20 |
|
|
21 |
integer myTime, myIter, myThid |
integer myTime, myIter, myThid |
22 |
|
|
23 |
integer i, j, L, bi, bj |
integer i, j, bi, bj, biglobal, bjglobal |
24 |
integer im1, im2, jm1, jm2, idim1, idim2, jdim1, jdim2 |
integer im1, im2, jm1, jm2, idim1, idim2, jdim1, jdim2 |
25 |
|
integer nSxglobal, nSyglobal |
|
im1 = 1-OLx |
|
|
im2 = sNx+OLx |
|
|
jm1 = 1-OLy |
|
|
jm2 = sNy+OLy |
|
|
idim1 = 1 |
|
|
idim2 = sNx |
|
|
jdim1 = 1 |
|
|
jdim2 = sNy |
|
|
|
|
26 |
integer ksst,kice |
integer ksst,kice |
|
|
|
|
c Declare Local Variables |
|
|
c ----------------------- |
|
27 |
real sstmin |
real sstmin |
28 |
parameter ( sstmin = 273.16 ) |
parameter ( sstmin = 273.16 ) |
29 |
|
|
30 |
integer i,j,im,jm |
idim1 = 1-OLx |
31 |
|
idim2 = sNx+OLx |
32 |
|
jdim1 = 1-OLy |
33 |
|
jdim2 = sNy+OLy |
34 |
|
im1 = 1 |
35 |
|
im2 = sNx |
36 |
|
jm1 = 1 |
37 |
|
jm2 = sNy |
38 |
|
nSxglobal = nSx*nPx |
39 |
|
nSyglobal = nSy*nPy |
40 |
|
|
41 |
|
call mdsfindunit( ksst, myThid ) |
42 |
|
call mdsfindunit( kice, myThid ) |
43 |
|
|
44 |
|
C*********************************************************************** |
45 |
|
|
46 |
C********************************************************************* |
DO BJ = myByLo(myThid),myByHi(myThid) |
47 |
C**** Interpolate Data to Current Time **** |
DO BI = myBxLo(myThid),myBxHi(myThid) |
|
C********************************************************************* |
|
48 |
|
|
49 |
call getsst (ksst,nymd,nhms,sst,im,jm) |
biglobal=bi+(myXGlobalLo-1)/im2 |
50 |
call getsice (kice,nymd,nhms,sice,im,jm) |
bjglobal=bj+(myYGlobalLo-1)/jm2 |
51 |
|
|
52 |
|
call getsst(ksst,idim1,idim2,jdim1,jdim2,im1,im2,jm1,jm2,nSx, |
53 |
|
. nSy,nSxglobal,nSyglobal,bi,bj,biglobal,bjglobal,nymd,nhms,sst) |
54 |
|
call getsice(kice,idim1,idim2,jdim1,jdim2,im1,im2,jm1,jm2,nSx, |
55 |
|
. nSy,nSxglobal,nSyglobal,bi,bj,biglobal,bjglobal,nymd,nhms,sice) |
56 |
|
|
57 |
c Check for Minimum Open-Water SST |
c Check for Minimum Open-Water SST |
58 |
c -------------------------------- |
c -------------------------------- |
59 |
do j=1,jm |
do j=jm1,jm2 |
60 |
do i=1,im |
do i=im1,im2 |
61 |
if(sice(i,j).eq.0.0 .and. sst(i,j).lt.sstmin)sst(i,j) = sstmin |
if(sice(i,j,bi,bj).eq.0.0 .and. sst(i,j,bi,bj).lt.sstmin) |
62 |
|
. sst(i,j,bi,bj) = sstmin |
63 |
enddo |
enddo |
64 |
enddo |
enddo |
65 |
|
|
66 |
|
ENDDO |
67 |
|
ENDDO |
68 |
|
|
69 |
return |
return |
70 |
end |
end |
71 |
|
|
72 |
subroutine getsice ( iunit,nymd,nhms,sice,im,jm ) |
subroutine getsice(iunit,idim1,idim2,jdim1,jdim2,im1,im2,jm1,jm2, |
73 |
C************************************************************************ |
. nSx,nSy,nPx,nPy,bi,bj,biglobal,bjglobal,nymd,nhms,sice) |
|
C!GETSICE |
|
74 |
C************************************************************************ |
C************************************************************************ |
75 |
C |
C |
76 |
