source: trunk/scripts/script_outputs/run_batch_sinobad.sh.o322 @ 40

Warning: no access to tty (Bad file descriptor).
Thus no job control in this shell.
appending ferret path
appending ferret path
 CSHRC: BINTYPE linux86_64 ...
 --> test d'imprimante :  hpl5.

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                 Bienvenue au LODYC
    Actuellement vous êtes logué sur zelos.locean-ipsl.upmc.fr

 09:50:09 up 196 days, 21:50,  0 users,  load average: 1,83, 1,71, 0,72
USER     TTY        LOGIN@   IDLE   JCPU   PCPU WHAT

TERM ... vt100
TTY .... n'est pas un tty
 > MACHINE TYPE determined now ... <linux>.
 > MQNDIR directory variable not declared...standard directory.

       ====================================================================
                    YaoI V.9 : PROJECT CREATION PROCEDURE                   
                    01.11.2008 (release 01.11.2008)                         
       ====================================================================
        LOCAL MACHINE BINARY TYPE FOUND ..... <linux>                      
       ====================================================================

 > Run of YaoI for project : sinobad
 > HEADERS generation not required: 
 >   the description file has not changed from the last generation of Y1sinobad.h and Y2sinobad.h.
 >   Pay attention all the warning showed in the generation process are not been displayed this way because of the non regeneration.
 >   If you want to force the regeneration remove the Yworkdir/ directory.
 > enter proc construction 
 Extern object : 
                 ../object/ncutil.o 
 > end proc construction 
 > start compilation 
 > end of compilation, start linking 

       =======================  PROJECT IS NOW READY  =====================
                           YaoI V.9 : END OF PROCEDURE                     
                           01.11.2008 (release 01.11.2008)                 
       ====================================================================
                           TOTAL COMPILATION TIME : 13 second(s)            
       ====================================================================


Starting Yao : YaoI V.9 01.11.2008 (release 01.11.2008)  -O3  
Project sinobad. 
(You are in double mode)
This is a parallel version of the application, the max number of threads that the system supports are: 24.
RUN OPTIMIZATION WITH M1QN3 .......
////////////////////////////////////////////////////////////////////////
//                       NEMO/YAO PROJECT                             //
//                     M. Berrada 02-2009                            //
//                  LOCEAN-IPSL.UPMC (Paris 6)                        //
//====================================================================//
norm_sup_diff_ta_c :  0.0000000000000000e+00
norm_2_diff_ta_c :  0.0000000000000000e+00
Yao#>
Yao#>xistate_init 1 ../data_in/file_rest/GYRE_00000424_restart.nc
start from rest_file
 Yao#>true_target_in_tab ta_c
Yao#>xinitnc ../data_out/exp_T.nc
Yao#>
Yao#>xwriteout 0 true ../data_out/exp_T.nc
Yao#>
Yao#>print_time OFF
Yao#>set_modeltime 0
Yao#>FORWARD
Yao#>
Yao#>
Yao#>xwriteout 50 obs_48 ../data_out/exp_T.nc
Yao#>savestate sshb  1   ij   50    A       1       ../data_out/sshb_obs_48.dat   
 704 state(s) selected saving module sshb
Yao#>savestate tb  1   ijk   50    A       1       ../data_out/tb_obs_48.dat   
 21824 state(s) selected saving module tb
Yao#>savestate sb  1   ijk   50    A       1       ../data_out/sb_obs_48.dat   
 21824 state(s) selected saving module sb
Yao#>savestate ub  1   ijk   50    A       1       ../data_out/ub_obs_48.dat   
 21824 state(s) selected saving module ub
Yao#>savestate vb  1   ijk   50    A       1       ../data_out/vb_obs_48.dat   
 21824 state(s) selected saving module vb
Yao#>
Yao#>loadobs sshb  1   ij   50    A       1       ../data_out/sshb_obs_48.dat D   
modul sshb: 704 data read ; 704 state(s) selected as obs (704 inserted + 0 overrided)
Yao#>loadobs tb  1   ijk   50    A       1       ../data_out/tb_obs_48.dat D   
modul tb: 21824 data read ; 21824 state(s) selected as obs (21824 inserted + 0 overrided)
Yao#>loadobs sb  1   ijk   50    A       1       ../data_out/sb_obs_48.dat D   
modul sb: 21824 data read ; 21824 state(s) selected as obs (21824 inserted + 0 overrided)
Yao#>loadobs ub  1   ijk   50    A       1       ../data_out/ub_obs_48.dat D   
modul ub: 21824 data read ; 21824 state(s) selected as obs (21824 inserted + 0 overrided)
Yao#>loadobs vb  1   ijk   50    A       1       ../data_out/vb_obs_48.dat D   
modul vb: 21824 data read ; 21824 state(s) selected as obs (21824 inserted + 0 overrided)
Yao#>
Yao#>
Yao#>
Yao#>xistate_init 1 ../data_in/file_rest/GYRE_00000400_restart.nc
start from rest_file
 Yao#>set_modeltime 0
Yao#>print_time OFF
Yao#>FORWARD
Yao#>
Yao#>xwriteout 0 init ../data_out/exp_T.nc
Yao#>xwriteout 50 forw0_48 ../data_out/exp_T.nc
Yao#>
Yao#>goto FINTEST
Yao#>
Yao#>set_modeltime 0
Yao#>setm_impres  5
Yao#>setm_io      6
Yao#>setm_mode    1
Yao#>set_nbiter   100
Yao#>setm_nsim    100
Yao#>setm_dxmin   1.0e-4
Yao#>setm_epsg    1.0e-10
Yao#>setm_ddf1    1
Yao#>runm

