sifdecoder -A pc64.lnx.gfo -st   AKIVA

 Problem name: AKIVA

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: AKIVA (n = 2)
walltime at start:     0.000001
!!     AKIVA      2      10      21      11     0    6.6670154e-09    6.1660422e+00    0.000211

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.667015e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : AKIVA
# variables               = 2         

# cg iterations           = 10        

# cg function evals       = 21        

# cg gradient evals       = 11        

|| g ||                   = 6.6670154e-09   
Final f                   = 6.1660422e+00   
Function value at final x = 6.1660422e+00   
Solve time                = 0.000211    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ALLINITU

 Problem name: ALLINITU

 Double precision version will be formed

 The objective function uses 2 linear groups
 The objective function uses 10 nonlinear groups
 
 There are 4 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ALLINITU (n = 4)
walltime at start:     0.000001
!!  ALLINITU      4      12      29      18     0    3.3843223e-08    5.7443849e+00    0.000080

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.384322e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ALLINITU
# variables               = 4         

# cg iterations           = 12        

# cg function evals       = 29        

# cg gradient evals       = 18        

|| g ||                   = 3.3843223e-08   
Final f                   = 5.7443849e+00   
Function value at final x = 5.7443849e+00   
Solve time                = 0.000080    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ARGLINA

 Problem name: ARGLINA

 Double precision version will be formed

 The objective function uses 400 linear groups
 
 There are 200 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ARGLINA (n = 200)
the problem has a quadratic objective
walltime at start:     0.000001
!!   ARGLINA    200       1       0       2     0    4.2188475e-14    2.0000000e+02    0.000124

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.218847e-14 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ARGLINA
# variables               = 200       

# cg iterations           = 1         

# cg function evals       = 0         

# cg gradient evals       = 2         

|| g ||                   = 4.2188475e-14   
Final f                   = 2.0000000e+02   
Function value at final x = 2.0000000e+02   
Solve time                = 0.000124    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ARGLINB

 Problem name: ARGLINB

 Double precision version will be formed

 The objective function uses 400 linear groups
 
 There are 200 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ARGLINB (n = 200)
walltime at start:     0.000000
!!   ARGLINB    200       5      13      13     0    8.3382474e-09    9.9625468e+01    0.004704

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.338247e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ARGLINB
# variables               = 200       

# cg iterations           = 5         

# cg function evals       = 13        

# cg gradient evals       = 13        

|| g ||                   = 8.3382474e-09   
Final f                   = 9.9625468e+01   
Function value at final x = 9.9625468e+01   
Solve time                = 0.004704    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ARWHEAD

 Problem name: ARWHEAD

 Double precision version will be formed

 The objective function uses 4999 linear groups
 The objective function uses 4999 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ARWHEAD (n = 5000)
walltime at start:     0.000000
!!   ARWHEAD   5000       7      15       8     0    9.9119508e-07    0.0000000e+00    0.006921

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.911951e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ARWHEAD
# variables               = 5000      

# cg iterations           = 7         

# cg function evals       = 15        

# cg gradient evals       = 8         

|| g ||                   = 9.9119508e-07   
Final f                   = 0.0000000e+00   
Function value at final x = 0.0000000e+00   
Solve time                = 0.006921    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BARD

 Problem name: BARD

 Double precision version will be formed

 The objective function uses 15 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BARD (n = 3)
walltime at start:     0.000001
!!      BARD      3      16      33      17     0    3.4949567e-09    8.2148773e-03    0.000085

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.494957e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BARD
# variables               = 3         

# cg iterations           = 16        

# cg function evals       = 33        

# cg gradient evals       = 17        

|| g ||                   = 3.4949567e-09   
Final f                   = 8.2148773e-03   
Function value at final x = 8.2148773e-03   
Solve time                = 0.000085    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BDQRTIC

 Problem name: BDQRTIC

 Double precision version will be formed

 The objective function uses 4996 linear groups
 The objective function uses 4996 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BDQRTIC (n = 5000)
walltime at start:     0.000001
!!   BDQRTIC   5000     142     283     247     0    9.8823709e-07    2.0006257e+04    0.209956

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.882371e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BDQRTIC
# variables               = 5000      

# cg iterations           = 142       

# cg function evals       = 283       

# cg gradient evals       = 247       

|| g ||                   = 9.8823709e-07   
Final f                   = 2.0006257e+04   
Function value at final x = 2.0006257e+04   
Solve time                = 0.209956    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BEALE

 Problem name: BEALE

 Double precision version will be formed

 The objective function uses 3 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BEALE (n = 2)
walltime at start:     0.000000
!!     BEALE      2      15      31      16     0    4.4989214e-08    2.7264213e-15    0.000075

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.498921e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BEALE
# variables               = 2         

# cg iterations           = 15        

# cg function evals       = 31        

# cg gradient evals       = 16        

|| g ||                   = 4.4989214e-08   
Final f                   = 2.7264213e-15   
Function value at final x = 2.7264213e-15   
Solve time                = 0.000075    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BIGGS6

 Problem name: BIGGS6

 Double precision version will be formed

 The objective function uses 13 nonlinear groups
 
 There are 6 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BIGGS6 (n = 6)
walltime at start:     0.000001
!!    BIGGS6      6      27      57      31     0    2.5135430e-08    5.6556498e-03    0.000266

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.513543e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BIGGS6
# variables               = 6         

# cg iterations           = 27        

# cg function evals       = 57        

# cg gradient evals       = 31        

|| g ||                   = 2.5135430e-08   
Final f                   = 5.6556498e-03   
Function value at final x = 5.6556498e-03   
Solve time                = 0.000266    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BOX

 Problem name: BOX

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 40000 nonlinear groups
 
 There are 10000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BOX (n = 10000)
walltime at start:     0.000001
!!       BOX  10000       8      26      20     0    1.9746362e-07   -1.8645379e+03    0.030287

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.974636e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BOX
# variables               = 10000     

# cg iterations           = 8         

# cg function evals       = 26        

# cg gradient evals       = 20        

|| g ||                   = 1.9746362e-07   
Final f                   = -1.8645379e+03  
Function value at final x = -1.8645379e+03  
Solve time                = 0.030287    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BOX3

 Problem name: BOX3

 Double precision version will be formed

 The objective function uses 10 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BOX3 (n = 3)
walltime at start:     0.000001
!!      BOX3      3      11      24      13     0    7.5844458e-07    3.8194901e-13    0.000106

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.584446e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BOX3
# variables               = 3         

# cg iterations           = 11        

# cg function evals       = 24        

# cg gradient evals       = 13        

|| g ||                   = 7.5844458e-07   
Final f                   = 3.8194901e-13   
Function value at final x = 3.8194901e-13   
Solve time                = 0.000106    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BOXPOWER

 Problem name: BOXPOWER

 Double precision version will be formed

 The objective function uses 20000 nonlinear groups
 
 There are 20000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BOXPOWER (n = 20000)
walltime at start:     0.000000
!!  BOXPOWER  20000      23      57      36     0    3.2730346e-08    2.9538568e-08    0.041918

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.273035e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BOXPOWER
# variables               = 20000     

# cg iterations           = 23        

# cg function evals       = 57        

# cg gradient evals       = 36        

|| g ||                   = 3.2730346e-08   
Final f                   = 2.9538568e-08   
Function value at final x = 2.9538568e-08   
Solve time                = 0.041918    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BRKMCC

 Problem name: BRKMCC

 Double precision version will be formed

 The objective function uses 3 linear groups
 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BRKMCC (n = 2)
walltime at start:     0.000001
!!    BRKMCC      2       5      11       6     0    6.2205812e-08    1.6904268e-01    0.000042

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.220581e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BRKMCC
# variables               = 2         

# cg iterations           = 5         

# cg function evals       = 11        

# cg gradient evals       = 6         

|| g ||                   = 6.2205812e-08   
Final f                   = 1.6904268e-01   
Function value at final x = 1.6904268e-01   
Solve time                = 0.000042    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BROWNAL

 Problem name: BROWNAL

 Double precision version will be formed

 The objective function uses 199 linear groups
 The objective function uses 1 nonlinear group
 
 There are 200 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BROWNAL (n = 200)
walltime at start:     0.000000
!!   BROWNAL    200      10      26      18     0    7.9963147e-10    1.9410428e-19    0.003920

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.996315e-10 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BROWNAL
# variables               = 200       

# cg iterations           = 10        

# cg function evals       = 26        

# cg gradient evals       = 18        

|| g ||                   = 7.9963147e-10   
Final f                   = 1.9410428e-19   
Function value at final x = 1.9410428e-19   
Solve time                = 0.003920    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BROWNBS

 Problem name: BROWNBS

 Double precision version will be formed

 The objective function uses 2 linear groups
 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BROWNBS (n = 2)
walltime at start:     0.000001
!!   BROWNBS      2      13      26      15     0    0.0000000e+00    0.0000000e+00    0.000052

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 0.000000e+00 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BROWNBS
# variables               = 2         

# cg iterations           = 13        

# cg function evals       = 26        

# cg gradient evals       = 15        

|| g ||                   = 0.0000000e+00   
Final f                   = 0.0000000e+00   
Function value at final x = 0.0000000e+00   
Solve time                = 0.000052    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BROWNDEN