C!ROUTINE: GETSICE |
C!ROUTINE: GETSICE |
|
C!PROGRAMMER: Sharon Nebuda |
|
|
C!DATE CODED: May 8, 1996 |
|
77 |
C!DESCRIPTION: GETSICE returns the sea ice depth. |
C!DESCRIPTION: GETSICE returns the sea ice depth. |
78 |
C! This routine is adaptable for any frequency |
C! This routine is adaptable for any frequency |
79 |
C! data upto a daily frequency. |
C! data upto a daily frequency. |
80 |
C! note: for diurnal data ndmax should be increased. |
C! note: for diurnal data ndmax should be increased. |
81 |
C |
C |
82 |
C!INPUT PARAMETERS: |
C!INPUT PARAMETERS: |
83 |
C! iunit Unit number assigned to the sice data file |
C! iunit Unit number assigned to the sice data file |
84 |
C! nymd YYMMDD of the current model timestep |
C! idim1 Start dimension in x-direction |
85 |
C! nhms HHMMSS of the model time |
C! idim2 End dimension in x-direction |
86 |
C! im Number of x points |
C! jdim1 Start dimension in y-direction |
87 |
C! jm Number of y points |
C! jdim2 End dimension in y-direction |
88 |
C! lattice Grid Decomposition defined by Dynamics |
C! im1 Begin of x-direction span for filling sice |
89 |
|
C! im2 End of x-direction span for filling sice |
90 |
|
C! jm1 Begin of y-direction span for filling sice |
91 |
|
C! jm2 End of y-direction span for filling sice |
92 |
|
C! nSx Number of processors in x-direction (local processor) |
93 |
|
C! nSy Number of processors in y-direction (local processor) |
94 |
|
C! nPx Number of processors in x-direction (global) |
95 |
|
C! nPy Number of processors in y-direction (global) |
96 |
|
C! bi Processor number in x-direction (local to processor) |
97 |
|
C! bj Processor number in y-direction (local to processor) |
98 |
|
C! biglobal Processor number in x-direction (global) |
99 |
|
C! bjglobal Processor number in y-direction (global) |
100 |
|
C! nymd YYMMDD of the current model timestep |
101 |
|
C! nhms HHMMSS of the model time |
102 |
C |
C |
103 |
C!OUTPUT PARAMETERS: |
C!OUTPUT PARAMETERS: |
104 |
C! sice(im,jm) Sea ice depth in meters |
C! sice(idim1:idim2,jdim1:jdim2,nSx,nSy) Sea ice depth in meters |
105 |
C |
C |
106 |
C!ROUTINES CALLED: |
C!ROUTINES CALLED: |
107 |
C |
C |
108 |
C! bcdata Reads the data for a given unit number |
C! bcdata Reads the data for a given unit number |
109 |
C! bcheader Reads the header info for a given unit number |
C! bcheader Reads the header info for a given unit number |
110 |
C! interp_time Returns weights for linear interpolation |
C! interp_time Returns weights for linear interpolation |
111 |
C |
C |
112 |
C-------------------------------------------------------------------------- |
C-------------------------------------------------------------------------- |
113 |
|
|
|
use dynamics_lattice_module |
|
114 |
implicit none |
implicit none |
115 |
type ( dynamics_lattice_type ) lattice |
#include "CPP_OPTIONS.h" |
116 |
|
|
117 |
|