start run time: Tue Apr 26 09:50:30 2011

norm_sup_diff_ta_c :  5.6928683673747766e+00
norm_2_diff_ta_c :  2.9456930296697998e+01
norm_sup_diff_ta_c :  6.4456128245485527e+00
norm_2_diff_ta_c :  2.5358057811903969e+01
norm_sup_diff_ta_c :  6.5684672748454798e+00
norm_2_diff_ta_c :  2.5910609236589693e+01
norm_sup_diff_ta_c :  6.4682904636272180e+00
norm_2_diff_ta_c :  2.5272654891909998e+01
norm_sup_diff_ta_c :  6.4241515552409876e+00
norm_2_diff_ta_c :  2.5273839573783327e+01
norm_sup_diff_ta_c :  6.4976221477397669e+00
norm_2_diff_ta_c :  2.6027933104251819e+01
norm_sup_diff_ta_c :  6.4420472537883509e+00
norm_2_diff_ta_c :  2.5352006728036727e+01
norm_sup_diff_ta_c :  6.4418684398540247e+00
norm_2_diff_ta_c :  2.5350883241422451e+01
norm_sup_diff_ta_c :  6.4409824764140833e+00
norm_2_diff_ta_c :  2.5345420593959393e+01
norm_sup_diff_ta_c :  6.6385418331035364e+00
norm_2_diff_ta_c :  2.5933307557810213e+01
norm_sup_diff_ta_c :  6.4823833858379114e+00
norm_2_diff_ta_c :  2.5383526478692996e+01
norm_sup_diff_ta_c :  6.4819694911845911e+00
norm_2_diff_ta_c :  2.5382919579971695e+01
norm_sup_diff_ta_c :  6.4799200450786341e+00
norm_2_diff_ta_c :  2.5379978851884822e+01
norm_sup_diff_ta_c :  6.4701858913310755e+00
norm_2_diff_ta_c :  2.5367544567196965e+01
norm_sup_diff_ta_c :  6.7977506076701868e+00
norm_2_diff_ta_c :  2.6472100059374544e+01
norm_sup_diff_ta_c :  6.5451647197612512e+00
norm_2_diff_ta_c :  2.5472124089082534e+01
norm_sup_diff_ta_c :  6.5444146549113977e+00
norm_2_diff_ta_c :  2.5470631271124056e+01
norm_sup_diff_ta_c :  6.5407034313091028e+00
norm_2_diff_ta_c :  2.5463373364657119e+01
norm_sup_diff_ta_c :  6.5230738078960169e+00
norm_2_diff_ta_c :  2.5431910965081048e+01
norm_sup_diff_ta_c :  6.5072075282939661e+00
norm_2_diff_ta_c :  2.5407864869996192e+01
norm_sup_diff_ta_c :  6.4961010372050989e+00
norm_2_diff_ta_c :  2.5393444667264557e+01
norm_sup_diff_ta_c :  6.4883266841777552e+00
norm_2_diff_ta_c :  2.5384534932549929e+01
norm_sup_diff_ta_c :  6.4828845416911829e+00
norm_2_diff_ta_c :  2.5378879096119331e+01
norm_sup_diff_ta_c :  6.4845167552837122e+00
norm_2_diff_ta_c :  2.5380524855728378e+01
norm_sup_diff_ta_c :  6.4871837055095423e+00
norm_2_diff_ta_c :  2.5383307339528361e+01
norm_sup_diff_ta_c :  6.4863835727580774e+00
norm_2_diff_ta_c :  2.5382460911736413e+01
norm_sup_diff_ta_c :  6.4858237659343470e+00
norm_2_diff_ta_c :  2.5381874029423425e+01
norm_sup_diff_ta_c :  6.4854318057903040e+00
norm_2_diff_ta_c :  2.5381466493927661e+01
norm_sup_diff_ta_c :  6.4851571475871790e+00
norm_2_diff_ta_c :  2.5381183594325236e+01
norm_sup_diff_ta_c :  6.4849649822124231e+00
norm_2_diff_ta_c :  2.5380984144114944e+01
norm_sup_diff_ta_c :  6.4850226795085657e+00
norm_2_diff_ta_c :  2.5381043802479155e+01
norm_sup_diff_ta_c :  6.4851170932658899e+00
norm_2_diff_ta_c :  2.5381141000079062e+01
norm_sup_diff_ta_c :  6.4850884830363977e+00
norm_2_diff_ta_c :  2.5381112228820555e+01
norm_sup_diff_ta_c :  6.4850970661052454e+00
norm_2_diff_ta_c :  2.5381120227344230e+01
Yao#>(6) Arret sur dxmin pendant le line-search 

