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run_batch_sinobad.sh.o331

Last change on this file was 42, checked in by jbrlod, 13 years ago
finish ref run batch parallel and sequentiel
File size: 22.8 KB

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1	Warning: no access to tty (Bad file descriptor).
2	Thus no job control in this shell.
3	appending ferret path
4	appending ferret path
5	CSHRC: BINTYPE linux86_64 ...
6	--> test d'imprimante : hpl5.
7
8	***>> DISPLAY n'est pas défini. Pour le définir tapez d<NOMDUTERMINAL>
9	<NOMDUTERMINAL> correspond à l'écran où vous voulez faire afficher
10	vos fenêtres. Par exemple :
11
12	dboreas pour la Station Solaris boreas.lodyc.jussieu.fr:0 134.157.9.52:0
13	ddedale pour la Station Linux dedale.lodyc.jussieu.fr:0 134.157.9.123:0
14	calypso pour le Terminal X calypso.lodyc.jussieu.fr:0 134.157.9.3:0
15
16	Bienvenue au LODYC
17	Actuellement vous êtes logué sur zelos.locean-ipsl.upmc.fr
18
19	16:04:10 up 197 days, 4:04, 0 users, load average: 0,00, 0,18, 0,26
20	USER TTY LOGIN@ IDLE JCPU PCPU WHAT
21
22	TERM ... vt100
23	TTY .... n'est pas un tty
24	****************************************
25	* run reference experiment *
26	* (parallel) *
27	* 26/04/2011 *
28	* julien.brajard@locean-ipsl.upmc.fr *
29	****************************************
30	> MACHINE TYPE determined now ... <linux>.
31	> MQNDIR directory variable not declared...standard directory.
32
33	====================================================================
34	YaoI V.9 : PROJECT CREATION PROCEDURE
35	01.11.2008 (release 01.11.2008)
36	====================================================================
37	LOCAL MACHINE BINARY TYPE FOUND ..... <linux>
38	====================================================================
39
40	> Run of YaoI for project : sinobad
41	> enter proc generation
42	> Y1sinobad.h moved as \~
43	> Y2sinobad.h moved as \~
44	> Ysinobad.cpp moved as \~
45	> Ymain_sinobad.cpp moved as \~
46	> Ysinobad.o moved as \~
47	> Ymain_sinobad.o moved as \~
48	> sinobad moved as \~
49	> Yaoext_sinobad moved as \~
50	Warning: use of '#' for comments is deprecated, use C notation '//'
51
52	Warning in hat directive: the syntax for inserting the hat file should be:
53	> hat_name "name.h"
54	instead of deprecated
55	> hat_name name.
56	Please add quotation marks and extension.
57	YAO has corrected the problem, the hat file is:
58	sinobad.h
59
60	> trajectory boot size step offset type
61	---------- ---- ---- ---- ------ ----
62	Tcst 0 1 1 0 M
63	Tsbd 2 50 1 0 M
64	> operator/space shape parent type
65	-------------- -------- ------ ----
66	S0d 1 Tcst M
67	S3d 32 22 31 Tcst M
68	S3dt 32 22 31 Tsbd M
69
70
71	Parallelization profiling:
72	The number of threads used for the parallelism is: 16.
73	The number of total loops is 37 containing 82 total modules.
74	The number of parallelized loop is 28 containing 59 modules,
75	the percentage of parallel loops is 75.6757%
76	and the percentage of modules that have been parallelized is 71.9512%.
