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MISR_simulator.F @ 1583

Last change on this file since 1583 was 1279, checked in by Laurent Fairhead, 16 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: 13.7 KB

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1	!
2	! Copyright (c) 2009, Roger Marchand, version 1.2
3	! All rights reserved.
4	!
5	! Redistribution and use in source and binary forms, with or without modification, are permitted
6	! provided that the following conditions are met:
7	!
8	! * Redistributions of source code must retain the above copyright notice, this list of
9	! conditions and the following disclaimer.
10	! * Redistributions in binary form must reproduce the above copyright notice, this list
11	! of conditions and the following disclaimer in the documentation and/or other materials
12	! provided with the distribution.
13	! * Neither the name of the University of Washington nor the names of its contributors may be used
14	! to endorse or promote products derived from this software without specific prior written permission.
15	!
16	! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING,
17	! BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
18	! SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
19	! DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
20	! INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
21	! NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
22	!
23
24	SUBROUTINE MISR_simulator(
25	& npoints,
26	& nlev,
27	& ncol,
28	& sunlit,
29	& zfull,
30	& at,
31	& dtau_s,
32	& dtau_c,
33	& frac_out,
34	& fq_MISR_TAU_v_CTH,
35	& dist_model_layertops,
36	& MISR_mean_ztop,
37	& MISR_cldarea
38	& )
39
40
41	implicit none
42	integer n_MISR_CTH
43	parameter(n_MISR_CTH=16)
44
45	! -----
46	! Input
47	! -----
48
49	INTEGER npoints ! if ncol ==1, the number of model points in the horizontal grid
50	! else the number of GCM grid points
51
52	INTEGER nlev ! number of model vertical levels
53
54	INTEGER ncol ! number of model sub columns
55	! (must already be generated in via scops and passed to this
56	! routine via the variable frac_out )
57
58	INTEGER sunlit(npoints) ! 1 for day points, 0 for night time
59
60	REAL zfull(npoints,nlev) ! height (in meters) of full model levels (i.e. midpoints)
61	! zfull(npoints,1) is top level of model
62	! zfull(npoints,nlev) is bottom level of model (closest point to surface)
63
64	REAL at(npoints,nlev) ! temperature in each model level (K)
65
66	REAL dtau_s(npoints,nlev) ! visible wavelength cloud optical depth ... for "stratiform" condensate
67	! NOTE: this the cloud optical depth of only the
68	! the model cell (i,j)
69
70	REAL dtau_c(npoints,nlev) ! visible wavelength cloud optical depth ... for "convective" condensate
71	! NOTE: this the cloud optical depth of only the
72	! the model cell (i,j)
73
74	REAL frac_out(npoints,ncol,nlev) ! NOTE: only need if columns>1 ... subgrid scheme in use.
75
76	! ------
77	! Outputs
78	! ------
79
80	REAL fq_MISR_TAU_v_CTH(npoints,7,n_MISR_CTH)
81	REAL dist_model_layertops(npoints,n_MISR_CTH)
82	REAL MISR_cldarea(npoints) ! fractional area coverged by clouds
83	REAL MISR_mean_ztop(npoints) ! mean cloud top hieght(m) MISR would observe
84	! NOTE: == 0 if area ==0
85
86
87	! ------
88	! Working variables
89	! ------
90
91	REAL tau(npoints,ncol) ! total column optical depth ...
92
93	INTEGER j,ilev,ilev2,ibox
94	INTEGER itau
95
96	LOGICAL box_cloudy(npoints,ncol)
97
98	real isccp_taumin
99	real boxarea
100	real tauchk
101	REAL box_MISR_ztop(npoints,ncol) ! cloud top hieght(m) MISR would observe
102
103	integer thres_crossed_MISR
104	integer loop,iMISR_ztop
105
106	real dtau, cloud_dtau, MISR_penetration_height,ztest
107
108	real MISR_CTH_boundaries(n_MISR_CTH+1)
109
110	DATA MISR_CTH_boundaries / -99, 0, 0.5, 1, 1.5, 2, 2.5, 3,
111	c 4, 5, 7, 9, 11, 13, 15, 17, 99 /
112
113	DATA isccp_taumin / 0.3 /
114
115	tauchk = -1.*log(0.9999999)
116
117	!