start run time ....: Tue Apr 26 09:50:30 2011
  end run time ....: Tue Apr 26 10:01:31 2011
  run duration ....: 661s

Yao#>xwriteout 0 fin ../data_out/exp_T.nc
Yao#>xwriteout 50 forwfin_48 ../data_out/exp_T.nc
Yao#>
Yao#>xrst_save ../data_in/file_rest/GYRE_00000400_restart_CONTROL_T.nc
Yao#>
Yao#>
Yao#>
Yao#>goto FINRUN
Yao#>

 m1qn3 (version 2.0b, december 1993): entry point
     dimension of the problem (n):    21824
     absolute precision on x (dxmin): 0.10E-03
     expected decrease for f (df1): 0.30E+04
     relative precision on g (epsg): 0.10E-09
     maximal number of iterations (niter):   100
     maximal number of simulations (nsim):   100
     printing level (impres):   5

 m1qn3: scalar initial scaling mode

     allocated memory (nrz) :   436488
     used memory :              414664
     number of updates :             8
     (y,s) pairs are stored in core memory

 m1qn3: cold start

     f         =  0.29733594E+04
     norm of g =  0.11778759E+03

 m1qn3a: descent direction -g: precon =  0.429E+00

 -------------------------------------------------------------------------------

 m1qn3: iter   1, simul   1, f= 0.29733594E+04, h'(0)=-0.59467D+04

 m1qn3: line search

     mlis0       fpn=-0.595E+04 d2= 0.25E+04  tmin= 0.96E-05 tmax= 0.10E+21
     mlis3     0.100E+01 -0.243E+04 -0.421E+03

 m1qn3: matrix update:
     oren-spedicato factor =  0.411E+00

 m1qn3: stopping criterion on g:  0.33231E+00

 m1qn3: descent direction d: angle(-g,d) =  17.7 degrees

 -------------------------------------------------------------------------------

 m1qn3: iter   2, simul   2, f= 0.54576740E+03, h'(0)=-0.72852D+03

 m1qn3: line search

     mlis0       fpn=-0.729E+03 d2= 0.38E+03  tmin= 0.37E-04 tmax= 0.10E+21
     mlis3     0.100E+01 -0.301E+03  0.723E+02

 m1qn3: convergence rate, s(k)/s(k-1) =  0.38691E+00

 m1qn3: matrix update:
     oren-spedicato factor =  0.346E+00

 m1qn3: stopping criterion on g:  0.20463E+00

 m1qn3: descent direction d: angle(-g,d) =  25.3 degrees

 -------------------------------------------------------------------------------

 m1qn3: iter   3, simul   3, f= 0.24504416E+03, h'(0)=-0.17172D+03

 m1qn3: line search

     mlis0       fpn=-0.172E+03 d2= 0.62E+02  tmin= 0.10E-03 tmax= 0.10E+21
     mlis2                                      0.100E+01  0.178E+02  0.774E+02
     mlis3     0.339E+00 -0.301E+02 -0.810E+02

 m1qn3: convergence rate, s(k)/s(k-1) =  0.13676E+00

 m1qn3: matrix update:
     oren-spedicato factor =  0.126E+00

 m1qn3: stopping criterion on g:  0.12375E+00

 m1qn3: descent direction d: angle(-g,d) =  21.1 degrees

 -------------------------------------------------------------------------------

 m1qn3: iter   4, simul   5, f= 0.21490956E+03, h'(0)=-0.64216D+02

 m1qn3: line search

     mlis0       fpn=-0.642E+02 d2= 0.22E+02  tmin= 0.14E-03 tmax= 0.10E+21
     mlis3     0.100E+01 -0.126E+02 -0.176E+02

