( Qnet  , 'Current Qnet  ', myIter, myThid )
       CALL PLOT_FIELD_XYRL( Qsw   , 'Current Qsw   ', myIter, myThid )
#endif

            DO bj=myByLo(myThid),myByHi(myThid)
               DO bi=myBxLo(myThid),myBxHi(myThid)
                  DO j=1,sNy
                     DO i=1,sNx
                        arr(i,j,bi,bj)=UICE(i,j,1,bi,bj)
                     ENDDO
                  ENDDO
               ENDDO
            ENDDO
            _BARRIER
            _BEGIN_MASTER( myThid )
            CALL WRITE_FLD_XY_RS( 'UICE.',suff,arr,myIter,myThid)
            _END_MASTER( myThid )
            _BARRIER
#ifdef SEAICE_DEBUG
       _EXCH_XY_R4( arr, myThid )
       CALL PLOT_FIELD_XYRS( arr   , 'Current uice  ', myIter, myThid )
#endif

            DO bj=myByLo(myThid),myByHi(myThid)
               DO bi=myBxLo(myThid),myBxHi(myThid)
                  DO j=1,sNy
                     DO i=1,sNx
                        arr(i,j,bi,bj)=VICE(i,j,1,bi,bj)
                     ENDDO
                  ENDDO
               ENDDO
            ENDDO
            _BARRIER
            _BEGIN_MASTER( myThid )
            CALL WRITE_FLD_XY_RS( 'VICE.',suff,arr,myIter,myThid)
            _END_MASTER( myThid )
            _BARRIER
#ifdef SEAICE_DEBUG
       _EXCH_XY_R4( arr, myThid )
       CALL PLOT_FIELD_XYRS( arr   , 'Current vice  ', myIter, myThid )
#endif
            
            DO bj=myByLo(myThid),myByHi(myThid)
               DO bi=myBxLo(myThid),myBxHi(myThid)
                  DO j=1,sNy
                     DO i=1,sNx
                        arr(i,j,bi,bj)=HEFF(i,j,1,bi,bj)
                     ENDDO
                  ENDDO
               ENDDO
            ENDDO
            _BARRIER
            _BEGIN_MASTER( myThid )
            CALL WRITE_FLD_XY_RS( 'HEFF.',suff,arr,myIter,myThid)
            _END_MASTER( myThid )
            _BARRIER
#ifdef SEAICE_DEBUG
       _EXCH_XY_R4( arr, myThid )
       CALL PLOT_FIELD_XYRS( arr   , 'Current heff  ', myIter, myThid )
#endif
            
            DO bj=myByLo(myThid),myByHi(myThid)
               DO bi=myBxLo(myThid),myBxHi(myThid)
                  DO j=1,sNy
                     DO i=1,sNx
                        arr(i,j,bi,bj)=AREA(i,j,1,bi,bj)
                     ENDDO
                  ENDDO
               ENDDO
            ENDDO
            _BARRIER
            _BEGIN_MASTER( myThid )
            CALL WRITE_FLD_XY_RS( 'AREA.',suff,arr,myIter,myThid)
            _END_MASTER( myThid )
            _BARRIER
#ifdef SEAICE_DEBUG
       _EXCH_XY_R4( arr, myThid )
       CALL PLOT_FIELD_XYRS( arr   , 'Current area  ', myIter, myThid )
#endif

         ENDIF
      ENDIF

C----------------------------------------------------------------
C     Do SEAICE time averaging.
C----------------------------------------------------------------