77	There are 5 modules not present in an order directive.
78	In the backward procedure:
79	The number of atomic update in the parallel regions is 109, the total number of update is 428.
80	The percentage of atomic update is 25.4673%
81
82	> execution time of the Yao code generator...0 second(s)
83	> headers are now created
84	> end proc generation
85	> enter proc construction
86	Extern object :
87	../object/ncutil.o
88	> end proc construction
89	> start compilation
90	> end of compilation, start linking
91
92	======================= PROJECT IS NOW READY =====================
93	YaoI V.9 : END OF PROCEDURE
94	01.11.2008 (release 01.11.2008)
95	====================================================================
96	TOTAL COMPILATION TIME : 11 second(s)
97	====================================================================
98
99
100	Starting Yao : YaoI V.9 01.11.2008 (release 01.11.2008) -O3
101	Project sinobad.
102	(You are in double mode)
103	This is a parallel version of the application, the max number of threads that the system supports are: 24.
104	RUN OPTIMIZATION WITH M1QN3 .......
105	////////////////////////////////////////////////////////////////////////
106	// NEMO/YAO PROJECT //
107	// M. Berrada 02-2009 //
108	// LOCEAN-IPSL.UPMC (Paris 6) //
109	//====================================================================//
110	norm_sup_diff_ta_c : 0.0000000000000000e+00
111	norm_2_diff_ta_c : 0.0000000000000000e+00
112	Yao#>
113	Yao#>xistate_init 1 ../data_in/file_rest/GYRE_00000424_restart.nc
114	start from rest_file
115	Yao#>true_target_in_tab ta_c
116	Yao#>xinitnc ../data_out/exp_T.nc
117	Yao#>
118	Yao#>xwriteout 0 true ../data_out/exp_T.nc
119	Yao#>
120	Yao#>print_time OFF
121	Yao#>set_modeltime 0
122	Yao#>FORWARD
123	Yao#>
124	Yao#>
125	Yao#>xwriteout 50 obs_48 ../data_out/exp_T.nc
126	Yao#>savestate sshb 1 ij 50 A 1 ../data_out/sshb_obs_48.dat
127	704 state(s) selected saving module sshb
128	Yao#>savestate tb 1 ijk 50 A 1 ../data_out/tb_obs_48.dat
129	21824 state(s) selected saving module tb
130	Yao#>savestate sb 1 ijk 50 A 1 ../data_out/sb_obs_48.dat
131	21824 state(s) selected saving module sb
132	Yao#>savestate ub 1 ijk 50 A 1 ../data_out/ub_obs_48.dat
133	21824 state(s) selected saving module ub
134	Yao#>savestate vb 1 ijk 50 A 1 ../data_out/vb_obs_48.dat
135	21824 state(s) selected saving module vb
136	Yao#>
137	Yao#>loadobs sshb 1 ij 50 A 1 ../data_out/sshb_obs_48.dat D
138	modul sshb: 704 data read ; 704 state(s) selected as obs (704 inserted + 0 overrided)
139	Yao#>loadobs tb 1 ijk 50 A 1 ../data_out/tb_obs_48.dat D
140	modul tb: 21824 data read ; 21824 state(s) selected as obs (21824 inserted + 0 overrided)
141	Yao#>loadobs sb 1 ijk 50 A 1 ../data_out/sb_obs_48.dat D