 Problem name: BROWNDEN

 Double precision version will be formed

 The objective function uses 20 nonlinear groups
 
 There are 4 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BROWNDEN (n = 4)
walltime at start:     0.000001
!!  BROWNDEN      4      16      31      19     0    6.2987965e-08    8.5822201e+04    0.000116

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.298797e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BROWNDEN
# variables               = 4         

# cg iterations           = 16        

# cg function evals       = 31        

# cg gradient evals       = 19        

|| g ||                   = 6.2987965e-08   
Final f                   = 8.5822201e+04   
Function value at final x = 8.5822201e+04   
Solve time                = 0.000116    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BROYDN7D

 Problem name: BROYDN7D

 Double precision version will be formed

 The objective function uses 2500 linear groups
 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BROYDN7D (n = 5000)
walltime at start:     0.000000
!!  BROYDN7D   5000    1378    2743    1397     0    8.1696973e-07    1.9496215e+03    3.406464

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.169697e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BROYDN7D
# variables               = 5000      

# cg iterations           = 1378      

# cg function evals       = 2743      

# cg gradient evals       = 1397      

|| g ||                   = 8.1696973e-07   
Final f                   = 1.9496215e+03   
Function value at final x = 1.9496215e+03   
Solve time                = 3.406464    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   BRYBND

 Problem name: BRYBND

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: BRYBND (n = 5000)
walltime at start:     0.000001
!!    BRYBND   5000      85     174      90     0    4.9700970e-07    2.5588929e-14    0.107266

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.970097e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : BRYBND
# variables               = 5000      

# cg iterations           = 85        

# cg function evals       = 174       

# cg gradient evals       = 90        

|| g ||                   = 4.9700970e-07   
Final f                   = 2.5588929e-14   
Function value at final x = 2.5588929e-14   
Solve time                = 0.107266    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CHAINWOO

 Problem name: CHAINWOO

 Double precision version will be formed

 The objective function uses 7997 linear groups
 The objective function uses 3998 nonlinear groups
 
 There are 4000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CHAINWOO (n = 4000)
walltime at start:     0.000000
!!  CHAINWOO   4000     341     664     404     0    6.9743577e-07    4.5727672e+00    0.299376

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.974358e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CHAINWOO
# variables               = 4000      

# cg iterations           = 341       

# cg function evals       = 664       

# cg gradient evals       = 404       

|| g ||                   = 6.9743577e-07   
Final f                   = 4.5727672e+00   
Function value at final x = 4.5727672e+00   
Solve time                = 0.299376    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CHNROSNB

 Problem name: CHNROSNB

 Double precision version will be formed

 The objective function uses 49 linear groups
 The objective function uses 49 nonlinear groups
 
 There are 50 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CHNROSNB (n = 50)
walltime at start:     0.000001
!!  CHNROSNB     50     287     566     297     0    7.4547674e-07    9.0756918e-14    0.003558

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.454767e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CHNROSNB
# variables               = 50        

# cg iterations           = 287       

# cg function evals       = 566       

# cg gradient evals       = 297       

|| g ||                   = 7.4547674e-07   
Final f                   = 9.0756918e-14   
Function value at final x = 9.0756918e-14   
Solve time                = 0.003558    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CHNRSNBM

 Problem name: CHNRSNBM

 Double precision version will be formed

 The objective function uses 49 linear groups
 The objective function uses 49 nonlinear groups
 
 There are 50 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CHNRSNBM (n = 50)
walltime at start:     0.000000
!!  CHNRSNBM     50     263     527     264     0    7.0616784e-07    6.8357034e-14    0.003555

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.061678e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CHNRSNBM
# variables               = 50        

# cg iterations           = 263       

# cg function evals       = 527       

# cg gradient evals       = 264       

|| g ||                   = 7.0616784e-07   
Final f                   = 6.8357034e-14   
Function value at final x = 6.8357034e-14   
Solve time                = 0.003555    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CLIFF

 Problem name: CLIFF

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 2 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CLIFF (n = 2)
walltime at start:     0.000001
!!     CLIFF      2      18      76      61     0    1.8104300e-07    1.9978661e-01    0.000107

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.810430e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CLIFF
# variables               = 2         

# cg iterations           = 18        

# cg function evals       = 76        

# cg gradient evals       = 61        

|| g ||                   = 1.8104300e-07   
Final f                   = 1.9978661e-01   
Function value at final x = 1.9978661e-01   
Solve time                = 0.000107    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   COSINE

 Problem name: COSINE

 Double precision version will be formed

 The objective function uses 9999 nonlinear groups
 
 There are 10000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: COSINE (n = 10000)
walltime at start:     0.000001
!!    COSINE  10000       9      22      19     0    2.9361693e-07   -9.9990000e+03    0.035058

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.936169e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : COSINE
# variables               = 10000     

# cg iterations           = 9         

# cg function evals       = 22        

# cg gradient evals       = 19        

|| g ||                   = 2.9361693e-07   
Final f                   = -9.9990000e+03  
Function value at final x = -9.9990000e+03  
Solve time                = 0.035058    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CRAGGLVY

 Problem name: CRAGGLVY

 Double precision version will be formed

 The objective function uses 12495 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CRAGGLVY (n = 5000)
walltime at start:     0.000001
!!  CRAGGLVY   5000     103     197     147     0    9.3235344e-07    1.6882153e+03    0.196759

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.323534e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CRAGGLVY
# variables               = 5000      

# cg iterations           = 103       

# cg function evals       = 197       

# cg gradient evals       = 147       

|| g ||                   = 9.3235344e-07   
Final f                   = 1.6882153e+03   
Function value at final x = 1.6882153e+03   
Solve time                = 0.196759    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CUBE

 Problem name: CUBE

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CUBE (n = 2)
walltime at start:     0.000000
!!      CUBE      2      40      97      69     0    9.6446406e-11    4.9058512e-24    0.000112

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.644641e-11 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CUBE
# variables               = 2         

# cg iterations           = 40        

# cg function evals       = 97        

# cg gradient evals       = 69        

|| g ||                   = 9.6446406e-11   
Final f                   = 4.9058512e-24   
Function value at final x = 4.9058512e-24   
Solve time                = 0.000112    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CURLY10

 Problem name: CURLY10

 Double precision version will be formed

 The objective function uses 10000 linear groups
 
 There are 10000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CURLY10 (n = 10000)
walltime at start:     0.000001
!!   CURLY10  10000   47873   67378   76264     0    9.9422264e-07   -1.0031629e+06   54.917330

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.942226e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CURLY10
# variables               = 10000     

# cg iterations           = 47873     

# cg function evals       = 67378     

# cg gradient evals       = 76264     

|| g ||                   = 9.9422264e-07   
Final f                   = -1.0031629e+06  
Function value at final x = -1.0031629e+06  
Solve time                = 54.917330   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CURLY20

 Problem name: CURLY20

 Double precision version will be formed

 The objective function uses 10000 linear groups
 
 There are 10000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CURLY20 (n = 10000)
walltime at start:     0.000001
!!   CURLY20  10000   66922   89820  110969     0    9.7657335e-07   -1.0031629e+06  116.324025

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.765734e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CURLY20
# variables               = 10000     

# cg iterations           = 66922     

# cg function evals       = 89820     

# cg gradient evals       = 110969    

|| g ||                   = 9.7657335e-07   
Final f                   = -1.0031629e+06  
Function value at final x = -1.0031629e+06  
Solve time                = 116.324025  seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   CURLY30

 Problem name: CURLY30

 Double precision version will be formed

 The objective function uses 10000 linear groups
 
 There are 10000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: CURLY30 (n = 10000)
walltime at start:     0.000000
!!   CURLY30  10000   75409   99108  127236     0    9.9088622e-07   -1.0031629e+06  176.234126

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.908862e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : CURLY30
# variables               = 10000     

# cg iterations           = 75409     

# cg function evals       = 99108     

# cg gradient evals       = 127236    

|| g ||                   = 9.9088622e-07   
Final f                   = -1.0031629e+06  
Function value at final x = -1.0031629e+06  
Solve time                = 176.234126  seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DECONVU

 Problem name: DECONVU

 Double precision version will be formed

 The objective function uses 40 nonlinear groups
 
 There are 51 free variables
 There are 12 fixed variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DECONVU (n = 63)
walltime at start:     0.000001
!!   DECONVU     63     400     801     401     0    8.5007783e-07    4.4591100e-08    0.010031

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.500778e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DECONVU
# variables               = 63        

# cg iterations           = 400       

# cg function evals       = 801       

# cg gradient evals       = 401       

|| g ||                   = 8.5007783e-07   
Final f                   = 4.4591100e-08   
Function value at final x = 4.4591100e-08   
Solve time                = 0.010031    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DENSCHNA

 Problem name: DENSCHNA

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 2 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DENSCHNA (n = 2)
walltime at start:     0.000001
!!  DENSCHNA      2       9      19      10     0    3.5273288e-08    3.1668570e-16    0.000052

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.527329e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DENSCHNA
# variables               = 2         

# cg iterations           = 9         

# cg function evals       = 19        

# cg gradient evals       = 10        

|| g ||                   = 3.5273288e-08   
Final f                   = 3.1668570e-16   
Function value at final x = 3.1668570e-16   
Solve time                = 0.000052    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DENSCHNB