#ifdef ALLOW_TIMEAVE

C--   Time-cumulations
      DO bj = myByLo(myThid), myByHi(myThid)
       DO bi = myBxLo(myThid), myBxHi(myThid)
        DO j=1,sNy
         DO i=1,sNx
          FUtave(i,j,1,bi,bj)   =
     &         FUtave(i,j,1,bi,bj)   +FU(i,j,bi,bj)    *deltaTclock
          FVtave(i,j,1,bi,bj)   =
     &         FVtave(i,j,1,bi,bj)   +FV(i,j,bi,bj)    *deltaTclock
          EmPmRtave(i,j,1,bi,bj)=
     &         EmPmRtave(i,j,1,bi,bj)+EmPmR(i,j,bi,bj) *deltaTclock
          QNETtave(i,j,1,bi,bj) =
     &         QNETtave(i,j,1,bi,bj) +QNET(i,j,bi,bj)  *deltaTclock
          QSWtave(i,j,1,bi,bj)  =
     &         QSWtave(i,j,1,bi,bj)  +QSW(i,j,bi,bj)   *deltaTclock
          UICEtave(i,j,1,bi,bj) =
     &         UICEtave(i,j,1,bi,bj) +UICE(i,j,1,bi,bj)*deltaTclock
          VICEtave(i,j,1,bi,bj) =
     &         VICEtave(i,j,1,bi,bj) +VICE(i,j,1,bi,bj)*deltaTclock
          HEFFtave(i,j,1,bi,bj) =
     &         HEFFtave(i,j,1,bi,bj) +HEFF(i,j,1,bi,bj)*deltaTclock
          AREAtave(i,j,1,bi,bj) =
     &         AREAtave(i,j,1,bi,bj) +AREA(i,j,1,bi,bj)*deltaTclock
         ENDDO
        ENDDO
        DO k=1,Nr
         SEAICE_TimeAve(k,bi,bj)=SEAICE_TimeAve(k,bi,bj)+deltaTclock
        ENDDO
       ENDDO
      ENDDO

C     Dump files and restart average computation if needed
      dumpFiles = .FALSE.
      IF ( myIter .NE. nIter0 ) THEN
      IF (DIFFERENT_MULTIPLE(SEAICE_taveFreq,myTime,myTime-deltaTClock))
     &     dumpFiles = .TRUE.
#ifdef ALLOW_CAL
      IF ( calendarDumps .AND. (
     & (SEAICE_taveFreq.GE. 2592000.AND.SEAICE_taveFreq.LE. 2678400).OR.
     & (SEAICE_taveFreq.GE.31104000.AND.SEAICE_taveFreq.LE.31968000)))
     & THEN
C--   Convert approximate months (30-31 days) and years (360-372 days)
C     to exact calendar months and years.
C-    First determine calendar dates for this and previous time step.
       call cal_GetDate( myiter  ,mytime            ,thisdate,mythid )
       call cal_GetDate( myiter-1,mytime-deltaTClock,prevdate,mythid )
       dumpFiles = .FALSE.
C-    Monthly SEAICE_taveFreq:
       IF( SEAICE_taveFreq.GE. 2592000 .AND. SEAICE_taveFreq.LE. 2678400
     &      .AND. (thisdate(1)-prevdate(1)).GT.50   ) dumpFiles = .TRUE.
C-    Yearly  SEAICE_taveFreq:
       IF( SEAICE_taveFreq.GE.31104000 .AND. SEAICE_taveFreq.LE.31968000
     &      .AND. (thisdate(1)-prevdate(1)).GT.5000 ) dumpFiles = .TRUE.
      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_NORMALIZ(FUtave   ,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
         CALL TIMEAVE_NORMALIZ(FVtave   ,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
         CALL TIMEAVE_NORMALIZ(EmPmRtave,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
         CALL TIMEAVE_NORMALIZ(QNETtave ,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
         CALL TIMEAVE_NORMALIZ(QSWtave  ,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
         CALL TIMEAVE_NORMALIZ(UICEtave ,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
         CALL TIMEAVE_NORMALIZ(VICEtave ,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
         CALL TIMEAVE_NORMALIZ(HEFFtave ,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
         CALL TIMEAVE_NORMALIZ(AREAtave ,SEAICE_timeave, 1,
     &                 bi,bj,myThid)
        ENDDO
       ENDDO

       WRITE(suff,'(I10.10)') myIter
       _BARRIER
       _BEGIN_MASTER( myThid )
       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)
       _END_MASTER( myThid )
       _BARRIER
       