142	modul sb: 21824 data read ; 21824 state(s) selected as obs (21824 inserted + 0 overrided)
143	Yao#>loadobs ub 1 ijk 50 A 1 ../data_out/ub_obs_48.dat D
144	modul ub: 21824 data read ; 21824 state(s) selected as obs (21824 inserted + 0 overrided)
145	Yao#>loadobs vb 1 ijk 50 A 1 ../data_out/vb_obs_48.dat D
146	modul vb: 21824 data read ; 21824 state(s) selected as obs (21824 inserted + 0 overrided)
147	Yao#>
148	Yao#>
149	Yao#>
150	Yao#>xistate_init 1 ../data_in/file_rest/GYRE_00000400_restart.nc
151	start from rest_file
152	Yao#>set_modeltime 0
153	Yao#>print_time OFF
154	Yao#>FORWARD
155	Yao#>
156	Yao#>xwriteout 0 init ../data_out/exp_T.nc
157	Yao#>xwriteout 50 forw0_48 ../data_out/exp_T.nc
158	Yao#>
159	Yao#>goto FINTEST
160	Yao#>
161	Yao#>set_modeltime 0
162	Yao#>setm_impres 5
163	Yao#>setm_io 6
164	Yao#>setm_mode 1
165	Yao#>set_nbiter 100
166	Yao#>setm_nsim 100
167	Yao#>setm_dxmin 1.0e-4
168	Yao#>setm_epsg 1.0e-10
169	Yao#>setm_ddf1 1
170	Yao#>runm
171
172	start run time: Tue Apr 26 16:04:23 2011
173
174	norm_sup_diff_ta_c : 5.6957761203654993e+00
175	norm_2_diff_ta_c : 2.9458927804041817e+01
176	norm_sup_diff_ta_c : 6.4525837069643242e+00
177	norm_2_diff_ta_c : 2.5364756069289729e+01
178	norm_sup_diff_ta_c : 6.5694796001323450e+00
179	norm_2_diff_ta_c : 2.5910201309997589e+01
180	norm_sup_diff_ta_c : 6.4730238085878593e+00
181	norm_2_diff_ta_c : 2.5277352029028023e+01
182	norm_sup_diff_ta_c : 6.4239994441875208e+00
183	norm_2_diff_ta_c : 2.5277655022396658e+01
184	norm_sup_diff_ta_c : 6.4981752788432825e+00
185	norm_2_diff_ta_c : 2.6011383203801639e+01
186	norm_sup_diff_ta_c : 6.4431740199931848e+00
187	norm_2_diff_ta_c : 2.5361084473246660e+01
188	norm_sup_diff_ta_c : 6.4429823314555872e+00
189	norm_2_diff_ta_c : 2.5359877359486145e+01
190	norm_sup_diff_ta_c : 6.4420334255107630e+00
191	norm_2_diff_ta_c : 2.5354011151211974e+01
192	norm_sup_diff_ta_c : 6.4375249301799524e+00
193	norm_2_diff_ta_c : 2.5328662139641139e+01
194	norm_sup_diff_ta_c : 6.6143342410930384e+00
195	norm_2_diff_ta_c : 2.6066496113131752e+01
196	norm_sup_diff_ta_c : 6.4752818500407923e+00
197	norm_2_diff_ta_c : 2.5372534736558389e+01
198	norm_sup_diff_ta_c : 6.7013689433940637e+00
199	norm_2_diff_ta_c : 2.6234486389933608e+01
200	norm_sup_diff_ta_c : 6.5553413783916223e+00
201	norm_2_diff_ta_c : 2.5539378625795980e+01
202	norm_sup_diff_ta_c : 6.5545407688029993e+00
203	norm_2_diff_ta_c : 2.5536944541846530e+01
204	norm_sup_diff_ta_c : 6.5505777751811731e+00
205	norm_2_diff_ta_c : 2.5525120713987512e+01
206	norm_sup_diff_ta_c : 6.9657641803630579e+00
207	norm_2_diff_ta_c : 2.7331841099141510e+01
208	norm_sup_diff_ta_c : 6.6724058544048059e+00
209	norm_2_diff_ta_c : 2.5872523591600963e+01
210	norm_sup_diff_ta_c : 6.9938589488872278e+00
211	norm_2_diff_ta_c : 2.6992441893623258e+01
