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mod_filtre_fft.F90 @ 5297

Last change on this file since 5297 was 5271, checked in by abarral, 7 days ago
Move dimensions.h into a module Nb: doesn't compile yet
Property copyright set to Name of program: LMDZ Creation date: 1984 Version: LMDZ5 License: CeCILL version 2 Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539 See the license file in the root directory Property svn:eol-style set to `native` Property svn:keywords set to `Author Date Id Revision`
File size: 6.9 KB

Line
1	!
2	! $Id: mod_filtre_fft.F90 5271 2024-10-24 14:25:39Z abarral $
3	!
4
5	MODULE mod_filtre_fft
6
7	LOGICAL,SAVE :: use_filtre_fft
8	REAL,SAVE,ALLOCATABLE :: Filtre_u(:,:)
9	REAL,SAVE,ALLOCATABLE :: Filtre_v(:,:)
10	REAL,SAVE,ALLOCATABLE :: Filtre_inv(:,:)
11
12	CONTAINS
13
14	SUBROUTINE Init_filtre_fft(coeffu,modfrstu,jfiltnu,jfiltsu,coeffv,modfrstv,jfiltnv,jfiltsv)
15	USE mod_fft
16	USE dimensions_mod, ONLY: iim, jjm, llm, ndm
17	IMPLICIT NONE
18
19	REAL, INTENT(IN) :: coeffu(iim,jjm)
20	INTEGER,INTENT(IN) :: modfrstu(jjm)
21	INTEGER,INTENT(IN) :: jfiltnu
22	INTEGER,INTENT(IN) :: jfiltsu
23	REAL, INTENT(IN) :: coeffv(iim,jjm)
24	INTEGER,INTENT(IN) :: modfrstv(jjm)
25	INTEGER,INTENT(IN) :: jfiltnv
26	INTEGER,INTENT(IN) :: jfiltsv
27
28	INTEGER :: index_vp(iim)
29	INTEGER :: i,j
30	INTEGER :: l,ll_nb
31
32	index_vp(1)=1
33	DO i=1,iim/2
34	index_vp(i+1)=i*2
35	ENDDO
36
37	DO i=1,iim/2-1
38	index_vp(iim/2+i+1)=iim-2*i+1
39	ENDDO
40
41	ALLOCATE(Filtre_u(iim,jjm))
42	ALLOCATE(Filtre_v(iim,jjm))
43	ALLOCATE(Filtre_inv(iim,jjm))
44
45
46	DO j=2,jfiltnu
47	DO i=1,iim
48	IF (index_vp(i) < modfrstu(j)) THEN
49	Filtre_u(i,j)=0
50	ELSE
51	Filtre_u(i,j)=coeffu(index_vp(i),j)
52	ENDIF
53	ENDDO
54	ENDDO
55
56	DO j=jfiltsu,jjm
57	DO i=1,iim
58	IF (index_vp(i) < modfrstu(j)) THEN
59	Filtre_u(i,j)=0
60	ELSE
61	Filtre_u(i,j)=coeffu(index_vp(i),j)
62	ENDIF
63	ENDDO
64	ENDDO
65
66	DO j=1,jfiltnv
67	DO i=1,iim
68	IF (index_vp(i) < modfrstv(j)) THEN
69	Filtre_v(i,j)=0
70	ELSE
71	Filtre_v(i,j)=coeffv(index_vp(i),j)
72	ENDIF
73	ENDDO
74	ENDDO
75
76	DO j=jfiltsv,jjm
77	DO i=1,iim
78	IF (index_vp(i) < modfrstv(j)) THEN
79	Filtre_v(i,j)=0
80	ELSE
81	Filtre_v(i,j)=coeffv(index_vp(i),j)
82	ENDIF
83	ENDDO
84	ENDDO
85
86	DO j=2,jfiltnu
87	DO i=1,iim
88	IF (index_vp(i) < modfrstu(j)) THEN
89	Filtre_inv(i,j)=0
90	ELSE
91	Filtre_inv(i,j)=coeffu(index_vp(i),j)/(1.+coeffu(index_vp(i),j))
92	ENDIF
93	ENDDO
94	ENDDO
95
96	DO j=jfiltsu,jjm
97	DO i=1,iim