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)
         DO k=1,Nr
          SEAICE_TimeAve(k,bi,bj)=ZERO
         ENDDO
        ENDDO
       ENDDO
       
      ENDIF
      
#endif /* ALLOW_TIMEAVE */

      RETURN
      END
1	C $Header: /u/gcmpack/MITgcm/pkg/seaice/seaice_do_diags.F,v 1.8 2004/12/27 20:34:11 dimitri Exp $
2	C $Name: $
3
4	#include "SEAICE_OPTIONS.h"
5
6	SUBROUTINE SEAICE_DO_DIAGS( myTime, myIter, myThid )
7	C /==========================================================\
8	C \| SUBROUTINE SEAICE_DO_DIAGS \|
9	C \| o Do SEAICE diagnostic output. \|
10	C \==========================================================/
11	IMPLICIT NONE
12
13	C === Global variables ===
14	#include "SIZE.h"
15	#include "EEPARAMS.h"
16	#include "PARAMS.h"
17	#include "FFIELDS.h"
18	#include "SEAICE_DIAGS.h"
19	#include "SEAICE_PARAMS.h"
20	#include "SEAICE_FFIELDS.h"
21	#include "SEAICE.h"
22
23	C == Routine arguments ==
24	C myTime - Current time of simulation ( s )
25	C myIter - Iteration number
26	C myThid - Number of this instance of SEAICE_DO_DIAGS
27	_RL myTime
28	INTEGER myIter
29	INTEGER myThid
30
31	C == Local variables ==
32	CHARACTER*(MAX_LEN_MBUF) suff
33	LOGICAL DIFFERENT_MULTIPLE
34	EXTERNAL DIFFERENT_MULTIPLE
35	INTEGER i, j, k, bi, bj
36	_RS arr(1-oLx:sNx+oLx,1-oLy:sNy+oLy,nSx,nSy)
37	INTEGER thisdate(4), prevdate(4)
38	LOGICAL dumpFiles
39
40	IF (SEAICEwriteState) THEN
41
42	IF ( DIFFERENT_MULTIPLE(SEAICE_dumpFreq,myTime,
43	& myTime-deltaTClock) ) THEN
44
45	WRITE(suff,'(I10.10)') myIter
46	_BARRIER
47	_BEGIN_MASTER( myThid )
48	CALL WRITE_FLD_XY_RS( 'UWIND.',suff,uwind,myIter,myThid)
49	CALL WRITE_FLD_XY_RS( 'VWIND.',suff,vwind,myIter,myThid)
50	CALL WRITE_FLD_XY_RS( 'FU.',suff,fu,myIter,myThid)
51	CALL WRITE_FLD_XY_RS( 'FV.',suff,fv,myIter,myThid)
52	CALL WRITE_FLD_XY_RS( 'EmPmR.',suff,EmPmR,myIter,myThid)
53	CALL WRITE_FLD_XY_RS( 'Qnet.',suff,Qnet,myIter,myThid)
54	CALL WRITE_FLD_XY_RS( 'Qsw.',suff,Qsw,myIter,myThid)
55	_END_MASTER( myThid )
56	_BARRIER
57
58	#ifdef SEAICE_DEBUG
59	CALL PLOT_FIELD_XYRS( uwind , 'Current uwind ', myIter, myThid )
60	CALL PLOT_FIELD_XYRS( vwind , 'Current vwind ', myIter, myThid )
61	CALL PLOT_FIELD_XYRS( atemp , 'Current atemp ', myIter, myThid )
62	CALL PLOT_FIELD_XYRS( aqh , 'Current aqh ', myIter, myThid )
63	CALL PLOT_FIELD_XYRS( lwdown, 'Current lwdown', myIter, myThid )