212	norm_sup_diff_ta_c : 7.1218420421489466e+00
213	norm_2_diff_ta_c : 2.7509855675717919e+01
214	norm_sup_diff_ta_c : 7.0236097728618372e+00
215	norm_2_diff_ta_c : 2.7094694365769563e+01
216	norm_sup_diff_ta_c : 7.3259350215800989e+00
217	norm_2_diff_ta_c : 2.9205030909929718e+01
218	norm_sup_diff_ta_c : 7.0799638187297571e+00
219	norm_2_diff_ta_c : 2.7362841880350924e+01
220	norm_sup_diff_ta_c : 7.0794001972087610e+00
221	norm_2_diff_ta_c : 2.7359860482350378e+01
222	norm_sup_diff_ta_c : 7.0766106998332727e+00
223	norm_2_diff_ta_c : 2.7345192094444286e+01
224	norm_sup_diff_ta_c : 7.0633603488811243e+00
225	norm_2_diff_ta_c : 2.7277530261132259e+01
226	norm_sup_diff_ta_c : 7.0514351283916223e+00
227	norm_2_diff_ta_c : 2.7219490206551317e+01
228	norm_sup_diff_ta_c : 7.1741358196147669e+00
229	norm_2_diff_ta_c : 2.8160627646491843e+01
230	norm_sup_diff_ta_c : 7.0728222286113489e+00
231	norm_2_diff_ta_c : 2.7324005716924308e+01
232
233	m1qn3 (version 2.0b, december 1993): entry point
234	dimension of the problem (n): 21824
235	absolute precision on x (dxmin): 0.10E-03
236	expected decrease for f (df1): 0.30E+04
237	relative precision on g (epsg): 0.10E-09
238	maximal number of iterations (niter): 100
239	maximal number of simulations (nsim): 100
240	printing level (impres): 5
241
242	m1qn3: scalar initial scaling mode
243
244	allocated memory (nrz) : 436488
245	used memory : 414664
246	number of updates : 8
247	(y,s) pairs are stored in core memory
248
249	m1qn3: cold start
250
251	f = 0.29733594E+04
252	norm of g = 0.11776870E+03
253
254	m1qn3a: descent direction -g: precon = 0.429E+00
255
256	-------------------------------------------------------------------------------
257
258	m1qn3: iter 1, simul 1, f= 0.29733594E+04, h'(0)=-0.59467D+04
259
260	m1qn3: line search
261
262	mlis0 fpn=-0.595E+04 d2= 0.25E+04 tmin= 0.96E-05 tmax= 0.10E+21
263	mlis3 0.100E+01 -0.243E+04 -0.420E+03
264
265	m1qn3: matrix update:
266	oren-spedicato factor = 0.411E+00
267
268	m1qn3: stopping criterion on g: 0.33221E+00
269
270	m1qn3: descent direction d: angle(-g,d) = 17.7 degrees
271
272	-------------------------------------------------------------------------------
273
274	m1qn3: iter 2, simul 2, f= 0.54561414E+03, h'(0)=-0.72774D+03
275
276	m1qn3: line search
277
278	mlis0 fpn=-0.728E+03 d2= 0.38E+03 tmin= 0.37E-04 tmax= 0.10E+21
279	mlis3 0.100E+01 -0.301E+03 0.724E+02
280
281	m1qn3: convergence rate, s(k)/s(k-1) = 0.38662E+00
282
283	m1qn3: matrix update:
284	oren-spedicato factor = 0.346E+00
285
286	m1qn3: stopping criterion on g: 0.20451E+00
287
288	m1qn3: descent direction d: angle(-g,d) = 25.3 degrees
289
290	-------------------------------------------------------------------------------
291
292	m1qn3: iter 3, simul 3, f= 0.24475352E+03, h'(0)=-0.17134D+03
293