 Problem name: DENSCHNB

 Double precision version will be formed

 The objective function uses 2 linear groups
 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DENSCHNB (n = 2)
walltime at start:     0.000000
!!  DENSCHNB      2       7      15       8     0    1.0342574e-08    3.6407413e-17    0.000045

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.034257e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DENSCHNB
# variables               = 2         

# cg iterations           = 7         

# cg function evals       = 15        

# cg gradient evals       = 8         

|| g ||                   = 1.0342574e-08   
Final f                   = 3.6407413e-17   
Function value at final x = 3.6407413e-17   
Solve time                = 0.000045    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DENSCHNC

 Problem name: DENSCHNC

 Double precision version will be formed

 The objective function uses 2 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DENSCHNC (n = 2)
walltime at start:     0.000001
!!  DENSCHNC      2      12      26      14     0    3.2760930e-09    3.2531884e-19    0.000049

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.276093e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DENSCHNC
# variables               = 2         

# cg iterations           = 12        

# cg function evals       = 26        

# cg gradient evals       = 14        

|| g ||                   = 3.2760930e-09   
Final f                   = 3.2531884e-19   
Function value at final x = 3.2531884e-19   
Solve time                = 0.000049    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DENSCHND

 Problem name: DENSCHND

 Double precision version will be formed

 The objective function uses 3 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DENSCHND (n = 3)
walltime at start:     0.000001
!!  DENSCHND      3      46      93      50     0    5.9759793e-07    1.0997223e-10    0.000106

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.975979e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DENSCHND
# variables               = 3         

# cg iterations           = 46        

# cg function evals       = 93        

# cg gradient evals       = 50        

|| g ||                   = 5.9759793e-07   
Final f                   = 1.0997223e-10   
Function value at final x = 1.0997223e-10   
Solve time                = 0.000106    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DENSCHNE

 Problem name: DENSCHNE

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 2 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DENSCHNE (n = 3)
walltime at start:     0.000000
!!  DENSCHNE      3      18      49      32     0    5.7637592e-09    1.4705557e-17    0.000088

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.763759e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DENSCHNE
# variables               = 3         

# cg iterations           = 18        

# cg function evals       = 49        

# cg gradient evals       = 32        

|| g ||                   = 5.7637592e-09   
Final f                   = 1.4705557e-17   
Function value at final x = 1.4705557e-17   
Solve time                = 0.000088    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DENSCHNF

 Problem name: DENSCHNF

 Double precision version will be formed

 The objective function uses 2 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DENSCHNF (n = 2)
walltime at start:     0.000001
!!  DENSCHNF      2       8      17       9     0    6.4551431e-07    2.1261987e-15    0.000038

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.455143e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DENSCHNF
# variables               = 2         

# cg iterations           = 8         

# cg function evals       = 17        

# cg gradient evals       = 9         

|| g ||                   = 6.4551431e-07   
Final f                   = 2.1261987e-15   
Function value at final x = 2.1261987e-15   
Solve time                = 0.000038    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANA

 Problem name: DIXMAANA

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANA (n = 3000)
walltime at start:     0.000001
!!  DIXMAANA   3000       7      15       8     0    4.8306833e-12    1.0000000e+00    0.002495

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.830683e-12 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANA
# variables               = 3000      

# cg iterations           = 7         

# cg function evals       = 15        

# cg gradient evals       = 8         

|| g ||                   = 4.8306833e-12   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.002495    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANB

 Problem name: DIXMAANB

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANB (n = 3000)
walltime at start:     0.000001
!!  DIXMAANB   3000       6      13       7     0    8.9774746e-08    1.0000000e+00    0.002137

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.977475e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANB
# variables               = 3000      

# cg iterations           = 6         

# cg function evals       = 13        

# cg gradient evals       = 7         

|| g ||                   = 8.9774746e-08   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.002137    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANC

 Problem name: DIXMAANC

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANC (n = 3000)
walltime at start:     0.000000
!!  DIXMAANC   3000       6      13       7     0    7.0332716e-07    1.0000000e+00    0.002220

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.033272e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANC
# variables               = 3000      

# cg iterations           = 6         

# cg function evals       = 13        

# cg gradient evals       = 7         

|| g ||                   = 7.0332716e-07   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.002220    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAAND

 Problem name: DIXMAAND

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAAND (n = 3000)
walltime at start:     0.000000
!!  DIXMAAND   3000       7      15       8     0    7.3560463e-07    1.0000000e+00    0.002488

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.356046e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAAND
# variables               = 3000      

# cg iterations           = 7         

# cg function evals       = 15        

# cg gradient evals       = 8         

|| g ||                   = 7.3560463e-07   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.002488    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANE

 Problem name: DIXMAANE

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANE (n = 3000)
walltime at start:     0.000000
!!  DIXMAANE   3000     222     239     429     0    9.8403702e-07    1.0000000e+00    0.099913

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.840370e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANE
# variables               = 3000      

# cg iterations           = 222       

# cg function evals       = 239       

# cg gradient evals       = 429       

|| g ||                   = 9.8403702e-07   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.099913    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANF

 Problem name: DIXMAANF

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANF (n = 3000)
walltime at start:     0.000001
!!  DIXMAANF   3000     161     323     162     0    8.8563506e-07    1.0000000e+00    0.049787

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.856351e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANF
# variables               = 3000      

# cg iterations           = 161       

# cg function evals       = 323       

# cg gradient evals       = 162       

|| g ||                   = 8.8563506e-07   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.049787    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANG

 Problem name: DIXMAANG

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANG (n = 3000)
walltime at start:     0.000001
!!  DIXMAANG   3000     157     315     158     0    9.4422251e-07    1.0000000e+00    0.048367

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.442225e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANG
# variables               = 3000      

# cg iterations           = 157       

# cg function evals       = 315       

# cg gradient evals       = 158       

|| g ||                   = 9.4422251e-07   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.048367    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANH

 Problem name: DIXMAANH

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANH (n = 3000)
walltime at start:     0.000001
!!  DIXMAANH   3000     173     347     174     0    9.9204488e-07    1.0000000e+00    0.053500

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.920449e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANH
# variables               = 3000      

# cg iterations           = 173       

# cg function evals       = 347       

# cg gradient evals       = 174       

|| g ||                   = 9.9204488e-07   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.053500    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANI

 Problem name: DIXMAANI

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANI (n = 3000)
walltime at start:     0.000000
!!  DIXMAANI   3000    3754    3824    7440     0    9.7067715e-07    1.0000001e+00    1.588906

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.706771e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANI
# variables               = 3000      

# cg iterations           = 3754      

# cg function evals       = 3824      

# cg gradient evals       = 7440      

|| g ||                   = 9.7067715e-07   
Final f                   = 1.0000001e+00   
Function value at final x = 1.0000001e+00   
Solve time                = 1.588906    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANJ

 Problem name: DIXMAANJ

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANJ (n = 3000)
walltime at start:     0.000000
!!  DIXMAANJ   3000     327     655     328     0    9.8677323e-07    1.0000002e+00    0.099856

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.867732e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANJ
# variables               = 3000      

# cg iterations           = 327       

# cg function evals       = 655       

# cg gradient evals       = 328       

|| g ||                   = 9.8677323e-07   
Final f                   = 1.0000002e+00   
Function value at final x = 1.0000002e+00   
Solve time                = 0.099856    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANK

 Problem name: DIXMAANK

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANK (n = 3000)
walltime at start:     0.000001
!!  DIXMAANK   3000     283     567     284     0    9.4621288e-07    1.0000002e+00    0.086781

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.462129e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANK
# variables               = 3000      

# cg iterations           = 283       

# cg function evals       = 567       

# cg gradient evals       = 284       

|| g ||                   = 9.4621288e-07   
Final f                   = 1.0000002e+00   
Function value at final x = 1.0000002e+00   
Solve time                = 0.086781    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANL

 Problem name: DIXMAANL

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANL (n = 3000)
walltime at start:     0.000001
!!  DIXMAANL   3000     237     475     238     0    9.6696144e-07    1.0000002e+00    0.075294

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.669614e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANL
# variables               = 3000      

# cg iterations           = 237       

# cg function evals       = 475       

# cg gradient evals       = 238       

|| g ||                   = 9.6696144e-07   
Final f                   = 1.0000002e+00   
Function value at final x = 1.0000002e+00   
Solve time                = 0.075294    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANM

 Problem name: DIXMAANM

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANM (n = 3000)
walltime at start:     0.000001
!!  DIXMAANM   3000    4478    4533    8903     0    9.9536141e-07    1.0000001e+00    1.994639

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.953614e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANM
# variables               = 3000      

# cg iterations           = 4478      

# cg function evals       = 4533      

# cg gradient evals       = 8903      

|| g ||                   = 9.9536141e-07   
Final f                   = 1.0000001e+00   
Function value at final x = 1.0000001e+00   
Solve time                = 1.994639    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANN

 Problem name: DIXMAANN

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANN (n = 3000)
walltime at start:     0.000001
!!  DIXMAANN   3000     698    1397     699     0    9.9855824e-07    1.0000003e+00    0.212688

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.985582e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANN
# variables               = 3000      