64	CALL PLOT_FIELD_XYRS( swdown, 'Current swdown', myIter, myThid )
65	CALL PLOT_FIELD_XYRS( precip, 'Current precip', myIter, myThid )
66	CALL PLOT_FIELD_XYRL( evap , 'Current evap ', myIter, myThid )
67	CALL PLOT_FIELD_XYRS( runoff, 'Current runoff', myIter, myThid )
68	CALL PLOT_FIELD_XYRS( SSS , 'Current SSS ', myIter, myThid )
69	CALL PLOT_FIELD_XYRS( SST , 'Current SST ', myIter, myThid )
70	CALL PLOT_FIELD_XYRL( fu , 'Current fu ', myIter, myThid )
71	CALL PLOT_FIELD_XYRL( fv , 'Current fv ', myIter, myThid )
72	CALL PLOT_FIELD_XYRL( EmPmR , 'Current EmPmR ', myIter, myThid )
73	CALL PLOT_FIELD_XYRL( Qnet , 'Current Qnet ', myIter, myThid )
74	CALL PLOT_FIELD_XYRL( Qsw , 'Current Qsw ', myIter, myThid )
75	#endif
76
77	DO bj=myByLo(myThid),myByHi(myThid)
78	DO bi=myBxLo(myThid),myBxHi(myThid)
79	DO j=1,sNy
80	DO i=1,sNx
81	arr(i,j,bi,bj)=UICE(i,j,1,bi,bj)
82	ENDDO
83	ENDDO
84	ENDDO
85	ENDDO
86	_BARRIER
87	_BEGIN_MASTER( myThid )
88	CALL WRITE_FLD_XY_RS( 'UICE.',suff,arr,myIter,myThid)
89	_END_MASTER( myThid )
90	_BARRIER
91	#ifdef SEAICE_DEBUG
92	_EXCH_XY_R4( arr, myThid )
93	CALL PLOT_FIELD_XYRS( arr , 'Current uice ', myIter, myThid )
94	#endif
95
96	DO bj=myByLo(myThid),myByHi(myThid)
97	DO bi=myBxLo(myThid),myBxHi(myThid)
98	DO j=1,sNy
99	DO i=1,sNx
100	arr(i,j,bi,bj)=VICE(i,j,1,bi,bj)
101	ENDDO
102	ENDDO
103	ENDDO
104	ENDDO
105	_BARRIER
106	_BEGIN_MASTER( myThid )
107	CALL WRITE_FLD_XY_RS( 'VICE.',suff,arr,myIter,myThid)
108	_END_MASTER( myThid )
109	_BARRIER
110	#ifdef SEAICE_DEBUG
111	_EXCH_XY_R4( arr, myThid )
112	CALL PLOT_FIELD_XYRS( arr , 'Current vice ', myIter, myThid )
113	#endif
114
115	DO bj=myByLo(myThid),myByHi(myThid)
116	DO bi=myBxLo(myThid),myBxHi(myThid)
117	DO j=1,sNy
118	DO i=1,sNx
119	arr(i,j,bi,bj)=HEFF(i,j,1,bi,bj)
120	ENDDO
121	ENDDO
122	ENDDO
123	ENDDO
124	_BARRIER
125	_BEGIN_MASTER( myThid )
126	CALL WRITE_FLD_XY_RS( 'HEFF.',suff,arr,myIter,myThid)
127	_END_MASTER( myThid )
128	_BARRIER
129	#ifdef SEAICE_DEBUG
130	_EXCH_XY_R4( arr, myThid )
131	CALL PLOT_FIELD_XYRS( arr , 'Current heff ', myIter, myThid )
132	#endif
133
134	DO bj=myByLo(myThid),myByHi(myThid)
135	DO bi=myBxLo(myThid),myBxHi(myThid)
136	DO j=1,sNy
137	DO i=1,sNx
138	arr(i,j,bi,bj)=AREA(i,j,1,bi,bj)
139	ENDDO
140	ENDDO
141	ENDDO
142	ENDDO
143	_BARRIER
144	_BEGIN_MASTER( myThid )
145	CALL WRITE_FLD_XY_RS( 'AREA.',suff,arr,myIter,myThid)
146	_END_MASTER( myThid )
147	_BARRIER