294	m1qn3: line search
295
296	mlis0 fpn=-0.171E+03 d2= 0.62E+02 tmin= 0.10E-03 tmax= 0.10E+21
297	mlis2 0.100E+01 0.188E+02 0.777E+02
298	mlis3 0.335E+00 -0.295E+02 -0.818E+02
299
300	m1qn3: convergence rate, s(k)/s(k-1) = 0.13521E+00
301
302	m1qn3: matrix update:
303	oren-spedicato factor = 0.125E+00
304
305	m1qn3: stopping criterion on g: 0.12434E+00
306
307	m1qn3: descent direction d: angle(-g,d) = 21.1 degrees
308
309	-------------------------------------------------------------------------------
310
311	m1qn3: iter 4, simul 5, f= 0.21527711E+03, h'(0)=-0.65060D+02
312
313	m1qn3: line search
314
315	mlis0 fpn=-0.651E+02 d2= 0.23E+02 tmin= 0.14E-03 tmax= 0.10E+21
316	mlis3 0.100E+01 -0.132E+02 -0.174E+02
317
318	m1qn3: convergence rate, s(k)/s(k-1) = 0.18044E+01
319
320	m1qn3: matrix update:
321	oren-spedicato factor = 0.215E+00
322
323	m1qn3: stopping criterion on g: 0.10449E+00
324
325	m1qn3: descent direction d: angle(-g,d) = 42.9 degrees
326
327	-------------------------------------------------------------------------------
328
329	m1qn3: iter 5, simul 6, f= 0.20204126E+03, h'(0)=-0.48310D+02
330
331	m1qn3: line search
332
333	mlis0 fpn=-0.483E+02 d2= 0.29E+02 tmin= 0.97E-04 tmax= 0.10E+21
334	mlis2 0.100E+01 0.121E+02 0.187E+02
335	mlis2 0.259E+00 0.308E-01 -0.304E+02
336	mlis2 0.256E+00 0.692E-01 -0.305E+02
337	mlis2 0.243E+00 0.316E+00 -0.313E+02
338	mlis3 0.182E+00 -0.184E+01 -0.362E+02
339
340	m1qn3: convergence rate, s(k)/s(k-1) = 0.20514E+00
341
342	m1qn3: matrix update:
343	oren-spedicato factor = 0.139E+00
344
345	m1qn3: stopping criterion on g: 0.95869E-01
346
347	m1qn3: descent direction d: angle(-g,d) = 38.0 degrees
348
349	-------------------------------------------------------------------------------
350
351	m1qn3: iter 6, simul 11, f= 0.20019969E+03, h'(0)=-0.52585D+02
352
353	m1qn3: line search
354
355	mlis0 fpn=-0.526E+02 d2= 0.35E+02 tmin= 0.66E-04 tmax= 0.10E+21
356	mlis2 0.100E+01 0.227E+02 0.275E+02
357	mlis3 0.214E+00 -0.142E+01 -0.360E+02
358
359	m1qn3: convergence rate, s(k)/s(k-1) = 0.12925E+01
360
361	m1qn3: matrix update:
362	oren-spedicato factor = 0.150E+00
363
364	m1qn3: stopping criterion on g: 0.82567E-01
365
366	m1qn3: descent direction d: angle(-g,d) = 35.8 degrees
367
368	-------------------------------------------------------------------------------
369
370	m1qn3: iter 7, simul 13, f= 0.19878349E+03, h'(0)=-0.44408D+02
371
372	m1qn3: line search
373
374	mlis0 fpn=-0.444E+02 d2= 0.32E+02 tmin= 0.69E-04 tmax= 0.10E+21
375	mlis2 0.100E+01 0.192E+01 0.133E+02
376	mlis2 0.354E+00 0.136E+01 -0.273E+02
377	mlis2 0.351E+00 0.945E+00 -0.276E+02
378	mlis3 0.333E+00 -0.585E+01 -0.275E+02
379
380	m1qn3: convergence rate, s(k)/s(k-1) = 0.14855E+01
381
382	m1qn3: matrix update:
383	oren-spedicato factor = 0.133E+00
