source: LMDZ4/branches/LMDZ4V5.0-LF/libf/cosp/scops.F @ 2654

Last change on this file since 2654 was 1279, checked in by Laurent Fairhead, 15 years ago

Merged LMDZ4-dev branch changes r1241:1278 into the trunk
Running trunk and LMDZ4-dev in LMDZOR configuration on local
machine (sequential) and SX8 (4-proc) yields identical results
(restart and restartphy are identical binarily)
Log history from r1241 to r1278 is available by switching to
source:LMDZ4/branches/LMDZ4-dev-20091210

File size: 11.4 KB
Line 
1      subroutine scops(npoints,nlev,ncol,seed,cc,conv,
2     &                 overlap,frac_out,ncolprint)
3
4
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38! *****************************COPYRIGHT*******************************
39! *****************************COPYRIGHT*******************************
40
41      implicit none
42
43      INTEGER npoints       !  number of model points in the horizontal
44      INTEGER nlev          !  number of model levels in column
45      INTEGER ncol          !  number of subcolumns
46
47
48      INTEGER overlap         !  overlap type
49                              !  1=max
50                              !  2=rand
51                              !  3=max/rand
52      REAL cc(npoints,nlev)
53                  !  input cloud cover in each model level (fraction)
54                  !  NOTE:  This is the HORIZONTAL area of each
55                  !         grid box covered by clouds
56
57      REAL conv(npoints,nlev)
58                  !  input convective cloud cover in each model
59                  !   level (fraction)
60                  !  NOTE:  This is the HORIZONTAL area of each
61                  !         grid box covered by convective clouds
62
63      INTEGER i,j,ilev,ibox,ncolprint,ilev2
64
65      REAL frac_out(npoints,ncol,nlev) ! boxes gridbox divided up into
66                              ! Equivalent of BOX in original version, but
67                              ! indexed by column then row, rather than
68                              ! by row then column
69
70
71      INTEGER seed(npoints)
72      !  seed values for marsaglia  random number generator
73      !  It is recommended that the seed is set
74      !  to a different value for each model
75      !  gridbox it is called on, as it is
76      !  possible that the choice of the same
77      !  seed value every time may introduce some
78      !  statistical bias in the results, particularly
79      !  for low values of NCOL.
80
81      REAL tca(npoints,0:nlev) ! total cloud cover in each model level (fraction)
82                                        ! with extra layer of zeroes on top
83                                        ! in this version this just contains the values input
84                                        ! from cc but with an extra level
85
86      REAL threshold(npoints,ncol)   ! pointer to position in gridbox
87      REAL maxocc(npoints,ncol)      ! Flag for max overlapped conv cld
88      REAL maxosc(npoints,ncol)      ! Flag for max overlapped strat cld
89
90      REAL boxpos(npoints,ncol)      ! ordered pointer to position in gridbox
91
92      REAL threshold_min(npoints,ncol) ! minimum value to define range in with new threshold
93                                        ! is chosen
94
95      REAL ran(npoints)                 ! vector of random numbers
96
97      INTEGER irand,i2_16,huge32,overflow_32  ! variables for RNG
98      PARAMETER(huge32=2147483647)
99      i2_16=65536
100
101      do ibox=1,ncol
102        do j=1,npoints
103        boxpos(j,ibox)=(ibox-.5)/ncol
104        enddo
105      enddo
106
107!     ---------------------------------------------------!
108!     Initialise working variables
109!     ---------------------------------------------------!
110
111!     Initialised frac_out to zero
112
113      do ilev=1,nlev
114        do ibox=1,ncol
115          do j=1,npoints
116          frac_out(j,ibox,ilev)=0.0
117          enddo
118        enddo
119      enddo
120
121!     assign 2d tca array using 1d input array cc
122
123      do j=1,npoints
124        tca(j,0)=0
125      enddo
126
127      do ilev=1,nlev
128        do j=1,npoints
129          tca(j,ilev)=cc(j,ilev)
130        enddo
131      enddo
132
133      if (ncolprint.ne.0) then
134        write (6,'(a)') 'frac_out_pp_rev:'
135          do j=1,npoints,1000
136          write(6,'(a10)') 'j='
137          write(6,'(8I10)') j
138          write (6,'(8f5.2)')
139     &     ((frac_out(j,ibox,ilev),ibox=1,ncolprint),ilev=1,nlev)
140
141          enddo
142        write (6,'(a)') 'ncol:'
143        write (6,'(I3)') ncol
144      endif
145      if (ncolprint.ne.0) then
146        write (6,'(a)') 'last_frac_pp:'
147          do j=1,npoints,1000
148          write(6,'(a10)') 'j='
149          write(6,'(8I10)') j
150          write (6,'(8f5.2)') (tca(j,0))
151          enddo
152      endif
153
154!     ---------------------------------------------------!
155!     ALLOCATE CLOUD INTO BOXES, FOR NCOLUMNS, NLEVELS
156!     frac_out is the array that contains the information
157!     where 0 is no cloud, 1 is a stratiform cloud and 2 is a
158!     convective cloud
159     
160      !loop over vertical levels
161      DO 200 ilev = 1,nlev
162                                 
163!     Initialise threshold
164
165        IF (ilev.eq.1) then
166          ! If max overlap
167          IF (overlap.eq.1) then
168            ! select pixels spread evenly
169            ! across the gridbox
170              DO ibox=1,ncol
171                do j=1,npoints
172                  threshold(j,ibox)=boxpos(j,ibox)
173                enddo
174              enddo
175          ELSE