118	! For each GCM cell or horizontal model grid point ...
119	!
120	do j=1,npoints
121
122	!
123	! estimate distribution of Model layer tops
124	!
125	dist_model_layertops(j,:)=0
126
127	do ilev=1,nlev
128
129	! define location of "layer top"
130	if(ilev.eq.1 .or. ilev.eq.nlev) then
131	ztest=zfull(j,ilev)
132	else
133	ztest=0.5*(zfull(j,ilev)+zfull(j,ilev-1))
134	endif
135
136	! find MISR layer that contains this level
137	! note, the first MISR level is "no height" level
138	iMISR_ztop=2
139	do loop=2,n_MISR_CTH
140
141	if ( ztest .gt.
142	& 1000*MISR_CTH_boundaries(loop+1) ) then
143
144	iMISR_ztop=loop+1
145	endif
146	enddo
147
148	dist_model_layertops(j,iMISR_ztop)=
149	& dist_model_layertops(j,iMISR_ztop)+1
150	enddo
151
152
153	!
154	! compute total cloud optical depth for each column
155	!
156	do ibox=1,ncol
157
158	! Initialize tau to zero in each subcolum
159	tau(j,ibox)=0.
160	box_cloudy(j,ibox)=.false.
161	box_MISR_ztop(j,ibox)=0
162
163	! initialize threshold detection for each sub column
164	thres_crossed_MISR=0;
165
166	do ilev=1,nlev
167
168	dtau=0
169
170	if (frac_out(j,ibox,ilev).eq.1) then
171	dtau = dtau_s(j,ilev)
172	endif
173
174	if (frac_out(j,ibox,ilev).eq.2) then
175	dtau = dtau_c(j,ilev)
176	end if
177
178	tau(j,ibox)=tau(j,ibox)+ dtau
179
180
181	! NOW for MISR ..
182	! if there a cloud ... start the counter ... store this height
183	if(thres_crossed_MISR .eq. 0 .and. dtau .gt. 0.) then
184
185	! first encountered a "cloud"
186	thres_crossed_MISR=1
187	cloud_dtau=0
188	endif
189
190	if( thres_crossed_MISR .lt. 99 .and.
191	& thres_crossed_MISR .gt. 0 ) then
192
193	if( dtau .eq. 0.) then
194
195	! we have come to the end of the current cloud
196	! layer without yet selecting a CTH boundary.
197	! ... restart cloud tau counter
198	cloud_dtau=0
199	else
200	! add current optical depth to count for
201	! the current cloud layer
202	cloud_dtau=cloud_dtau+dtau
203	endif
204
205	! if the cloud is continuous but optically thin (< 1)
206	! from above the current layer cloud top to the current level
207	! then MISR will like see a top below the top of the current
208	! layer
209	if( dtau.gt.0 .and. (cloud_dtau-dtau) .lt. 1) then
210
211	if(dtau .lt. 1 .or. ilev.eq.1 .or. ilev.eq.nlev) then
212
213	! MISR will likely penetrate to some point
214	! within this layer ... the middle
215	MISR_penetration_height=zfull(j,ilev)
216
217	else
218	! take the OD = 1.0 level into this layer
219	MISR_penetration_height=
220	& 0.5*(zfull(j,ilev)+zfull(j,ilev-1)) -
221	& 0.5*(zfull(j,ilev-1)-zfull(j,ilev+1))
222	& /dtau
223	endif
224
225	box_MISR_ztop(j,ibox)=MISR_penetration_height
226
227	endif
228
229	! check for a distinctive water layer
230	if(dtau .gt. 1 .and. at(j,ilev).gt.273 ) then
231
232	! must be a water cloud ...