148	#ifdef SEAICE_DEBUG
149	_EXCH_XY_R4( arr, myThid )
150	CALL PLOT_FIELD_XYRS( arr , 'Current area ', myIter, myThid )
151	#endif
152
153	ENDIF
154	ENDIF
155
156	C----------------------------------------------------------------
157	C Do SEAICE time averaging.
158	C----------------------------------------------------------------
159
160	#ifdef ALLOW_TIMEAVE
161
162	C-- Time-cumulations
163	DO bj = myByLo(myThid), myByHi(myThid)
164	DO bi = myBxLo(myThid), myBxHi(myThid)
165	DO j=1,sNy
166	DO i=1,sNx
167	FUtave(i,j,1,bi,bj) =
168	& FUtave(i,j,1,bi,bj) +FU(i,j,bi,bj) *deltaTclock
169	FVtave(i,j,1,bi,bj) =
170	& FVtave(i,j,1,bi,bj) +FV(i,j,bi,bj) *deltaTclock
171	EmPmRtave(i,j,1,bi,bj)=
172	& EmPmRtave(i,j,1,bi,bj)+EmPmR(i,j,bi,bj) *deltaTclock
173	QNETtave(i,j,1,bi,bj) =
174	& QNETtave(i,j,1,bi,bj) +QNET(i,j,bi,bj) *deltaTclock
175	QSWtave(i,j,1,bi,bj) =
176	& QSWtave(i,j,1,bi,bj) +QSW(i,j,bi,bj) *deltaTclock
177	UICEtave(i,j,1,bi,bj) =
178	& UICEtave(i,j,1,bi,bj) +UICE(i,j,1,bi,bj)*deltaTclock
179	VICEtave(i,j,1,bi,bj) =
180	& VICEtave(i,j,1,bi,bj) +VICE(i,j,1,bi,bj)*deltaTclock
181	HEFFtave(i,j,1,bi,bj) =
182	& HEFFtave(i,j,1,bi,bj) +HEFF(i,j,1,bi,bj)*deltaTclock
183	AREAtave(i,j,1,bi,bj) =
184	& AREAtave(i,j,1,bi,bj) +AREA(i,j,1,bi,bj)*deltaTclock
185	ENDDO
186	ENDDO
187	DO k=1,Nr
188	SEAICE_TimeAve(k,bi,bj)=SEAICE_TimeAve(k,bi,bj)+deltaTclock
189	ENDDO
190	ENDDO
191	ENDDO
192
193	C Dump files and restart average computation if needed
194	dumpFiles = .FALSE.
195	IF ( myIter .NE. nIter0 ) THEN
196	IF (DIFFERENT_MULTIPLE(SEAICE_taveFreq,myTime,myTime-deltaTClock))
197	& dumpFiles = .TRUE.
198	#ifdef ALLOW_CAL
199	IF ( calendarDumps .AND. (
200	& (SEAICE_taveFreq.GE. 2592000.AND.SEAICE_taveFreq.LE. 2678400).OR.
201	& (SEAICE_taveFreq.GE.31104000.AND.SEAICE_taveFreq.LE.31968000)))
202	& THEN
203	C-- Convert approximate months (30-31 days) and years (360-372 days)
204	C to exact calendar months and years.
205	C- First determine calendar dates for this and previous time step.
206	call cal_GetDate( myiter ,mytime ,thisdate,mythid )
207	call cal_GetDate( myiter-1,mytime-deltaTClock,prevdate,mythid )
208	dumpFiles = .FALSE.
209	C- Monthly SEAICE_taveFreq:
210	IF( SEAICE_taveFreq.GE. 2592000 .AND. SEAICE_taveFreq.LE. 2678400
211	& .AND. (thisdate(1)-prevdate(1)).GT.50 ) dumpFiles = .TRUE.
212	C- Yearly SEAICE_taveFreq:
213	IF( SEAICE_taveFreq.GE.31104000 .AND. SEAICE_taveFreq.LE.31968000