176              DO ibox=1,ncol
177                include 'congvec.h'
178                ! select random pixels from the non-convective
179                ! part the gridbox ( some will be converted into
180                ! convective pixels below )
181                do j=1,npoints
182                  threshold(j,ibox)=
183     &            conv(j,ilev)+(1-conv(j,ilev))*ran(j)
184                enddo
185              enddo
186            ENDIF
187            IF (ncolprint.ne.0) then
188              write (6,'(a)') 'threshold_nsf2:'
189                do j=1,npoints,1000
190                write(6,'(a10)') 'j='
191                write(6,'(8I10)') j
192                write (6,'(8f5.2)') (threshold(j,ibox),ibox=1,ncolprint)
193                enddo
194            ENDIF
195        ENDIF
196
197        IF (ncolprint.ne.0) then
198            write (6,'(a)') 'ilev:'
199            write (6,'(I2)') ilev
200        ENDIF
201
202        DO ibox=1,ncol
203
204          ! All versions
205          do j=1,npoints
206            if (boxpos(j,ibox).le.conv(j,ilev)) then
207              maxocc(j,ibox) = 1.
208            else
209              maxocc(j,ibox) = 0.
210            end if
211          enddo
212
213          ! Max overlap
214          if (overlap.eq.1) then
215            do j=1,npoints
216              threshold_min(j,ibox)=conv(j,ilev)
217              maxosc(j,ibox)=1
218            enddo
219          endif
220
221          ! Random overlap
222          if (overlap.eq.2) then
223            do j=1,npoints
224              threshold_min(j,ibox)=conv(j,ilev)
225              maxosc(j,ibox)=0
226            enddo
227          endif
228
229          ! Max/Random overlap
230          if (overlap.eq.3) then
231            do j=1,npoints
232              threshold_min(j,ibox)=max(conv(j,ilev),
233     &          min(tca(j,ilev-1),tca(j,ilev)))
234              if (threshold(j,ibox)
235     &          .lt.min(tca(j,ilev-1),tca(j,ilev))
236     &          .and.(threshold(j,ibox).gt.conv(j,ilev))) then
237                   maxosc(j,ibox)= 1
238              else
239                   maxosc(j,ibox)= 0
240              end if
241            enddo
242          endif
243   
244          ! Reset threshold
245
246          include 'congvec.h'
247
248          do j=1,npoints
249            threshold(j,ibox)=
250              !if max overlapped conv cloud
251     &        maxocc(j,ibox) * (                                       
252     &            boxpos(j,ibox)                                               
253     &        ) +                                                     
254              !else
255     &        (1-maxocc(j,ibox)) * (                                   
256                  !if max overlapped strat cloud
257     &            (maxosc(j,ibox)) * (                                 
258                      !threshold=boxpos
259     &                threshold(j,ibox)                                       
260     &            ) +                                                 
261                  !else
262     &            (1-maxosc(j,ibox)) * (                               
263                      !threshold_min=random[thrmin,1]
264     &                threshold_min(j,ibox)+
265     &                  (1-threshold_min(j,ibox))*ran(j) 
266     &           )
267     &        )
268          enddo
269
270        ENDDO ! ibox
271
272!          Fill frac_out with 1's where tca is greater than the threshold
273
274           DO ibox=1,ncol
275             do j=1,npoints
276               if (tca(j,ilev).gt.threshold(j,ibox)) then
277               frac_out(j,ibox,ilev)=1
278               else
279               frac_out(j,ibox,ilev)=0
280               end if               
281             enddo
282           ENDDO
283
284!         Code to partition boxes into startiform and convective parts
285!         goes here
286
287           DO ibox=1,ncol
288             do j=1,npoints
289                if (threshold(j,ibox).le.conv(j,ilev)) then
290                    ! = 2 IF threshold le conv(j)
291                    frac_out(j,ibox,ilev) = 2
292                else
293                    ! = the same IF NOT threshold le conv(j)
294                    frac_out(j,ibox,ilev) = frac_out(j,ibox,ilev)
295                end if
296             enddo
297           ENDDO
298
299!         Set last_frac to tca at this level, so as to be tca
300!         from last level next time round
301
302          if (ncolprint.ne.0) then
303
304            do j=1,npoints ,1000
305            write(6,'(a10)') 'j='
306            write(6,'(8I10)') j
307            write (6,'(a)') 'last_frac:'
308            write (6,'(8f5.2)') (tca(j,ilev-1))
309   
310            write (6,'(a)') 'conv:'
311            write (6,'(8f5.2)') (conv(j,ilev),ibox=1,ncolprint)
312   
313            write (6,'(a)') 'max_overlap_cc:'
314            write (6,'(8f5.2)') (maxocc(j,ibox),ibox=1,ncolprint)
315   
316            write (6,'(a)') 'max_overlap_sc:'
317            write (6,'(8f5.2)') (maxosc(j,ibox),ibox=1,ncolprint)
318   
319            write (6,'(a)') 'threshold_min_nsf2:'
320            write (6,'(8f5.2)') (threshold_min(j,ibox),ibox=1,ncolprint)
321   
322            write (6,'(a)') 'threshold_nsf2:'
323            write (6,'(8f5.2)') (threshold(j,ibox),ibox=1,ncolprint)
324   
325            write (6,'(a)') 'frac_out_pp_rev:'
326            write (6,'(8f5.2)')
327     &       ((frac_out(j,ibox,ilev2),ibox=1,ncolprint),ilev2=1,nlev)
328          enddo
329          endif
330
331200   CONTINUE    !loop over nlev
332
333
334      end
335
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