integer iunit,idim1,idim2,jdim1,jdim2,im1,im2,jm1,jm2,nSx,nSy |
118 |
|
integer bi,bj,biglobal.bjglobal,nymd,nhms |
119 |
|
|
120 |
|
_RL sice(idim1:idim2,jdim1:jdim2,nSx,nSy) |
121 |
|
|
122 |
c MPI Utilities |
c MPI Utilities |
123 |
c ------------- |
c ------------- |
124 |
include 'mpif.h' |
include 'mpif.h' |
125 |
integer ierror |
integer ierror |
126 |
|
|
127 |
C Parameter statements |
C Maximum number of dates in one year for the data |
128 |
integer ndmax ! Maximum number of dates in one year for the data |
integer ndmax |
129 |
parameter (ndmax = 370) |
parameter (ndmax = 370) |
130 |
|
|
131 |
C Variables passed to the routine: |
character*8 cname |
132 |
integer iunit ! Unit number assigned to the sea ice data file |
character*80 cdscrip |
133 |
integer nymd ! YYMMDD of the current model timestep |
real fac1, fac2, lat0, lon0, timebc1, timebc2, timemod, undef |
134 |
integer nhms ! HHMMSS of the model time |
logical first, found, error |
135 |
integer im ! Number of x points |
integer i,j,n,nn,iyear,iyearbc,nd,ndby3,imbc,jmbc,ndatebc |
136 |
integer jm ! Number of y points |
integer nhmsbc(ndmax), nhmsbc1, nhmsbc2,nrec |
137 |
|
integer nymdbc(ndmax),nymdbc1,nymdbc2,nymdmod |
|
C Variables returned by the routine: |
|
|
real sice(im,jm) ! Sea ice depth in meters |
|
|
|
|
|
C Variables unique to the routine: |
|
|
character*8 cname ! Name of the data in the file header |
|
|
character*80 cdscrip ! Description of the data in the file header |
|
|
real fac1 ! Weighted value (fraction) of the data |
|
|
! before the model time |
|
|
real fac2 ! Weighted value (fraction) of the data |
|
|
! after the model time |
|
|
logical first ! True for first time using the dates for the |
|
|
! BC data file. Then read in the header file. |
|
|
logical found ! If false, then the data surrounding the model |
|
|
! time was not found |
|
|
logical error ! TRUE if problem with data |
|
|
integer i,j,n,nn ! DO loop counters |
|
|
integer iyear ! Year of model |
|
|
integer iyearbc ! Year of boundary condition data |
|
|
real lat0 ! Starting lat of the bc data set (future use) |
|
|
real lon0 ! Starting lon of the bc data set (future use) |
|
|
integer nd ! Counter for record number of data to read |
|
|
integer ndby3 ! int(ndatebc/3) used for write statement |
|
|
integer imbc ! IM read from the BC data |
|
|
integer jmbc ! JM read from the BC data |
|
|
integer ndatebc ! Number of dates in the BC file |
|
|
integer nhmsbc(ndmax) ! HHMMSS of the data time (not needed currently) |
|
|
integer nhmsbc1 ! HHMMSS of the earlier data kept from last timestep |
|
|
integer nhmsbc2 ! HHMMSS of the later data kept from last timestep |
|
|
integer nrec ! Record number of the header (set to 1) |
|
|
integer nymdbc(ndmax) ! YYYYMMDD of each data |
|
|
integer nymdbc1 ! YYYYMMDD of the earlier data kept from last timestep |
|
|
integer nymdbc2 ! YYYYMMDD of the later data kept from last timestep |