# cg iterations           = 698       

# cg function evals       = 1397      

# cg gradient evals       = 699       

|| g ||                   = 9.9855824e-07   
Final f                   = 1.0000003e+00   
Function value at final x = 1.0000003e+00   
Solve time                = 0.212688    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANO

 Problem name: DIXMAANO

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANO (n = 3000)
walltime at start:     0.000000
!!  DIXMAANO   3000     638    1279     642     0    9.9359445e-07    1.0000003e+00    0.195525

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.935944e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANO
# variables               = 3000      

# cg iterations           = 638       

# cg function evals       = 1279      

# cg gradient evals       = 642       

|| g ||                   = 9.9359445e-07   
Final f                   = 1.0000003e+00   
Function value at final x = 1.0000003e+00   
Solve time                = 0.195525    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXMAANP

 Problem name: DIXMAANP

 Double precision version will be formed

 The objective function uses 4 nonlinear groups
 
 There are 3000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXMAANP (n = 3000)
walltime at start:     0.000001
!!  DIXMAANP   3000     686    1373     687     0    9.9695480e-07    1.0000003e+00    0.209606

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.969548e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXMAANP
# variables               = 3000      

# cg iterations           = 686       

# cg function evals       = 1373      

# cg gradient evals       = 687       

|| g ||                   = 9.9695480e-07   
Final f                   = 1.0000003e+00   
Function value at final x = 1.0000003e+00   
Solve time                = 0.209606    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DIXON3DQ

 Problem name: DIXON3DQ

 Double precision version will be formed

 The objective function uses 10000 linear groups
 
 There are 10000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DIXON3DQ (n = 10000)
the problem has a quadratic objective
walltime at start:     0.000001
!!  DIXON3DQ  10000   10000       0   10001     0    4.4365070e-11    7.4953607e-16    0.933612

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.436507e-11 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DIXON3DQ
# variables               = 10000     

# cg iterations           = 10000     

# cg function evals       = 0         

# cg gradient evals       = 10001     

|| g ||                   = 4.4365070e-11   
Final f                   = 7.4953607e-16   
Function value at final x = 2.0753733e-19   
Solve time                = 0.933612    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DJTL

 Problem name: DJTL

 Double precision version will be formed

 The objective function uses 9 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DJTL (n = 2)
walltime at start:     0.000000
!!      DJTL      2      87     889     876     0    9.3789923e-08   -8.9515447e+03    0.001764

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.378992e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DJTL
# variables               = 2         

# cg iterations           = 87        

# cg function evals       = 889       

# cg gradient evals       = 876       

|| g ||                   = 9.3789923e-08   
Final f                   = -8.9515447e+03  
Function value at final x = -8.9515447e+03  
Solve time                = 0.001764    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DQDRTIC

 Problem name: DQDRTIC

 Double precision version will be formed

 The objective function uses 14994 linear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DQDRTIC (n = 5000)
the problem has a quadratic objective
walltime at start:     0.000001
!!   DQDRTIC   5000       5       0       6     0    2.2053470e-11   -5.0515592e-10    0.000483

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.205347e-11 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DQDRTIC
# variables               = 5000      

# cg iterations           = 5         

# cg function evals       = 0         

# cg gradient evals       = 6         

|| g ||                   = 2.2053470e-11   
Final f                   = -5.0515592e-10  
Function value at final x = 2.5896904e-24   
Solve time                = 0.000483    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   DQRTIC

 Problem name: DQRTIC

 Double precision version will be formed

 The objective function uses 5000 linear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: DQRTIC (n = 5000)
walltime at start:     0.000001
!!    DQRTIC   5000      17      37      21     0    7.0514220e-07    2.7590839e-06    0.005358

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.051422e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : DQRTIC
# variables               = 5000      

# cg iterations           = 17        

# cg function evals       = 37        

# cg gradient evals       = 21        

|| g ||                   = 7.0514220e-07   
Final f                   = 2.7590839e-06   
Function value at final x = 2.7590839e-06   
Solve time                = 0.005358    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   EDENSCH

 Problem name: EDENSCH

 Double precision version will be formed

 The objective function uses 1999 linear groups
 The objective function uses 3999 nonlinear groups
 
 There are 2000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: EDENSCH (n = 2000)
walltime at start:     0.000001
!!   EDENSCH   2000      26      52      38     0    6.9637571e-07    1.2003285e+04    0.013340

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.963757e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : EDENSCH
# variables               = 2000      

# cg iterations           = 26        

# cg function evals       = 52        

# cg gradient evals       = 38        

|| g ||                   = 6.9637571e-07   
Final f                   = 1.2003285e+04   
Function value at final x = 1.2003285e+04   
Solve time                = 0.013340    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   EG2

 Problem name: EG2

 Double precision version will be formed

 The objective function uses 1000 nonlinear groups
 
 There are 1000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: EG2 (n = 1000)
walltime at start:     0.000001
!!       EG2   1000       5      11       6     0    1.2434529e-08   -9.9894739e+02    0.001536

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.243453e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : EG2
# variables               = 1000      

# cg iterations           = 5         

# cg function evals       = 11        

# cg gradient evals       = 6         

|| g ||                   = 1.2434529e-08   
Final f                   = -9.9894739e+02  
Function value at final x = -9.9894739e+02  
Solve time                = 0.001536    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   EIGENALS

 Problem name: EIGENALS

 Double precision version will be formed

 The objective function uses 2550 nonlinear groups
 
 There are 2550 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: EIGENALS (n = 2550)
walltime at start:     0.000000
!!  EIGENALS   2550    9363   16977   11124     0    6.2130528e-07    8.3698051e-11   61.250927

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.213053e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : EIGENALS
# variables               = 2550      

# cg iterations           = 9363      

# cg function evals       = 16977     

# cg gradient evals       = 11124     

|| g ||                   = 6.2130528e-07   
Final f                   = 8.3698051e-11   
Function value at final x = 8.3698051e-11   
Solve time                = 61.250927   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   EIGENBLS

 Problem name: EIGENBLS

 Double precision version will be formed

 The objective function uses 2550 nonlinear groups
 
 There are 2550 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: EIGENBLS (n = 2550)
walltime at start:     0.000000
!!  EIGENBLS   2550   26938   53877   26939     0    9.0552654e-07    6.3927358e-09  152.720944

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.055265e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : EIGENBLS
# variables               = 2550      

# cg iterations           = 26938     

# cg function evals       = 53877     

# cg gradient evals       = 26939     

|| g ||                   = 9.0552654e-07   
Final f                   = 6.3927358e-09   
Function value at final x = 6.3927358e-09   
Solve time                = 152.720944  seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   EIGENCLS

 Problem name: EIGENCLS

 Double precision version will be formed

 The objective function uses 2652 nonlinear groups
 
 There are 2652 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: EIGENCLS (n = 2652)
walltime at start:     0.000001
!!  EIGENCLS   2652   10377   19792   11341     0    7.0462417e-07    1.3820286e-11   67.499778

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.046242e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : EIGENCLS
# variables               = 2652      

# cg iterations           = 10377     

# cg function evals       = 19792     

# cg gradient evals       = 11341     

|| g ||                   = 7.0462417e-07   
Final f                   = 1.3820286e-11   
Function value at final x = 1.3820286e-11   
Solve time                = 67.499778   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ENGVAL1

 Problem name: ENGVAL1

 Double precision version will be formed

 The objective function uses 4999 linear groups
 The objective function uses 4999 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ENGVAL1 (n = 5000)
walltime at start:     0.000001
!!   ENGVAL1   5000      27      50      36     0    9.2445863e-07    5.5486684e+03    0.025004

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.244586e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ENGVAL1
# variables               = 5000      

# cg iterations           = 27        

# cg function evals       = 50        

# cg gradient evals       = 36        

|| g ||                   = 9.2445863e-07   
Final f                   = 5.5486684e+03   
Function value at final x = 5.5486684e+03   
Solve time                = 0.025004    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ENGVAL2

 Problem name: ENGVAL2

 Double precision version will be formed

 The objective function uses 2 linear groups
 The objective function uses 3 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ENGVAL2 (n = 3)
walltime at start:     0.000001
!!   ENGVAL2      3      27      58      33     0    2.6896502e-07    3.6611398e-16    0.000092

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.689650e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ENGVAL2
# variables               = 3         

# cg iterations           = 27        

# cg function evals       = 58        

# cg gradient evals       = 33        

|| g ||                   = 2.6896502e-07   
Final f                   = 3.6611398e-16   
Function value at final x = 3.6611398e-16   
Solve time                = 0.000092    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ERRINROS

 Problem name: ERRINROS

 Double precision version will be formed

 The objective function uses 49 linear groups
 The objective function uses 49 nonlinear groups
 
 There are 50 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ERRINROS (n = 50)
walltime at start:     0.000001
!!  ERRINROS     50    3842    7217    6174     0    6.8221950e-07    3.9904154e+01    0.058161

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.822195e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ERRINROS
# variables               = 50        

# cg iterations           = 3842      

# cg function evals       = 7217      

# cg gradient evals       = 6174      

|| g ||                   = 6.8221950e-07   
Final f                   = 3.9904154e+01   
Function value at final x = 3.9904154e+01   
Solve time                = 0.058161    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ERRINRSM