233	! take this as CTH level
234	thres_crossed_MISR=99
235	endif
236
237	! if the total column optical depth is "large" than
238	! MISR can't seen anything else ... set current point as CTH level
239	if(tau(j,ibox) .gt. 5) then
240
241	thres_crossed_MISR=99
242	endif
243
244	endif ! MISR CTH booundary not set
245
246	enddo !ilev - loop over vertical levesl
247
248	! written by roj 5/2006
249	! check to see if there was a cloud for which we didn't
250	! set a MISR cloud top boundary
251	if( thres_crossed_MISR .eq. 1) then
252
253	! if the cloud has a total optical depth of greater
254	! than ~ 0.5 MISR will still likely pick up this cloud
255	! with a height near the true cloud top
256	! otherwise there should be no CTH
257	if( tau(j,ibox) .gt. 0.5) then
258
259	! keep MISR detected CTH
260
261	elseif(tau(j,ibox) .gt. 0.2) then
262
263	! MISR may detect but wont likley have a good height
264	box_MISR_ztop(j,ibox)=-1
265
266	else
267	! MISR not likely to even detect.
268	! so set as not cloudy
269	box_MISR_ztop(j,ibox)=0
270
271	endif
272
273	endif
274
275	enddo ! loop of subcolumns
276	enddo ! loop of gridpoints
277
278
279	!
280	! Modify MISR CTH for satellite spatial / pattern matcher effects
281	!
282	! Code in this region added by roj 5/2006 to account
283	! for spatial effect of the MISR pattern matcher.
284	! Basically, if a column is found between two neighbors
285	! at the same CTH, and that column has no hieght or
286	! a lower CTH, THEN misr will tend to but place the
287	! odd column at the same height as it neighbors.
288	!
289	! This setup assumes the columns represent a about a 1 to 4 km scale
290	! it will need to be modified significantly, otherwise
291	if(ncol.eq.1) then
292
293	! adjust based on neightboring points ... i.e. only 2D grid was input
294	do j=2,npoints-1
295
296	if(box_MISR_ztop(j-1,1).gt.0 .and.
297	& box_MISR_ztop(j+1,1).gt.0 ) then
298
299	if( abs( box_MISR_ztop(j-1,1) -
300	& box_MISR_ztop(j+1,1) ) .lt. 500
301	& .and.
302	& box_MISR_ztop(j,1) .lt.
303	& box_MISR_ztop(j+1,1) ) then
304
305	box_MISR_ztop(j,1) =
306	& box_MISR_ztop(j+1,1)
307	endif
308
309	endif
310	enddo
311	else
312
313	! adjust based on neighboring subcolumns ....
314	do ibox=2,ncol-1
315
316	if(box_MISR_ztop(1,ibox-1).gt.0 .and.
317	& box_MISR_ztop(1,ibox+1).gt.0 ) then
318
319	if( abs( box_MISR_ztop(1,ibox-1) -
320	& box_MISR_ztop(1,ibox+1) ) .lt. 500
321	& .and.
322	& box_MISR_ztop(1,ibox) .lt.
323	& box_MISR_ztop(1,ibox+1) ) then
324
325	box_MISR_ztop(1,ibox) =
326	& box_MISR_ztop(1,ibox+1)
327	endif
328
329	endif
330	enddo
331
332	endif
333
334	!
335	! DETERMINE CLOUD TYPE FREQUENCIES
336	!
337	! Now that ztop and tau have been determined,
338	! determine amount of each cloud type
339	boxarea=1./real(ncol)
340	do j=1,npoints
341
342	! reset frequencies -- modified loop structure, roj 5/2006
343	do ilev=1,7 ! "tau loop"
344	do ilev2=1,n_MISR_CTH
345	fq_MISR_TAU_v_CTH(j,ilev,ilev2)=0.