|
|
integer nymdmod ! YYYYMMDD of the current model timestep |
|
|
real timebc1 ! YYYYMMDD.HHMMSS of the earlier bc data |
|
|
real timebc2 ! YYYYMMDD.HHMMSS of the later bc data |
|
|
real timemod ! YYYYMMDD.HHMMSS of the current timestep |
|
|
real undef ! Undefined value for missing data |
|
138 |
|
|
139 |
C Define Allocatable Arrays |
C Define Allocatable Arrays |
140 |
real, allocatable, save :: sicebc1(:,:) ! Sea ice 0=no 1=yes from the bc data |
real sicebc1(im2,jm2,nPx,nPy),sicebc2(im2,jm2,nPx,nPy) |
|
! of the date before the model time |
|
|
real, allocatable, save :: sicebc2(:,:) ! Sea ice 0=no 1=yes from bc data |
|
|
! of the date after the model time |
|
141 |
|
|
142 |
C--------- Variable Initialization --------------------------------- |
C--------- Variable Initialization --------------------------------- |
143 |
|
|
148 |
save imbc, jmbc, lat0, lon0, ndatebc, undef, nymdbc, nhmsbc |
save imbc, jmbc, lat0, lon0, ndatebc, undef, nymdbc, nhmsbc |
149 |
save nymdbc1, nymdbc2, nhmsbc1, nhmsbc2 |
save nymdbc1, nymdbc2, nhmsbc1, nhmsbc2 |
150 |
save first |
save first |
151 |
|
save sicebc1, sicebc2 |
152 |
|
|
153 |
c this only works for between 1950-2050 |
c this only works for between 1950-2050 |
154 |
if (nymd .lt. 500101) then |
if (nymd .lt. 500101) then |
164 |
c for the first time so first isnt checked below. |
c for the first time so first isnt checked below. |
165 |
|
|
166 |
if (first) then |
if (first) then |
|
allocate ( sicebc1(lattice%imglobal,lattice%jmglobal) ) ! Allocate Memory for sicebc1 |
|
|
allocate ( sicebc2(lattice%imglobal,lattice%jmglobal) ) ! Allocate Memory for sicebc2 |
|
167 |
nymdbc(2) = 0 |
nymdbc(2) = 0 |
168 |
nymdbc1 = 0 |
nymdbc1 = 0 |
169 |
nymdbc2 = 0 |
nymdbc2 = 0 |
178 |
iyearbc = nymdbc(2)/10000 |
iyearbc = nymdbc(2)/10000 |
179 |
|
|
180 |
if( iyear.ne.iyearbc ) then |
if( iyear.ne.iyearbc ) then |
|
if( lattice%myid.eq.0 ) then |
|
181 |
|
|
182 |
close(iunit) |
close(iunit) |
183 |
open (iunit, form='unformatted', access='direct',recl=lattice%imglobal*lattice%jmglobal*4) |
open (iunit, form='unformatted', access='direct',recl=im2*jm2*4) |
184 |
nrec = 1 |
nrec = 1 |
185 |
call bcheader (iunit, ndmax, nrec, |
call bcheader (iunit, ndmax, nrec, |
186 |
. cname, cdscrip, imbc, jmbc, lat0, lon0, |
. cname, cdscrip, imbc, jmbc, lat0, lon0, |
190 |
|
|
191 |
C Check for correct data in boundary condition file |
C Check for correct data in boundary condition file |
192 |
if (.not.error .and. cname.ne.'SICE') then |
if (.not.error .and. cname.ne.'SICE') then |
193 |
write(6,*) 'Wrong data in SICE boundary condition file => ',cname |
write(6,*)'Wrong data in SICE boundary condition file => ',cname |
194 |
error = .true. |
error = .true. |
195 |
endif |
endif |
196 |
|
|
197 |
C Check Horizontal Resolution |
C Check Horizontal Resolution |
198 |