384
385	m1qn3: stopping criterion on g: 0.78750E-01
386
387	m1qn3: descent direction d: angle(-g,d) = 43.1 degrees
388
389	-------------------------------------------------------------------------------
390
391	m1qn3: iter 8, simul 17, f= 0.19293538E+03, h'(0)=-0.47398D+02
392
393	m1qn3: line search
394
395	mlis0 fpn=-0.474E+02 d2= 0.49E+02 tmin= 0.67E-04 tmax= 0.10E+21
396	mlis2 0.100E+01 0.152E+02 0.454E+02
397	mlis3 0.293E+00 -0.108E+02 -0.231E+02
398
399	m1qn3: convergence rate, s(k)/s(k-1) = 0.10953E+01
400
401	m1qn3: matrix update:
402	oren-spedicato factor = 0.242E+00
403
404	m1qn3: stopping criterion on g: 0.68289E-01
405
406	m1qn3: descent direction d: angle(-g,d) = 47.4 degrees
407
408	-------------------------------------------------------------------------------
409
410	m1qn3: iter 9, simul 19, f= 0.18213156E+03, h'(0)=-0.23784D+02
411
412	m1qn3: line search
413
414	mlis0 fpn=-0.238E+02 d2= 0.19E+02 tmin= 0.12E-03 tmax= 0.10E+21
415	mlis3 0.100E+01 -0.262E+01 0.157E+01
416
417	m1qn3: convergence rate, s(k)/s(k-1) = 0.21273E+01
418
419	m1qn3: matrix update:
420	oren-spedicato factor = 0.252E+00
421
422	m1qn3: stopping criterion on g: 0.77526E-01
423
424	m1qn3: descent direction d: angle(-g,d) = 50.4 degrees
425
426	-------------------------------------------------------------------------------
427
428	m1qn3: iter 10, simul 20, f= 0.17950673E+03, h'(0)=-0.13960D+02
429
430	m1qn3: line search
431
432	mlis0 fpn=-0.140E+02 d2= 0.57E+01 tmin= 0.21E-03 tmax= 0.10E+21
433	mlis2 0.100E+01 0.130E+01 -0.613E+01
434	mlis3 0.232E+00 -0.746E+00 -0.119E+02
435
436	m1qn3: convergence rate, s(k)/s(k-1) = 0.12746E+00
437
438	m1qn3: matrix update:
439	oren-spedicato factor = 0.341E-01
440
441	m1qn3: stopping criterion on g: 0.77492E-01
442
443	m1qn3: descent direction d: angle(-g,d) = 47.6 degrees
444
445	-------------------------------------------------------------------------------
446
447	m1qn3: iter 11, simul 22, f= 0.17876028E+03, h'(0)=-0.43376D+02
448
449	m1qn3: line search
450
451	mlis0 fpn=-0.434E+02 d2= 0.50E+02 tmin= 0.69E-04 tmax= 0.10E+21
452	mlis2 0.100E+01 0.238E+02 0.228E+02
453	mlis2 0.186E+00 0.508E-01 -0.281E+02
454	mlis2 0.185E+00 0.110E+00 -0.282E+02
455	mlis2 0.175E+00 0.315E+00 -0.289E+02
456	mlis2 0.131E+00 0.169E+01 -0.321E+02
457	mlis3 0.920E-01 -0.307E+01 -0.353E+02
458
459	m1qn3: convergence rate, s(k)/s(k-1) = 0.11652E+01
460
461	m1qn3: matrix update:
462	oren-spedicato factor = 0.151E+00
463
464	m1qn3: stopping criterion on g: 0.68888E-01
465
466	m1qn3: descent direction d: angle(-g,d) = 37.4 degrees
467
468	-------------------------------------------------------------------------------
469
470	m1qn3: iter 12, simul 28, f= 0.17569373E+03, h'(0)=-0.31251D+02
471
472	m1qn3: line search
473