346	enddo
347	enddo
348
349	MISR_cldarea(j)=0.
350	MISR_mean_ztop(j)=0.
351
352	do ibox=1,ncol
353
354	if (tau(j,ibox) .gt. (tauchk)) then
355	box_cloudy(j,ibox)=.true.
356	endif
357
358	itau = 0
359
360	if (box_cloudy(j,ibox)) then
361
362	!determine optical depth category
363	if (tau(j,ibox) .lt. isccp_taumin) then
364	itau=1
365	else if (tau(j,ibox) .ge. isccp_taumin
366	& .and. tau(j,ibox) .lt. 1.3) then
367	itau=2
368	else if (tau(j,ibox) .ge. 1.3
369	& .and. tau(j,ibox) .lt. 3.6) then
370	itau=3
371	else if (tau(j,ibox) .ge. 3.6
372	& .and. tau(j,ibox) .lt. 9.4) then
373	itau=4
374	else if (tau(j,ibox) .ge. 9.4
375	& .and. tau(j,ibox) .lt. 23.) then
376	itau=5
377	else if (tau(j,ibox) .ge. 23.
378	& .and. tau(j,ibox) .lt. 60.) then
379	itau=6
380	else if (tau(j,ibox) .ge. 60.) then
381	itau=7
382	endif
383
384	endif
385
386	! update MISR histograms and summary metrics - roj 5/2005
387	if (sunlit(j).eq.1) then
388
389	!if cloudy added by roj 5/2005
390	if( box_MISR_ztop(j,ibox).eq.0) then
391
392	! no cloud detected
393	iMISR_ztop=0
394
395	elseif( box_MISR_ztop(j,ibox).eq.-1) then
396
397	! cloud can be detected but too thin to get CTH
398	iMISR_ztop=1
399
400	fq_MISR_TAU_v_CTH(j,itau,iMISR_ztop)=
401	& fq_MISR_TAU_v_CTH(j,itau,iMISR_ztop) + boxarea
402
403	else
404
405	!
406	! determine index for MISR bin set
407	!
408
409	iMISR_ztop=2
410
411	do loop=2,n_MISR_CTH
412
413	if ( box_MISR_ztop(j,ibox) .gt.
414	& 1000*MISR_CTH_boundaries(loop+1) ) then
415
416	iMISR_ztop=loop+1
417
418	endif
419	enddo
420
421	if(box_cloudy(j,ibox)) then
422
423	! there is an isccp clouds so itau(j) is defined
424	fq_MISR_TAU_v_CTH(j,itau,iMISR_ztop)=
425	& fq_MISR_TAU_v_CTH(j,itau,iMISR_ztop) + boxarea
426
427	else
428	! MISR CTH resolution is trying to fill in a
429	! broken cloud scene where there is no condensate.
430	! The MISR CTH-1D-OD product will only put in a cloud
431	! if the MISR cloud mask indicates cloud.
432	! therefore we will not include this column in the histogram
433	! in reality aerosoal and 3D effects or bright surfaces
434	! could fool the MISR cloud mask
435
436	! the alternative is to count as very thin cloud ??
437	! fq_MISR_TAU_v_CTH(1,iMISR_ztop)=
438	! & fq_MISR_TAU_v_CTH(1,iMISR_ztop) + boxarea
439	endif
440
441
442	MISR_mean_ztop(j)=MISR_mean_ztop(j)+
443	& box_MISR_ztop(j,ibox)*boxarea
444
445	MISR_cldarea(j)=MISR_cldarea(j) + boxarea
446
447	endif
448
449	endif ! is sunlight ?
450
451	enddo ! ibox - loop over subcolumns
452
453	if( MISR_cldarea(j) .gt. 0.) then
454	MISR_mean_ztop(j)= MISR_mean_ztop(j) / MISR_cldarea(j) ! roj 5/2006
455	endif
456
457	enddo ! loop over grid points
458
459	return
460	end

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