if (.not.error .and. imbc*jmbc.ne.lattice%imglobal*lattice%jmglobal) then |
if (.not.error .and. imbc*jmbc.ne.im2*jm2) then |
199 |
write(6,*) 'Boundary Condition Resolution DOES NOT match Model Resolution!' |
write(6,*) ' B.C. Resolution DOES NOT match Model Resolution!' |
200 |
write(6,*) 'Boundary Condition Resolution: ',imbc*jmbc |
write(6,*) ' B.C. Resolution: ',imbc*jmbc |
201 |
write(6,*) ' Model Resolution: ',lattice%imglobal*lattice%jmglobal |
write(6,*) 'Model Resolution: ',im2*jm2 |
202 |
error = .true. |
error = .true. |
203 |
endif |
endif |
204 |
|
|
205 |
C Check Year |
C Check Year |
206 |
iyearbc = nymdbc(2)/10000 |
iyearbc = nymdbc(2)/10000 |
207 |
if (.not.error .and. iyear.ne.iyearbc .and. iyearbc.ne.0) then |
if (.not.error .and. iyear.ne.iyearbc .and. iyearbc.ne.0) then |
208 |
write(6,*) 'Boundary Condition Year DOES NOT match REQUESTED Year!' |
write(6,*) ' B.C. Year DOES NOT match REQUESTED Year!' |
209 |
write(6,*) 'Boundary Condition Year: ', iyearbc |
write(6,*) ' B.C. Year: ', iyearbc |
210 |
write(6,*) ' Requested Year: ', iyear |
write(6,*) 'Requested Year: ', iyear |
211 |
error = .true. |
error = .true. |
212 |
endif |
endif |
213 |
|
|
214 |
if (.not.error) then |
if (.not.error) then |
215 |
C if climatology, fill dates for data with current model year |
C if climatology, fill dates for data with current model year |
216 |
if (iyearbc.eq.0) then |
if (iyearbc.eq.0) then |
217 |
write(6,*) |
write(6,*) |
218 |
write(6,*) 'Climatological Dataset is being used.' |
write(6,*) 'Climatological Dataset is being used.' |
219 |
write(6,*) 'Current model year will be used to fill Header Dates' |
write(6,*) 'Current model year to be used to fill Header Dates' |
220 |
do n = 2, ndatebc-1 |
do n = 2, ndatebc-1 |
221 |
nymdbc(n) = nymdbc(n) +(nymdmod/10000)*10000 |
nymdbc(n) = nymdbc(n) +(nymdmod/10000)*10000 |
222 |
enddo |
enddo |
223 |
C For the first date subtract 1 year from the current model NYMD |
C For the first date subtract 1 year from the current model NYMD |
224 |
n = 1 |
n = 1 |
225 |
nymdbc(n) = nymdbc(n) +(nymdmod/10000-1)*10000 |
nymdbc(n) = nymdbc(n) +(nymdmod/10000-1)*10000 |
226 |
C For the last date add 1 year to the current model NYMD |
C For the last date add 1 year to the current model NYMD |
227 |
n = ndatebc |
n = ndatebc |
228 |
nymdbc(n) = nymdbc(n) +(nymdmod/10000+1)*10000 |
nymdbc(n) = nymdbc(n) +(nymdmod/10000+1)*10000 |
229 |
endif |
endif |
230 |
|
|
231 |
C Write out header info |
C Write out header info |
232 |
write(6,*) ' Updated boundary condition data' |
write(6,*) ' Updated boundary condition data' |
233 |
write(6,*) ' ---------------------------------' |
write(6,*) ' ---------------------------------' |
234 |
write(6,*) ' Variable: ',cname |
write(6,*) ' Variable: ',cname |
235 |
write(6,*) ' Description: ',cdscrip |
write(6,*) ' Description: ',cdscrip |
236 |