 Problem name: ERRINRSM

 Double precision version will be formed

 The objective function uses 49 linear groups
 The objective function uses 49 nonlinear groups
 
 There are 50 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ERRINRSM (n = 50)
walltime at start:     0.000001
!!  ERRINRSM     50     316     661     401     0    5.6580274e-07    3.7729903e+01    0.004345

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.658027e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ERRINRSM
# variables               = 50        

# cg iterations           = 316       

# cg function evals       = 661       

# cg gradient evals       = 401       

|| g ||                   = 5.6580274e-07   
Final f                   = 3.7729903e+01   
Function value at final x = 3.7729903e+01   
Solve time                = 0.004345    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   EXPFIT

 Problem name: EXPFIT

 Double precision version will be formed

 The objective function uses 10 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: EXPFIT (n = 2)
walltime at start:     0.000001
!!    EXPFIT      2      13      29      16     0    4.2083119e-07    2.4051059e-01    0.000081

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.208312e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : EXPFIT
# variables               = 2         

# cg iterations           = 13        

# cg function evals       = 29        

# cg gradient evals       = 16        

|| g ||                   = 4.2083119e-07   
Final f                   = 2.4051059e-01   
Function value at final x = 2.4051059e-01   
Solve time                = 0.000081    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   EXTROSNB

 Problem name: EXTROSNB

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 999 nonlinear groups
 
 There are 1000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: EXTROSNB (n = 1000)
walltime at start:     0.000000
!!  EXTROSNB   1000    3870    7853    4104     0    9.8572842e-07    3.3421563e-07    0.491214

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.857284e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : EXTROSNB
# variables               = 1000      

# cg iterations           = 3870      

# cg function evals       = 7853      

# cg gradient evals       = 4104      

|| g ||                   = 9.8572842e-07   
Final f                   = 3.3421563e-07   
Function value at final x = 3.3421563e-07   
Solve time                = 0.491214    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   FLETBV3M

 Problem name: FLETBV3M

 Double precision version will be formed

 The objective function uses 10002 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: FLETBV3M (n = 5000)
walltime at start:     0.000001
!!  FLETBV3M   5000      29      63      37     0    6.7729467e-07   -2.4858979e+05    0.072155

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.772947e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : FLETBV3M
# variables               = 5000      

# cg iterations           = 29        

# cg function evals       = 63        

# cg gradient evals       = 37        

|| g ||                   = 6.7729467e-07   
Final f                   = -2.4858979e+05  
Function value at final x = -2.4858979e+05  
Solve time                = 0.072155    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   FLETCBV2

 Problem name: FLETCBV2

 Double precision version will be formed

 The objective function uses 5000 linear groups
 The objective function uses 10001 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: FLETCBV2 (n = 5000)
walltime at start:     0.000000
!!  FLETCBV2   5000       0       1       1     0    7.9960014e-08   -5.0026817e-01    0.000945

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.996001e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : FLETCBV2
# variables               = 5000      

# cg iterations           = 0         

# cg function evals       = 1         

# cg gradient evals       = 1         

|| g ||                   = 7.9960014e-08   
Final f                   = -5.0026817e-01  
Function value at final x = -5.0026817e-01  
Solve time                = 0.000945    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   FLETCHCR

 Problem name: FLETCHCR

 Double precision version will be formed

 The objective function uses 999 linear groups
 The objective function uses 999 nonlinear groups
 
 There are 1000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: FLETCHCR (n = 1000)
walltime at start:     0.000000
!!  FLETCHCR   1000     152     290     176     0    5.8328737e-07    7.1290785e-15    0.025746

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.832874e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : FLETCHCR
# variables               = 1000      

# cg iterations           = 152       

# cg function evals       = 290       

# cg gradient evals       = 176       

|| g ||                   = 5.8328737e-07   
Final f                   = 7.1290785e-15   
Function value at final x = 7.1290785e-15   
Solve time                = 0.025746    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   FMINSRF2

 Problem name: FMINSRF2

 Double precision version will be formed

 The objective function uses 5477 nonlinear groups
 
 There are 5625 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: FMINSRF2 (n = 5625)
walltime at start:     0.000001
!!  FMINSRF2   5625     346     693     347     0    9.4411255e-07    1.0000241e+00    0.409693

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.441125e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : FMINSRF2
# variables               = 5625      

# cg iterations           = 346       

# cg function evals       = 693       

# cg gradient evals       = 347       

|| g ||                   = 9.4411255e-07   
Final f                   = 1.0000241e+00   
Function value at final x = 1.0000241e+00   
Solve time                = 0.409693    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   FMINSURF

 Problem name: FMINSURF

 Double precision version will be formed

 The objective function uses 5477 nonlinear groups
 
 There are 5625 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: FMINSURF (n = 5625)
walltime at start:     0.000001
!!  FMINSURF   5625     473     947     474     0    9.7701254e-07    1.0000000e+00    0.597278

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.770125e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : FMINSURF
# variables               = 5625      

# cg iterations           = 473       

# cg function evals       = 947       

# cg gradient evals       = 474       

|| g ||                   = 9.7701254e-07   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.597278    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   FREUROTH

 Problem name: FREUROTH

 Double precision version will be formed

 The objective function uses 9998 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: FREUROTH (n = 5000)
walltime at start:     0.000001
!!  FREUROTH   5000      28      60      50     0    6.0680874e-07    6.0815919e+05    0.049301

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.068087e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : FREUROTH
# variables               = 5000      

# cg iterations           = 28        

# cg function evals       = 60        

# cg gradient evals       = 50        

|| g ||                   = 6.0680874e-07   
Final f                   = 6.0815919e+05   
Function value at final x = 6.0815919e+05   
Solve time                = 0.049301    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   GENHUMPS

 Problem name: GENHUMPS

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: GENHUMPS (n = 5000)
walltime at start:     0.000001
!!  GENHUMPS   5000    6528   13074    6559     0    5.0498351e-08    1.2896537e-14   13.997925

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.049835e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : GENHUMPS
# variables               = 5000      

# cg iterations           = 6528      

# cg function evals       = 13074     

# cg gradient evals       = 6559      

|| g ||                   = 5.0498351e-08   
Final f                   = 1.2896537e-14   
Function value at final x = 1.2896537e-14   
Solve time                = 13.997925   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   GENROSE

 Problem name: GENROSE

 Double precision version will be formed

 The objective function uses 500 linear groups
 The objective function uses 499 nonlinear groups
 
 There are 500 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: GENROSE (n = 500)
walltime at start:     0.000000
!!   GENROSE    500    1088    2188    1123     0    8.4945869e-07    1.0000000e+00    0.087000

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.494587e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : GENROSE
# variables               = 500       

# cg iterations           = 1088      

# cg function evals       = 2188      

# cg gradient evals       = 1123      

|| g ||                   = 8.4945869e-07   
Final f                   = 1.0000000e+00   
Function value at final x = 1.0000000e+00   
Solve time                = 0.087000    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   GROWTHLS

 Problem name: GROWTHLS

 Double precision version will be formed

 The objective function uses 12 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: GROWTHLS (n = 3)
walltime at start:     0.000000
!!  GROWTHLS      3     173     481     358     0    1.6775110e-07    1.0040406e+00    0.002115

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.677511e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : GROWTHLS
# variables               = 3         

# cg iterations           = 173       

# cg function evals       = 481       

# cg gradient evals       = 358       

|| g ||                   = 1.6775110e-07   
Final f                   = 1.0040406e+00   
Function value at final x = 1.0040406e+00   
Solve time                = 0.002115    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   GULF

 Problem name: GULF

 Double precision version will be formed

 The objective function uses 99 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: GULF (n = 3)
walltime at start:     0.000000
!!      GULF      3      40      95      60     0    7.8637472e-07    2.2991357e-08    0.005417

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.863747e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : GULF
# variables               = 3         

# cg iterations           = 40        

# cg function evals       = 95        

# cg gradient evals       = 60        

|| g ||                   = 7.8637472e-07   
Final f                   = 2.2991357e-08   
Function value at final x = 2.2991357e-08   
Solve time                = 0.005417    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HAIRY

 Problem name: HAIRY

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HAIRY (n = 2)
walltime at start:     0.000001
!!     HAIRY      2      19      57      44     0    3.3696816e-09    2.0000000e+01    0.000100

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.369682e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HAIRY
# variables               = 2         

# cg iterations           = 19        

# cg function evals       = 57        

# cg gradient evals       = 44        

|| g ||                   = 3.3696816e-09   
Final f                   = 2.0000000e+01   
Function value at final x = 2.0000000e+01   
Solve time                = 0.000100    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HATFLDD

 Problem name: HATFLDD

 Double precision version will be formed

 The objective function uses 10 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HATFLDD (n = 3)
walltime at start:     0.000001
!!   HATFLDD      3      20      42      25     0    6.7705784e-07    2.5508671e-07    0.000146

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.770578e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HATFLDD
# variables               = 3         

# cg iterations           = 20        

# cg function evals       = 42        

# cg gradient evals       = 25        

|| g ||                   = 6.7705784e-07   
Final f                   = 2.5508671e-07   
Function value at final x = 2.5508671e-07   
Solve time                = 0.000146    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HATFLDE