474	mlis0 fpn=-0.313E+02 d2= 0.24E+02 tmin= 0.11E-03 tmax= 0.10E+21
475	mlis2 0.100E+01 0.154E+02 0.398E+01
476	mlis3 0.174E+00 -0.524E+00 -0.234E+02
477
478	m1qn3: convergence rate, s(k)/s(k-1) = 0.13020E+01
479
480	m1qn3: matrix update:
481	oren-spedicato factor = 0.759E-01
482
483	m1qn3: stopping criterion on g: 0.63335E-01
484
485	norm_sup_diff_ta_c : 7.3367048656352747e+00
486	norm_2_diff_ta_c : 2.9583294862566490e+01
487	norm_sup_diff_ta_c : 7.1169577991374720e+00
488	norm_2_diff_ta_c : 2.7602124338220236e+01
489	norm_sup_diff_ta_c : 7.3071843540080774e+00
490	norm_2_diff_ta_c : 3.0043100486932495e+01
491	norm_sup_diff_ta_c : 7.1400934612163294e+00
492	norm_2_diff_ta_c : 2.7814698337905291e+01
493	norm_sup_diff_ta_c : 7.1398621951946009e+00
494	norm_2_diff_ta_c : 2.7812449424164779e+01
495	norm_sup_diff_ta_c : 7.1387168323405970e+00
496	norm_2_diff_ta_c : 2.7801352960701074e+01
497	norm_sup_diff_ta_c : 7.1332770740398157e+00
498	norm_2_diff_ta_c : 2.7749472997647597e+01
499	norm_sup_diff_ta_c : 7.1283813869365442e+00
500	norm_2_diff_ta_c : 2.7703958029693364e+01
501	norm_sup_diff_ta_c : 7.2231961643108118e+00
502	norm_2_diff_ta_c : 2.8743583930850225e+01
503	norm_sup_diff_ta_c : 7.1424633418925989e+00
504	norm_2_diff_ta_c : 2.7834458045384906e+01
505	norm_sup_diff_ta_c : 7.1423226749309290e+00
506	norm_2_diff_ta_c : 2.7833110842932065e+01
507	norm_sup_diff_ta_c : 7.1416255390056360e+00
508	norm_2_diff_ta_c : 2.7826453189497322e+01
509	norm_sup_diff_ta_c : 7.1383143817790735e+00
510	norm_2_diff_ta_c : 2.7795115690263486e+01
511	norm_sup_diff_ta_c : 7.1353346263774622e+00
512	norm_2_diff_ta_c : 2.7767318265964022e+01
513	norm_sup_diff_ta_c : 7.1332484638103235e+00
514	norm_2_diff_ta_c : 2.7748088832739079e+01
515	norm_sup_diff_ta_c : 7.1338745509990442e+00
516	norm_2_diff_ta_c : 2.7753837924537869e+01
517	norm_sup_diff_ta_c : 7.1343122875102747e+00
518	norm_2_diff_ta_c : 2.7757872199172485e+01
519	norm_sup_diff_ta_c : 7.1341811572917688e+00
520	norm_2_diff_ta_c : 2.7756660616271883e+01
521	norm_sup_diff_ta_c : 7.1342202579387415e+00
522	norm_2_diff_ta_c : 2.7757024531087740e+01
523	norm_sup_diff_ta_c : 7.1342088138469446e+00
524	norm_2_diff_ta_c : 2.7756914985620227e+01
525	norm_sup_diff_ta_c : 7.1342002307780970e+00
526	norm_2_diff_ta_c : 2.7756839169203612e+01
527	norm_sup_diff_ta_c : 7.1341945087321985e+00
528	norm_2_diff_ta_c : 2.7756785474136279e+01
529	Yao#>(6) Arret sur dxmin pendant le line-search
530
531	start run time ....: Tue Apr 26 16:04:23 2011
532	end run time ....: Tue Apr 26 16:07:49 2011
533	run duration ....: 206s
534
535	Yao#>xwriteout 0 fin ../data_out/exp_T.nc
536	Yao#>xwriteout 50 forwfin_48 ../data_out/exp_T.nc
537	Yao#>
538	Yao#>xrst_save ../data_in/file_rest/GYRE_00000400_restart_CONTROL_T.nc
539	Yao#>
540	Yao#>