write(6,*) ' Resolution: x= ',imbc,' y= ',jmbc,' Undefined value = ',undef |
write(6,*) ' Resolution: x= ',imbc,' y= ',jmbc, |
237 |
write(6,*) ' Starting latitude = ',lat0,' longitude =',lon0 |
. ' Undefined value = ',undef |
238 |
write(6,*) ' Data valid at these times: ' |
write(6,*) ' Starting latitude = ',lat0,' longitude =',lon0 |
239 |
ndby3 = ndatebc/3 |
write(6,*) ' Data valid at these times: ' |
240 |
do n = 1, ndby3*3,3 |
ndby3 = ndatebc/3 |
241 |
write(6,1000) (nn,nymdbc(nn),nhmsbc(nn),nn=n,n+2) |
do n = 1, ndby3*3,3 |
242 |
1000 format(3(2x,i3,':',i8,2x,i8)) |
write(6,1000) (nn,nymdbc(nn),nhmsbc(nn),nn=n,n+2) |
243 |
enddo |
1000 format(3(2x,i3,':',i8,2x,i8)) |
244 |
write(6,1000) (nn,nymdbc(nn),nhmsbc(nn),nn=ndby3*3+1,ndatebc) |
enddo |
245 |
endif ! End error Check |
write(6,1000) (nn,nymdbc(nn),nhmsbc(nn),nn=ndby3*3+1,ndatebc) |
246 |
|
endif |
|
endif ! End MYID=0 Check |
|
|
|
|
|
c Broadcast information to other PEs |
|
|
c ---------------------------------- |
|
|
#if (mpi) |
|
|
call mpi_bcast ( error,1,mpi_logical,0,lattice%comm,ierror ) |
|
|
#endif |
|
|
if( error ) call my_exit (101) |
|
|
|
|
|
#if (mpi) |
|
|
call mpi_bcast ( ndatebc,1 ,mpi_integer,0,lattice%comm,ierror ) |
|
|
call mpi_bcast ( nymdbc,ndatebc,mpi_integer,0,lattice%comm,ierror ) |
|
|
call mpi_bcast ( nhmsbc,ndatebc,mpi_integer,0,lattice%comm,ierror ) |
|
|
#endif |
|
247 |
|
|
248 |
endif ! New Year Info Check |
endif |
249 |
|
|
250 |
C---------- Read sice data if necessary ------------------------------- |
C---------- Read sice data if necessary ------------------------------- |
251 |
|
|
252 |
found = .false. |
found = .false. |
253 |
nd = 2 |
nd = 2 |
254 |
|
|
255 |
c If model time is not within the times of saved sice data |
c If model time is not within the times of saved sice data |
256 |
c from previous call to getsice then read new data |
c from previous call to getsice then read new data |
257 |
|
|
258 |
timemod = float(nymdmod) + float(nhms) /1000000 |
timemod = float(nymdmod) + float(nhms) /1000000 |
259 |
timebc1 = float(nymdbc1) + float(nhmsbc1)/1000000 |
timebc1 = float(nymdbc1) + float(nhmsbc1)/1000000 |
260 |
timebc2 = float(nymdbc2) + float(nhmsbc2)/1000000 |
timebc2 = float(nymdbc2) + float(nhmsbc2)/1000000 |
261 |
if (timemod .lt. timebc1 .or. timemod .ge. timebc2) then |
|
262 |
|
if (timemod .lt. timebc1 .or. timemod .ge. timebc2) then |
263 |
do while (.not.found .and. nd .le. ndatebc) |
|
264 |
timebc2 = float(nymdbc(nd)) + float(nhmsbc(nd))/1000000 |
do while (.not.found .and. nd .le. ndatebc) |
265 |
if (timebc2 .gt. timemod) then |
timebc2 = float(nymdbc(nd)) + float(nhmsbc(nd))/1000000 |
266 |
nymdbc1 = nymdbc(nd-1) |
if (timebc2 .gt. timemod) then |
267 |
nymdbc2 = nymdbc(nd) |
nymdbc1 = nymdbc(nd-1) |
268 |
nhmsbc1 = nhmsbc(nd-1) |
nymdbc2 = nymdbc(nd) |
269 |
nhmsbc2 = nhmsbc(nd) |
nhmsbc1 = nhmsbc(nd-1) |
270 |