 m1qn3: convergence rate, s(k)/s(k-1) =  0.17682E+01

 m1qn3: matrix update:
     oren-spedicato factor =  0.216E+00

 m1qn3: stopping criterion on g:  0.10386E+00

 m1qn3: descent direction d: angle(-g,d) =  42.7 degrees

 -------------------------------------------------------------------------------

 m1qn3: iter   5, simul   6, f= 0.20227124E+03, h'(0)=-0.48986D+02

 m1qn3: line search

     mlis0       fpn=-0.490E+02 d2= 0.30E+02  tmin= 0.95E-04 tmax= 0.10E+21
     mlis2                                      0.100E+01  0.150E+02  0.215E+02
     mlis2                                      0.244E+00  0.773E-01 -0.314E+02
     mlis2                                      0.241E+00  0.151E+00 -0.316E+02
     mlis3     0.229E+00 -0.436E+01 -0.328E+02

 m1qn3: convergence rate, s(k)/s(k-1) =  0.26415E+00

 m1qn3: matrix update:
     oren-spedicato factor =  0.180E+00

 m1qn3: stopping criterion on g:  0.92139E-01

 m1qn3: descent direction d: angle(-g,d) =  38.2 degrees

 -------------------------------------------------------------------------------

 m1qn3: iter   6, simul  10, f= 0.19791341E+03, h'(0)=-0.43879D+02

 m1qn3: line search

     mlis0       fpn=-0.439E+02 d2= 0.26E+02  tmin= 0.74E-04 tmax= 0.10E+21
     mlis2                                      0.100E+01  0.163E+02  0.116E+02
     mlis2                                      0.210E+00  0.136E+00 -0.335E+02
     mlis2                                      0.207E+00  0.210E+00 -0.336E+02
     mlis2                                      0.197E+00  0.607E+00 -0.342E+02
     mlis3     0.148E+00 -0.515E+01 -0.368E+02

 m1qn3: convergence rate, s(k)/s(k-1) =  0.60951E+00

 m1qn3: matrix update:
     oren-spedicato factor =  0.236E+00

 m1qn3: stopping criterion on g:  0.82234E-01

 m1qn3: descent direction d: angle(-g,d) =  35.6 degrees

 -------------------------------------------------------------------------------

 m1qn3: iter   7, simul  15, f= 0.19276703E+03, h'(0)=-0.52331D+02

 m1qn3: line search

     mlis0       fpn=-0.523E+02 d2= 0.44E+02  tmin= 0.59E-04 tmax= 0.10E+21
     mlis2                                      0.100E+01  0.171E+02  0.181E+02
     mlis2                                      0.229E+00  0.216E+00 -0.350E+02
     mlis2                                      0.227E+00  0.297E+00 -0.352E+02
     mlis2                                      0.215E+00  0.970E+00 -0.373E+02
     mlis2                                      0.161E+00  0.344E+00 -0.410E+02
     mlis2                                      0.113E+00  0.259E+01 -0.443E+02
     mlis2                                      0.791E-01  0.615E+01 -0.460E+02
     mlis2                                      0.554E-01  0.587E+01 -0.481E+02
     mlis3     0.388E-01 -0.199E+01 -0.497E+02
     mlis3     0.438E-01 -0.223E+01 -0.493E+02
     mlis2                                      0.519E-01  0.487E+01 -0.488E+02
     mlis2                                      0.494E-01  0.498E+01 -0.490E+02
     mlis2                                      0.477E-01  0.507E+01 -0.491E+02
     mlis2                                      0.465E-01  0.513E+01 -0.491E+02
     mlis2                                      0.457E-01  0.518E+01 -0.492E+02
     mlis3     0.451E-01 -0.230E+01 -0.493E+02
     mlis3     0.453E-01 -0.231E+01 -0.492E+02
     mlis2                                      0.456E-01  0.518E+01 -0.492E+02
     mlis3     0.455E-01 -0.232E+01 -0.492E+02
     mlis2                                      0.455E-01  0.518E+01 -0.492E+02

     mlis1   STOP on tmin        step           functions     derivatives
     mlis5                  0.45495603E-01    0.19044658E+03 -0.492E+02
     mlis5                  0.45521464E-01    0.19795140E+03 -0.492E+02

 -------------------------------------------------------------------------------

 m1qn3: output mode is  6
     number of iterations:    7
     number of simulations:     35
     realized relative precision on g:  0.82E-01
     norm of x =  0.19350844E+04
     f         =  0.19044658E+03
     norm of g =  0.94057922E+01