98	IF (index_vp(i) < modfrstu(j)) THEN
99	Filtre_inv(i,j)=0
100	ELSE
101	Filtre_inv(i,j)=coeffu(index_vp(i),j)/(1.+coeffu(index_vp(i),j))
102	ENDIF
103	ENDDO
104	ENDDO
105
106	#ifdef FFT_FFTW
107
108	WRITE (,)"COTH jfiltnu,jfiltsu,jfiltnv,jjm-jfiltsv"
109	WRITE (,)jfiltnu,jfiltsu,jfiltnv,jjm-jfiltsv
110	WRITE (,)MAX(jfiltnu-2,jjm-jfiltsu,jfiltnv-2,jjm-jfiltsv)+1
111	CALL Init_FFT(iim,(llm+1)*(MAX(jfiltnu-2,jjm-jfiltsu,jfiltnv-2,jjm-jfiltsv)+1))
112	#else
113	CALL Init_FFT(iim,(jjm+1)*(llm+1))
114	#endif
115
116	END SUBROUTINE Init_filtre_fft
117
118	SUBROUTINE Filtre_u_fft(vect_inout,nlat,jj_begin,jj_end,nbniv)
119	USE mod_fft
120	#ifdef CPP_PARA
121	USE parallel_lmdz,ONLY : OMP_CHUNK
122	#endif
123	USE dimensions_mod, ONLY: iim, jjm, llm, ndm
124	IMPLICIT NONE
125
126	INTEGER,INTENT(IN) :: nlat
127	INTEGER,INTENT(IN) :: jj_begin
128	INTEGER,INTENT(IN) :: jj_end
129	INTEGER,INTENT(IN) :: nbniv
130	REAL,INTENT(INOUT) :: vect_inout(iim+1,nlat,nbniv)
131
132	REAL :: vect(iim+inc,jj_end-jj_begin+1,nbniv)
133	COMPLEX :: TF_vect(iim/2+1,jj_end-jj_begin+1,nbniv)
134	INTEGER :: nb_vect
135	INTEGER :: i,j,l
136	INTEGER :: ll_nb
137
138	ll_nb=0
139	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
140	DO l=1,nbniv
141	ll_nb=ll_nb+1
142	DO j=1,jj_end-jj_begin+1
143	DO i=1,iim+1
144	vect(i,j,ll_nb)=vect_inout(i,j+jj_begin-1,l)
145	ENDDO
146	ENDDO
147	ENDDO
148	!$OMP END DO NOWAIT
149
150	nb_vect=(jj_end-jj_begin+1)*ll_nb
151
152	CALL FFT_forward(vect,TF_vect,nb_vect)
153
154	DO l=1,ll_nb
155	DO j=1,jj_end-jj_begin+1
156	DO i=1,iim/2+1
157	TF_vect(i,j,l)=TF_vect(i,j,l)*Filtre_u(i,jj_begin+j-1)
158	ENDDO
159	ENDDO
160	ENDDO
161
162	CALL FFT_backward(TF_vect,vect,nb_vect)
163
164
165	ll_nb=0
166	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
167	DO l=1,nbniv
168	ll_nb=ll_nb+1
169	DO j=1,jj_end-jj_begin+1
170	DO i=1,iim+1
171	vect_inout(i,j+jj_begin-1,l)=vect(i,j,ll_nb)
172	ENDDO
173	ENDDO
174	ENDDO
175	!$OMP END DO NOWAIT
176
177	END SUBROUTINE Filtre_u_fft
178
179
180	SUBROUTINE Filtre_v_fft(vect_inout,nlat,jj_begin,jj_end,nbniv)
181	USE mod_fft
182	#ifdef CPP_PARA
183	USE parallel_lmdz,ONLY : OMP_CHUNK
184	#endif
185	USE dimensions_mod, ONLY: iim, jjm, llm, ndm
186	IMPLICIT NONE
187
188	INTEGER,INTENT(IN) :: nlat
189	INTEGER,INTENT(IN) :: jj_begin
190	INTEGER,INTENT(IN) :: jj_end
191	INTEGER,INTENT(IN) :: nbniv
192	REAL,INTENT(INOUT) :: vect_inout(iim+1,nlat,nbniv)
193
194	REAL :: vect(iim+inc,jj_end-jj_begin+1,nbniv)