214	& .AND. (thisdate(1)-prevdate(1)).GT.5000 ) dumpFiles = .TRUE.
215	ENDIF
216	#endif
217	ENDIF
218
219	IF (dumpFiles) THEN
220	C Normalize by integrated time
221	DO bj = myByLo(myThid), myByHi(myThid)
222	DO bi = myBxLo(myThid), myBxHi(myThid)
223	CALL TIMEAVE_NORMALIZ(FUtave ,SEAICE_timeave, 1,
224	& bi,bj,myThid)
225	CALL TIMEAVE_NORMALIZ(FVtave ,SEAICE_timeave, 1,
226	& bi,bj,myThid)
227	CALL TIMEAVE_NORMALIZ(EmPmRtave,SEAICE_timeave, 1,
228	& bi,bj,myThid)
229	CALL TIMEAVE_NORMALIZ(QNETtave ,SEAICE_timeave, 1,
230	& bi,bj,myThid)
231	CALL TIMEAVE_NORMALIZ(QSWtave ,SEAICE_timeave, 1,
232	& bi,bj,myThid)
233	CALL TIMEAVE_NORMALIZ(UICEtave ,SEAICE_timeave, 1,
234	& bi,bj,myThid)
235	CALL TIMEAVE_NORMALIZ(VICEtave ,SEAICE_timeave, 1,
236	& bi,bj,myThid)
237	CALL TIMEAVE_NORMALIZ(HEFFtave ,SEAICE_timeave, 1,
238	& bi,bj,myThid)
239	CALL TIMEAVE_NORMALIZ(AREAtave ,SEAICE_timeave, 1,
240	& bi,bj,myThid)
241	ENDDO
242	ENDDO
243
244	WRITE(suff,'(I10.10)') myIter
245	_BARRIER
246	_BEGIN_MASTER( myThid )
247	CALL WRITE_FLD_XY_RL('FUtave.' ,suff,FUtave ,myIter,myThid)
248	CALL WRITE_FLD_XY_RL('FVtave.' ,suff,FVtave ,myIter,myThid)
249	CALL WRITE_FLD_XY_RL('EmPmRtave.',suff,EmPmRtave,myIter,myThid)
250	CALL WRITE_FLD_XY_RL('QNETtave.' ,suff,QNETtave ,myIter,myThid)
251	CALL WRITE_FLD_XY_RL('QSWtave.' ,suff,QSWtave ,myIter,myThid)
252	CALL WRITE_FLD_XY_RL('UICEtave.' ,suff,UICEtave ,myIter,myThid)
253	CALL WRITE_FLD_XY_RL('VICEtave.' ,suff,VICEtave ,myIter,myThid)
254	CALL WRITE_FLD_XY_RL('HEFFtave.' ,suff,HEFFtave ,myIter,myThid)
255	CALL WRITE_FLD_XY_RL('AREAtave.' ,suff,AREAtave ,myIter,myThid)
256	_END_MASTER( myThid )
257	_BARRIER
258
259	C Reset averages to zero
260	DO bj = myByLo(myThid), myByHi(myThid)
261	DO bi = myBxLo(myThid), myBxHi(myThid)
262	CALL TIMEAVE_RESET(FUtave ,1,bi,bj,myThid)
263	CALL TIMEAVE_RESET(FVtave ,1,bi,bj,myThid)
264	CALL TIMEAVE_RESET(EmPmRtave,1,bi,bj,myThid)
265	CALL TIMEAVE_RESET(QNETtave ,1,bi,bj,myThid)
266	CALL TIMEAVE_RESET(QSWtave ,1,bi,bj,myThid)
267	CALL TIMEAVE_RESET(UICEtave ,1,bi,bj,myThid)
268	CALL TIMEAVE_RESET(VICEtave ,1,bi,bj,myThid)
269	CALL TIMEAVE_RESET(HEFFtave ,1,bi,bj,myThid)
270	CALL TIMEAVE_RESET(AREAtave ,1,bi,bj,myThid)
271	DO k=1,Nr
272	SEAICE_TimeAve(k,bi,bj)=ZERO
273	ENDDO
274	ENDDO
275	ENDDO
276
277	ENDIF
278
279	#endif /* ALLOW_TIMEAVE */
280
281	RETURN
282	END