541	Yao#>
542	Yao#>goto FINRUN
543	Yao#>
544	m1qn3: descent direction d: angle(-g,d) = 49.6 degrees
545
546	-------------------------------------------------------------------------------
547
548	m1qn3: iter 13, simul 30, f= 0.17516956E+03, h'(0)=-0.32339D+02
549
550	m1qn3: line search
551
552	mlis0 fpn=-0.323E+02 d2= 0.45E+02 tmin= 0.77E-04 tmax= 0.10E+21
553	mlis2 0.100E+01 0.203E+02 0.143E+02
554	mlis3 0.167E+00 -0.616E+00 -0.249E+02
555
556	m1qn3: convergence rate, s(k)/s(k-1) = 0.13233E+01
557
558	m1qn3: matrix update:
559	oren-spedicato factor = 0.178E+00
560
561	m1qn3: stopping criterion on g: 0.60300E-01
562
563	m1qn3: descent direction d: angle(-g,d) = 49.2 degrees
564
565	-------------------------------------------------------------------------------
566
567	m1qn3: iter 14, simul 32, f= 0.17455342E+03, h'(0)=-0.32767D+02
568
569	m1qn3: line search
570
571	mlis0 fpn=-0.328E+02 d2= 0.50E+02 tmin= 0.81E-04 tmax= 0.10E+21
572	mlis2 0.100E+01 0.362E+02 0.248E+02
573	mlis2 0.122E+00 0.184E+00 -0.235E+02
574	mlis2 0.120E+00 0.213E+00 -0.236E+02
575	mlis2 0.114E+00 0.363E+00 -0.240E+02
576	mlis2 0.858E-01 0.792E+00 -0.253E+02
577	mlis3 0.601E-01 -0.308E+01 -0.258E+02
578
579	m1qn3: convergence rate, s(k)/s(k-1) = 0.37937E+00
580
581	m1qn3: matrix update:
582	oren-spedicato factor = 0.383E-01
583
584	m1qn3: stopping criterion on g: 0.54590E-01
585
586	m1qn3: descent direction d: angle(-g,d) = 50.5 degrees
587
588	-------------------------------------------------------------------------------
589
590	m1qn3: iter 15, simul 38, f= 0.17146970E+03, h'(0)=-0.13935D+02
591
592	m1qn3: line search
593
594	mlis0 fpn=-0.139E+02 d2= 0.12E+02 tmin= 0.16E-03 tmax= 0.10E+21
595	mlis2 0.100E+01 0.772E+01 -0.313E+01
596	mlis2 0.149E+00 0.165E+01 -0.131E+02
597	mlis2 0.147E+00 0.174E+01 -0.131E+02
598	mlis2 0.140E+00 0.175E+01 -0.132E+02
599	mlis2 0.105E+00 0.181E+01 -0.136E+02
600	mlis2 0.733E-01 0.244E+01 -0.138E+02
601	mlis3 0.513E-01 -0.551E+00 -0.133E+02
602	mlis3 0.579E-01 -0.727E+00 -0.132E+02
603	mlis2 0.626E-01 0.277E+01 -0.140E+02
604	mlis3 0.612E-01 -0.779E+00 -0.131E+02
605	mlis2 0.616E-01 0.278E+01 -0.140E+02
606	mlis2 0.615E-01 0.279E+01 -0.140E+02
607	mlis2 0.614E-01 0.279E+01 -0.140E+02
608	mlis2 0.613E-01 0.279E+01 -0.140E+02
609
610	mlis1 STOP on tmin step functions derivatives
611	mlis5 0.61167818E-01 0.17069031E+03 -0.131E+02
612	mlis5 0.61310437E-01 0.17425839E+03 -0.140E+02
613
614	-------------------------------------------------------------------------------
615
616	m1qn3: output mode is 6
617	number of iterations: 15
618	number of simulations: 52
619	realized relative precision on g: 0.55E-01
620	norm of x = 0.19348639E+04
621	f = 0.17069031E+03
622	norm of g = 0.70167274E+01

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