if ( lattice%myid.eq.0 ) call bcdata (iunit, imbc, jmbc, nd, nd+1, sicebc1, sicebc2) |
nhmsbc2 = nhmsbc(nd) |
271 |
#if (mpi) |
call bcdata (iunit, imbc, jmbc, nd, nd+1, sicebc1, sicebc2) |
272 |
call mpi_bcast ( sicebc1,lattice%imglobal*lattice%jmglobal,mpi_double_precision,0,lattice%comm,ierror ) |
found = .true. |
273 |
call mpi_bcast ( sicebc2,lattice%imglobal*lattice%jmglobal,mpi_double_precision,0,lattice%comm,ierror ) |
else |
274 |
#endif |
nd = nd + 1 |
275 |
found = .true. |
endif |
276 |
else |
enddo |
|
nd = nd + 1 |
|
|
endif |
|
|
enddo |
|
277 |
|
|
278 |
c Otherwise the data from the last time in getsice surrounds the |
c Otherwise the data from the last time in getsice surrounds the |
279 |
c current model time. |
c current model time. |
280 |
|
|
281 |
else |
else |
282 |
found = .true. |
found = .true. |
283 |
endif |
endif |
284 |
|
|
285 |
if (.not.found) then |
if (.not.found) then |
286 |
if( lattice%myid.eq.0 ) print *, 'STOP: Could not find SICE boundary condition dates surrounding the model time.' |
print *, 'STOP: Could not find SICE dates for model time.' |
287 |
call my_finalize |
call my_finalize |
288 |
call my_exit (101) |
call my_exit (101) |
289 |
endif |
endif |
290 |
|
|
291 |
C---------- Interpolate sice data ------------------------------------ |
C---------- Interpolate sice data ------------------------------------ |
292 |
|
|
293 |
call interp_time ( nymdmod,nhms, nymdbc1,nhmsbc1, nymdbc2,nhmsbc2, fac1,fac2 ) |
call interp_time(nymdmod,nhms,nymdbc1,nhmsbc1,nymdbc2,nhmsbc2, |
294 |
|
. fac1,fac2) |
295 |
|
|
296 |
do j = 1, jm |
do j = jm1,jm2 |
297 |
do i = 1, im |
do i = im1,im2 |
298 |
sice(i,j) = sicebc1( lattice%iglobal(i),lattice%jglobal(j) )*fac1 |
sice(i,j,bi,bj) = sicebc1(i,j,biglobal,bjglobal)*fac1 |
299 |
. + sicebc2( lattice%iglobal(i),lattice%jglobal(j) )*fac2 |
. + sicebc2(i,j,biglobal,bjglobal)*fac2 |
300 |
c average to 0 or 1 |
c average to 0 or 1 |
301 |
c ----------------- |
c ----------------- |
302 |
if (sice(i,j) .ge. 0.5) then |
if (sice(i,j,bi,bj) .ge. 0.5) then |
303 |
sice(i,j) = 1. |
sice(i,j,bi,bj) = 1. |
304 |
else |
else |
305 |
sice(i,j) = 0. |
sice(i,j,bi,bj) = 0. |
306 |
endif |
endif |
307 |
enddo |
enddo |
308 |
enddo |
enddo |
309 |
|
|
310 |
C---------- Fill sice with depth of ice ------------------------------------ |
C---------- Fill sice with depth of ice ------------------------------------ |
311 |
|
do j = jm1,jm2 |
312 |
do j = 1, jm |
do i = im1,im2 |
313 |
do i = 1, im |
if (sice(i,j,bi,bj) .eq. 1.) then |
314 |
if (sice(i,j) .eq. 1.) then ! sea ice present |
sice(i,j,bi,bj) = 3. |
315 |
sice(i,j) = 3. |
endif |
316 |
endif |
enddo |
317 |
enddo |
enddo |
|
enddo |
|
|
|
|
318 |
C--------------------------------------------------------------------------- |
C--------------------------------------------------------------------------- |
319 |
|
|
320 |
return |
return |