195	COMPLEX :: TF_vect(iim/2+1,jj_end-jj_begin+1,nbniv)
196	INTEGER :: nb_vect
197	INTEGER :: i,j,l
198	INTEGER :: ll_nb
199
200	ll_nb=0
201	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
202	DO l=1,nbniv
203	ll_nb=ll_nb+1
204	DO j=1,jj_end-jj_begin+1
205	DO i=1,iim+1
206	vect(i,j,ll_nb)=vect_inout(i,j+jj_begin-1,l)
207	ENDDO
208	ENDDO
209	ENDDO
210	!$OMP END DO NOWAIT
211
212
213	nb_vect=(jj_end-jj_begin+1)*ll_nb
214
215	CALL FFT_forward(vect,TF_vect,nb_vect)
216
217	DO l=1,ll_nb
218	DO j=1,jj_end-jj_begin+1
219	DO i=1,iim/2+1
220	TF_vect(i,j,l)=TF_vect(i,j,l)*Filtre_v(i,jj_begin+j-1)
221	ENDDO
222	ENDDO
223	ENDDO
224
225	CALL FFT_backward(TF_vect,vect,nb_vect)
226
227
228	ll_nb=0
229	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
230	DO l=1,nbniv
231	ll_nb=ll_nb+1
232	DO j=1,jj_end-jj_begin+1
233	DO i=1,iim+1
234	vect_inout(i,j+jj_begin-1,l)=vect(i,j,ll_nb)
235	ENDDO
236	ENDDO
237	ENDDO
238	!$OMP END DO NOWAIT
239
240	END SUBROUTINE Filtre_v_fft
241
242
243	SUBROUTINE Filtre_inv_fft(vect_inout,nlat,jj_begin,jj_end,nbniv)
244	USE mod_fft
245	#ifdef CPP_PARA
246	USE parallel_lmdz,ONLY : OMP_CHUNK
247	#endif
248	USE dimensions_mod, ONLY: iim, jjm, llm, ndm
249	IMPLICIT NONE
250
251	INTEGER,INTENT(IN) :: nlat
252	INTEGER,INTENT(IN) :: jj_begin
253	INTEGER,INTENT(IN) :: jj_end
254	INTEGER,INTENT(IN) :: nbniv
255	REAL,INTENT(INOUT) :: vect_inout(iim+1,nlat,nbniv)
256
257	REAL :: vect(iim+inc,jj_end-jj_begin+1,nbniv)
258	COMPLEX :: TF_vect(iim/2+1,jj_end-jj_begin+1,nbniv)
259	INTEGER :: nb_vect
260	INTEGER :: i,j,l
261	INTEGER :: ll_nb
262
263	ll_nb=0
264	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
265	DO l=1,nbniv
266	ll_nb=ll_nb+1
267	DO j=1,jj_end-jj_begin+1
268	DO i=1,iim+1
269	vect(i,j,ll_nb)=vect_inout(i,j+jj_begin-1,l)
270	ENDDO
271	ENDDO
272	ENDDO
273	!$OMP END DO NOWAIT
274
275	nb_vect=(jj_end-jj_begin+1)*ll_nb
276
277	CALL FFT_forward(vect,TF_vect,nb_vect)
278
279	DO l=1,ll_nb
280	DO j=1,jj_end-jj_begin+1
281	DO i=1,iim/2+1
282	TF_vect(i,j,l)=TF_vect(i,j,l)*Filtre_inv(i,jj_begin+j-1)
283	ENDDO
284	ENDDO
285	ENDDO
286
287	CALL FFT_backward(TF_vect,vect,nb_vect)
288
289	ll_nb=0
290	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
291	DO l=1,nbniv
292	ll_nb=ll_nb+1
293	DO j=1,jj_end-jj_begin+1
294	DO i=1,iim+1
295	vect_inout(i,j+jj_begin-1,l)=vect(i,j,ll_nb)
296	ENDDO
297	ENDDO
298	ENDDO
299	!$OMP END DO NOWAIT
300
301	END SUBROUTINE Filtre_inv_fft
302
303	END MODULE mod_filtre_fft
304

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