 Problem name: HATFLDE

 Double precision version will be formed

 The objective function uses 21 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HATFLDE (n = 3)
walltime at start:     0.000001
!!   HATFLDE      3      30      77      54     0    1.2804836e-07    5.1203769e-07    0.000438

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.280484e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HATFLDE
# variables               = 3         

# cg iterations           = 30        

# cg function evals       = 77        

# cg gradient evals       = 54        

|| g ||                   = 1.2804836e-07   
Final f                   = 5.1203769e-07   
Function value at final x = 5.1203769e-07   
Solve time                = 0.000438    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HATFLDFL

 Problem name: HATFLDFL

 Double precision version will be formed

 The objective function uses 3 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HATFLDFL (n = 3)
walltime at start:     0.000001
!!  HATFLDFL      3      39      92      63     0    9.2189198e-07    6.3664508e-05    0.000126

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.218920e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HATFLDFL
# variables               = 3         

# cg iterations           = 39        

# cg function evals       = 92        

# cg gradient evals       = 63        

|| g ||                   = 9.2189198e-07   
Final f                   = 6.3664508e-05   
Function value at final x = 6.3664508e-05   
Solve time                = 0.000126    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HEART6LS

 Problem name: HEART6LS

 Double precision version will be formed

 The objective function uses 6 nonlinear groups
 
 There are 6 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HEART6LS (n = 6)
walltime at start:     0.000001
!!  HEART6LS      6     721    1658    1093     0    3.9123129e-07    3.9115303e-10    0.003064

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.912313e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HEART6LS
# variables               = 6         

# cg iterations           = 721       

# cg function evals       = 1658      

# cg gradient evals       = 1093      

|| g ||                   = 3.9123129e-07   
Final f                   = 3.9115303e-10   
Function value at final x = 3.9115303e-10   
Solve time                = 0.003064    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HEART8LS

 Problem name: HEART8LS

 Double precision version will be formed

 The objective function uses 2 linear groups
 The objective function uses 6 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HEART8LS (n = 8)
walltime at start:     0.000001
!!  HEART8LS      8     276     570     324     0    1.6327055e-08    1.9584851e-18    0.001024

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.632705e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HEART8LS
# variables               = 8         

# cg iterations           = 276       

# cg function evals       = 570       

# cg gradient evals       = 324       

|| g ||                   = 1.6327055e-08   
Final f                   = 1.9584851e-18   
Function value at final x = 1.9584851e-18   
Solve time                = 0.001024    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HELIX

 Problem name: HELIX

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 2 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HELIX (n = 3)
walltime at start:     0.000001
!!     HELIX      3      23      49      27     0    3.1346301e-07    1.6037621e-15    0.000081

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.134630e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HELIX
# variables               = 3         

# cg iterations           = 23        

# cg function evals       = 49        

# cg gradient evals       = 27        

|| g ||                   = 3.1346301e-07   
Final f                   = 1.6037621e-15   
Function value at final x = 1.6037621e-15   
Solve time                = 0.000081    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HIELOW

 Problem name: HIELOW

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HIELOW (n = 3)
walltime at start:     0.000000
!!    HIELOW      3      14      30      16     0    4.4008730e-07    8.7416543e+02    0.025103

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.400873e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HIELOW
# variables               = 3         

# cg iterations           = 14        

# cg function evals       = 30        

# cg gradient evals       = 16        

|| g ||                   = 4.4008730e-07   
Final f                   = 8.7416543e+02   
Function value at final x = 8.7416543e+02   
Solve time                = 0.025103    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HILBERTA

 Problem name: HILBERTA

 Double precision version will be formed

 The objective function uses 3 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HILBERTA (n = 2)
the problem has a quadratic objective
walltime at start:     0.000000
!!  HILBERTA      2       2       0       3     0    2.2065683e-14    1.3183898e-16    0.000014

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.206568e-14 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HILBERTA
# variables               = 2         

# cg iterations           = 2         

# cg function evals       = 0         

# cg gradient evals       = 3         

|| g ||                   = 2.2065683e-14   
Final f                   = 1.3183898e-16   
Function value at final x = 2.6045558e-28   
Solve time                = 0.000014    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HILBERTB

 Problem name: HILBERTB

 Double precision version will be formed

 The objective function uses 55 nonlinear groups
 
 There are 10 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HILBERTB (n = 10)
the problem has a quadratic objective
walltime at start:     0.000001
!!  HILBERTB     10       4       0       5     0    2.2720367e-09    1.9755976e-14    0.000021

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.272037e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HILBERTB
# variables               = 10        

# cg iterations           = 4         

# cg function evals       = 0         

# cg gradient evals       = 5         

|| g ||                   = 2.2720367e-09   
Final f                   = 1.9755976e-14   
Function value at final x = 9.9477316e-19   
Solve time                = 0.000021    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HIMMELBB

 Problem name: HIMMELBB

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HIMMELBB (n = 2)
walltime at start:     0.000001
!!  HIMMELBB      2      10      28      21     0    2.3749514e-07    9.2954871e-13    0.000050

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.374951e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HIMMELBB
# variables               = 2         

# cg iterations           = 10        

# cg function evals       = 28        

# cg gradient evals       = 21        

|| g ||                   = 2.3749514e-07   
Final f                   = 9.2954871e-13   
Function value at final x = 9.2954871e-13   
Solve time                = 0.000050    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HIMMELBF

 Problem name: HIMMELBF

 Double precision version will be formed

 The objective function uses 7 nonlinear groups
 
 There are 4 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HIMMELBF (n = 4)
walltime at start:     0.000000
!!  HIMMELBF      4      24      50      30     0    9.6828323e-10    3.1857175e+02    0.000098

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.682832e-10 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HIMMELBF
# variables               = 4         

# cg iterations           = 24        

# cg function evals       = 50        

# cg gradient evals       = 30        

|| g ||                   = 9.6828323e-10   
Final f                   = 3.1857175e+02   
Function value at final x = 3.1857175e+02   
Solve time                = 0.000098    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HIMMELBG

 Problem name: HIMMELBG

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HIMMELBG (n = 2)
walltime at start:     0.000001
!!  HIMMELBG      2       8      18      12     0    5.5074167e-07    3.1614338e-14    0.000043

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.507417e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HIMMELBG
# variables               = 2         

# cg iterations           = 8         

# cg function evals       = 18        

# cg gradient evals       = 12        

|| g ||                   = 5.5074167e-07   
Final f                   = 3.1614338e-14   
Function value at final x = 3.1614338e-14   
Solve time                = 0.000043    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HIMMELBH

 Problem name: HIMMELBH

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HIMMELBH (n = 2)
walltime at start:     0.000000
!!  HIMMELBH      2       7      16       9     0    2.9620306e-11   -1.0000000e+00    0.000051

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.962031e-11 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HIMMELBH
# variables               = 2         

# cg iterations           = 7         

# cg function evals       = 16        

# cg gradient evals       = 9         

|| g ||                   = 2.9620306e-11   
Final f                   = -1.0000000e+00  
Function value at final x = -1.0000000e+00  
Solve time                = 0.000051    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   HUMPS

 Problem name: HUMPS

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: HUMPS (n = 2)
walltime at start:     0.000001
!!     HUMPS      2      35     103      81     0    9.3005272e-07    4.3270388e-12    0.000128

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.300527e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : HUMPS
# variables               = 2         

# cg iterations           = 35        

# cg function evals       = 103       

# cg gradient evals       = 81        

|| g ||                   = 9.3005272e-07   
Final f                   = 4.3270388e-12   
Function value at final x = 4.3270388e-12   
Solve time                = 0.000128    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   INDEFM

 Problem name: INDEFM

 Double precision version will be formed

 The objective function uses 199998 nonlinear groups
 
 There are 100000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: INDEFM (n = 100000)
walltime at start:     0.000001
!!    INDEFM 100000     287     721     552     0    4.4207248e-07   -9.8755769e+06   12.745631

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.420725e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : INDEFM
# variables               = 100000    

# cg iterations           = 287       

# cg function evals       = 721       

# cg gradient evals       = 552       

|| g ||                   = 4.4207248e-07   
Final f                   = -9.8755769e+06  
Function value at final x = -9.8755769e+06  
Solve time                = 12.745631   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   JENSMP

 Problem name: JENSMP

 Double precision version will be formed

 The objective function uses 10 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: JENSMP (n = 2)
walltime at start:     0.000001
!!    JENSMP      2      15      33      22     0    5.3069016e-10    1.2436218e+02    0.000122

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.306902e-10 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : JENSMP
# variables               = 2         

# cg iterations           = 15        

# cg function evals       = 33        

# cg gradient evals       = 22        

|| g ||                   = 5.3069016e-10   
Final f                   = 1.2436218e+02   
Function value at final x = 1.2436218e+02   
Solve time                = 0.000122    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   JIMACK

 Problem name: JIMACK

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 3549 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: JIMACK (n = 3549)
walltime at start:     0.000000
!!    JIMACK   3549    8317   16635    8318     0    9.3995640e-07    8.6679330e-01  531.372152

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.399564e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : JIMACK
# variables               = 3549      

# cg iterations           = 8317      

# cg function evals       = 16635     

# cg gradient evals       = 8318      

|| g ||                   = 9.3995640e-07   
Final f                   = 8.6679330e-01   
Function value at final x = 8.6679330e-01   
Solve time                = 531.372152  seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   KOWOSB

 Problem name: KOWOSB

 Double precision version will be formed

 The objective function uses 11 nonlinear groups
 
 There are 4 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: KOWOSB (n = 4)
walltime at start:     0.000001
!!    KOWOSB      4      17      39      23     0    3.7035629e-07    3.0780095e-04    0.000094

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.703563e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : KOWOSB
# variables               = 4         

# cg iterations           = 17        

# cg function evals       = 39        

# cg gradient evals       = 23        

|| g ||                   = 3.7035629e-07   
Final f                   = 3.0780095e-04   
Function value at final x = 3.0780095e-04   
Solve time                = 0.000094    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   LIARWHD

 Problem name: LIARWHD

 Double precision version will be formed

 The objective function uses 5000 linear groups
 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: LIARWHD (n = 5000)
walltime at start:     0.000001
!!   LIARWHD   5000      19      46      29     0    8.4390051e-11    9.0006379e-26    0.020194

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.439005e-11 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : LIARWHD
# variables               = 5000      

# cg iterations           = 19        

# cg function evals       = 46        

# cg gradient evals       = 29        

|| g ||                   = 8.4390051e-11   
Final f                   = 9.0006379e-26   
Function value at final x = 9.0006379e-26   
Solve time                = 0.020194    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   LOGHAIRY

 Problem name: LOGHAIRY

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: LOGHAIRY (n = 2)
walltime at start:     0.000001
!!  LOGHAIRY      2      35     105      79     0    1.9670816e-10    1.8232156e-01    0.000219

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.967082e-10 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : LOGHAIRY
# variables               = 2         

# cg iterations           = 35        

# cg function evals       = 105       

# cg gradient evals       = 79        

|| g ||                   = 1.9670816e-10   
Final f                   = 1.8232156e-01   
Function value at final x = 1.8232156e-01   
Solve time                = 0.000219    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   MANCINO

 Problem name: MANCINO

 Double precision version will be formed

 The objective function uses 100 nonlinear groups
 
 There are 100 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: MANCINO (n = 100)
walltime at start:     0.000001
!!   MANCINO    100      11      23      12     0    7.2392005e-08    9.2313203e-21    0.061423

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.239200e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : MANCINO
# variables               = 100       

# cg iterations           = 11        

# cg function evals       = 23        

# cg gradient evals       = 12        

|| g ||                   = 7.2392005e-08   
Final f                   = 9.2313203e-21   
Function value at final x = 9.2313203e-21   
Solve time                = 0.061423    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   MARATOSB

 Problem name: MARATOSB

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: MARATOSB (n = 2)
walltime at start:     0.000000
!!  MARATOSB      2    1283    3954    3299     0    1.7670155e-08   -1.0000001e+00    0.003403

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.767015e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : MARATOSB
# variables               = 2         

# cg iterations           = 1283      

# cg function evals       = 3954      

# cg gradient evals       = 3299      

|| g ||                   = 1.7670155e-08   
Final f                   = -1.0000001e+00  
Function value at final x = -1.0000001e+00  
Solve time                = 0.003403    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   MEXHAT

 Problem name: MEXHAT

 Double precision version will be formed

 The objective function uses 2 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: MEXHAT (n = 2)
walltime at start:     0.000001
!!    MEXHAT      2      20      56      39     0    7.0787821e-09   -4.0010000e-02    0.000084

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.078782e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : MEXHAT
# variables               = 2         

# cg iterations           = 20        

# cg function evals       = 56        

# cg gradient evals       = 39        

|| g ||                   = 7.0787821e-09   
Final f                   = -4.0010000e-02  
Function value at final x = -4.0010000e-02  
Solve time                = 0.000084    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   MOREBV

 Problem name: MOREBV

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: MOREBV (n = 5000)
walltime at start:     0.000001
!!    MOREBV   5000     161     168     317     0    9.9408232e-07    1.0864330e-10    0.162071

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.940823e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : MOREBV
# variables               = 5000      

# cg iterations           = 161       

# cg function evals       = 168       

# cg gradient evals       = 317       

|| g ||                   = 9.9408232e-07   
Final f                   = 1.0864330e-10   
Function value at final x = 1.0864330e-10   
Solve time                = 0.162071    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   MSQRTALS

 Problem name: MSQRTALS

 Double precision version will be formed

 The objective function uses 1024 nonlinear groups
 
 There are 1024 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: MSQRTALS (n = 1024)
walltime at start:     0.000001
!!  MSQRTALS   1024    2789    5581    2794     0    9.9666795e-07    6.7719173e-10    3.489766

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.966680e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : MSQRTALS
# variables               = 1024      

# cg iterations           = 2789      

# cg function evals       = 5581      

# cg gradient evals       = 2794      

|| g ||                   = 9.9666795e-07   
Final f                   = 6.7719173e-10   
Function value at final x = 6.7719173e-10   
Solve time                = 3.489766    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   MSQRTBLS

 Problem name: MSQRTBLS

 Double precision version will be formed

 The objective function uses 1024 nonlinear groups
 
 There are 1024 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: MSQRTBLS (n = 1024)
walltime at start:     0.000001
!!  MSQRTBLS   1024    2253    4507    2260     0    9.6355900e-07    3.3955336e-10    2.875628

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.635590e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : MSQRTBLS
# variables               = 1024      

# cg iterations           = 2253      

# cg function evals       = 4507      

# cg gradient evals       = 2260      

|| g ||                   = 9.6355900e-07   
Final f                   = 3.3955336e-10   
Function value at final x = 3.3955336e-10   
Solve time                = 2.875628    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   NCB20

 Problem name: NCB20

 Double precision version will be formed

 The objective function uses 5001 nonlinear groups
 
 There are 5010 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: NCB20 (n = 5010)
walltime at start:     0.000000
!!     NCB20   5010    2596    4222    4733     0    6.2318023e-07   -1.1174683e+03   15.360039

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.231802e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : NCB20
# variables               = 5010      

# cg iterations           = 2596      

# cg function evals       = 4222      

# cg gradient evals       = 4733      

|| g ||                   = 6.2318023e-07   
Final f                   = -1.1174683e+03  
Function value at final x = -1.1174683e+03  
Solve time                = 15.360039   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   NCB20B

 Problem name: NCB20B

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: NCB20B (n = 5000)
walltime at start:     0.000001
!!    NCB20B   5000    3023    4816    6193     0    9.3818203e-07    7.3513006e+03   19.301139

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.381820e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : NCB20B
# variables               = 5000      

# cg iterations           = 3023      

# cg function evals       = 4816      

# cg gradient evals       = 6193      

|| g ||                   = 9.3818203e-07   
Final f                   = 7.3513006e+03   
Function value at final x = 7.3513006e+03   
Solve time                = 19.301139   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   NONCVXU2

 Problem name: NONCVXU2

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: NONCVXU2 (n = 5000)
walltime at start:     0.000001
!!  NONCVXU2   5000    6740   12777    7445     0    9.6555603e-07    1.1584984e+04    9.034555

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.655560e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : NONCVXU2
# variables               = 5000      

# cg iterations           = 6740      

# cg function evals       = 12777     

# cg gradient evals       = 7445      

|| g ||                   = 9.6555603e-07   
Final f                   = 1.1584984e+04   
Function value at final x = 1.1584984e+04   
Solve time                = 9.034555    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   NONDIA

 Problem name: NONDIA

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: NONDIA (n = 5000)
walltime at start:     0.000001
!!    NONDIA   5000       7      25      20     0    8.8854080e-10    3.9554748e-25    0.011293

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.885408e-10 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : NONDIA
# variables               = 5000      

# cg iterations           = 7         

# cg function evals       = 25        

# cg gradient evals       = 20        

|| g ||                   = 8.8854080e-10   
Final f                   = 3.9554748e-25   
Function value at final x = 3.9554748e-25   
Solve time                = 0.011293    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   NONDQUAR

 Problem name: NONDQUAR

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: NONDQUAR (n = 5000)
walltime at start:     0.000001
!!  NONDQUAR   5000    2438    4884    2450     0    7.9432325e-07    3.4975227e-06    0.871683

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.943233e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : NONDQUAR
# variables               = 5000      

# cg iterations           = 2438      

# cg function evals       = 4884      

# cg gradient evals       = 2450      

|| g ||                   = 7.9432325e-07   
Final f                   = 3.4975227e-06   
Function value at final x = 3.4975227e-06   
Solve time                = 0.871683    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   OSBORNEA

 Problem name: OSBORNEA

 Double precision version will be formed

 The objective function uses 33 nonlinear groups
 
 There are 5 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: OSBORNEA (n = 5)
walltime at start:     0.000001
!!  OSBORNEA      5      93     205     123     0    6.1667202e-07    5.4648947e-05    0.001470

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.166720e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : OSBORNEA
# variables               = 5         

# cg iterations           = 93        

# cg function evals       = 205       

# cg gradient evals       = 123       

|| g ||                   = 6.1667202e-07   
Final f                   = 5.4648947e-05   
Function value at final x = 5.4648947e-05   
Solve time                = 0.001470    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   OSBORNEB

 Problem name: OSBORNEB

 Double precision version will be formed

 The objective function uses 65 nonlinear groups
 
 There are 11 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: OSBORNEB (n = 11)
walltime at start:     0.000001
!!  OSBORNEB     11      62     127      65     0    4.3772597e-07    4.0137736e-02    0.002941

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.377260e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : OSBORNEB
# variables               = 11        

# cg iterations           = 62        

# cg function evals       = 127       

# cg gradient evals       = 65        

|| g ||                   = 4.3772597e-07   
Final f                   = 4.0137736e-02   
Function value at final x = 4.0137736e-02   
Solve time                = 0.002941    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   OSCIGRAD

 Problem name: OSCIGRAD

 Double precision version will be formed

 The objective function uses 100000 nonlinear groups
 
 There are 100000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: OSCIGRAD (n = 100000)
walltime at start:     0.000000
!!  OSCIGRAD 100000      87     144     121     0    6.6369132e-07    3.6368841e-20    1.720564

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.636913e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : OSCIGRAD
# variables               = 100000    

# cg iterations           = 87        

# cg function evals       = 144       

# cg gradient evals       = 121       

|| g ||                   = 6.6369132e-07   
Final f                   = 3.6368841e-20   
Function value at final x = 3.6368841e-20   
Solve time                = 1.720564    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   OSCIPATH

 Problem name: OSCIPATH

 Double precision version will be formed

 The objective function uses 10 nonlinear groups
 
 There are 10 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: OSCIPATH (n = 10)
walltime at start:     0.000001
!!  OSCIPATH     10  325569  688982  415487     0    9.7791475e-07    2.3043909e-05    0.976042

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.779147e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : OSCIPATH
# variables               = 10        

# cg iterations           = 325569    

# cg function evals       = 688982    

# cg gradient evals       = 415487    

|| g ||                   = 9.7791475e-07   
Final f                   = 2.3043909e-05   
Function value at final x = 2.3043909e-05   
Solve time                = 0.976042    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER1C

 Problem name: PALMER1C

 Double precision version will be formed

 The objective function uses 35 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER1C (n = 8)
the problem has a quadratic objective
walltime at start:     0.000001
!!  PALMER1C      8      16       0      19     0    2.4244819e-09    9.7604956e-02    0.000027

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.424482e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER1C
# variables               = 8         

# cg iterations           = 16        

# cg function evals       = 0         

# cg gradient evals       = 19        

|| g ||                   = 2.4244819e-09   
Final f                   = 9.7604956e-02   
Function value at final x = 9.7605048e-02   
Solve time                = 0.000027    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER1D

 Problem name: PALMER1D

 Double precision version will be formed

 The objective function uses 35 nonlinear groups
 
 There are 7 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER1D (n = 7)
the problem has a quadratic objective
walltime at start:     0.000000
!!  PALMER1D      7       8       0      10     0    1.9908839e-09    6.5267393e-01    0.000018

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.990884e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER1D
# variables               = 7         

# cg iterations           = 8         

# cg function evals       = 0         

# cg gradient evals       = 10        

|| g ||                   = 1.9908839e-09   
Final f                   = 6.5267393e-01   
Function value at final x = 6.5267398e-01   
Solve time                = 0.000018    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER2C

 Problem name: PALMER2C

 Double precision version will be formed

 The objective function uses 23 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER2C (n = 8)
the problem has a quadratic objective
walltime at start:     0.000000
!!  PALMER2C      8      16       0      19     0    3.4370657e-09    1.4368901e-02    0.000025

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.437066e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER2C
# variables               = 8         

# cg iterations           = 16        

# cg function evals       = 0         

# cg gradient evals       = 19        

|| g ||                   = 3.4370657e-09   
Final f                   = 1.4368901e-02   
Function value at final x = 1.4368886e-02   
Solve time                = 0.000025    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER3C

 Problem name: PALMER3C

 Double precision version will be formed

 The objective function uses 23 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER3C (n = 8)
the problem has a quadratic objective
walltime at start:     0.000001
!!  PALMER3C      8       9       0      11     0    2.6737155e-09    1.9537629e-02    0.000024

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.673715e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER3C
# variables               = 8         

# cg iterations           = 9         

# cg function evals       = 0         

# cg gradient evals       = 11        

|| g ||                   = 2.6737155e-09   
Final f                   = 1.9537629e-02   
Function value at final x = 1.9537639e-02   
Solve time                = 0.000024    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER4C

 Problem name: PALMER4C

 Double precision version will be formed

 The objective function uses 23 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER4C (n = 8)
the problem has a quadratic objective
walltime at start:     0.000001
!!  PALMER4C      8      10       0      13     0    1.0183288e-14    5.0310635e-02    0.000024

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.018329e-14 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER4C
# variables               = 8         

# cg iterations           = 10        

# cg function evals       = 0         

# cg gradient evals       = 13        

|| g ||                   = 1.0183288e-14   
Final f                   = 5.0310635e-02   
Function value at final x = 5.0310687e-02   
Solve time                = 0.000024    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER5C

 Problem name: PALMER5C

 Double precision version will be formed

 The objective function uses 12 nonlinear groups
 
 There are 6 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER5C (n = 6)
walltime at start:     0.000001
!!  PALMER5C      6       6      13       7     0    3.7526926e-12    2.1280866e+00    0.000048

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.752693e-12 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER5C
# variables               = 6         

# cg iterations           = 6         

# cg function evals       = 13        

# cg gradient evals       = 7         

|| g ||                   = 3.7526926e-12   
Final f                   = 2.1280866e+00   
Function value at final x = 2.1280866e+00   
Solve time                = 0.000048    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER6C

 Problem name: PALMER6C

 Double precision version will be formed

 The objective function uses 13 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER6C (n = 8)
walltime at start:     0.000001
!!  PALMER6C      8      11      24      24     0    3.2098588e-08    1.6387438e-02    0.000072

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.209859e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER6C
# variables               = 8         

# cg iterations           = 11        

# cg function evals       = 24        

# cg gradient evals       = 24        

|| g ||                   = 3.2098588e-08   
Final f                   = 1.6387438e-02   
Function value at final x = 1.6387438e-02   
Solve time                = 0.000072    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER7C

 Problem name: PALMER7C

 Double precision version will be formed

 The objective function uses 13 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER7C (n = 8)
walltime at start:     0.000001
!!  PALMER7C      8      11      20      20     0    4.0473345e-08    6.0198720e-01    0.000065

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.047334e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER7C
# variables               = 8         

# cg iterations           = 11        

# cg function evals       = 20        

# cg gradient evals       = 20        

|| g ||                   = 4.0473345e-08   
Final f                   = 6.0198720e-01   
Function value at final x = 6.0198720e-01   
Solve time                = 0.000065    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PALMER8C

 Problem name: PALMER8C

 Double precision version will be formed

 The objective function uses 12 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PALMER8C (n = 8)
walltime at start:     0.000001
!!  PALMER8C      8      11      18      17     0    8.7351837e-10    1.5976783e-01    0.000066

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.735184e-10 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PALMER8C
# variables               = 8         

# cg iterations           = 11        

# cg function evals       = 18        

# cg gradient evals       = 17        

|| g ||                   = 8.7351837e-10   
Final f                   = 1.5976783e-01   
Function value at final x = 1.5976783e-01   
Solve time                = 0.000066    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PARKCH

 Problem name: PARKCH

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 15 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PARKCH (n = 15)
walltime at start:     0.000001
!!    PARKCH     15      62     184     426    51    1.7544548e+06   -1.0849032e+06    5.142177

CG_DESCENT (Version 7.0, May 1, 2018) run status: 51

The line search could not locate a finite objective value
after Parm->ninf_tries = 20 attempts.


 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PARKCH
# variables               = 15        

# cg iterations           = 62        

# cg function evals       = 184       

# cg gradient evals       = 426       

|| g ||                   = 1.7544548e+06   
Final f                   = -1.0849032e+06  
Function value at final x = -4.7716347e+06  
Solve time                = 5.142177    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PENALTY1

 Problem name: PENALTY1

 Double precision version will be formed

 The objective function uses 1000 linear groups
 The objective function uses 1 nonlinear group
 
 There are 1000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PENALTY1 (n = 1000)
walltime at start:     0.000001
!!  PENALTY1   1000      29      69      47     0    5.0512618e-07    9.6862082e-03    0.003078

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.051262e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PENALTY1
# variables               = 1000      

# cg iterations           = 29        

# cg function evals       = 69        

# cg gradient evals       = 47        

|| g ||                   = 5.0512618e-07   
Final f                   = 9.6862082e-03   
Function value at final x = 9.6862082e-03   
Solve time                = 0.003078    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PENALTY2

 Problem name: PENALTY2

 Double precision version will be formed

 The objective function uses 400 nonlinear groups
 
 There are 200 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PENALTY2 (n = 200)
walltime at start:     0.000001
!!  PENALTY2    200     191     221     354     0    9.3555135e-07    4.7116277e+13    0.027349

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.355514e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PENALTY2
# variables               = 200       

# cg iterations           = 191       

# cg function evals       = 221       

# cg gradient evals       = 354       

|| g ||                   = 9.3555135e-07   
Final f                   = 4.7116277e+13   
Function value at final x = 4.7116277e+13   
Solve time                = 0.027349    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   PENALTY3

 Problem name: PENALTY3

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 5 nonlinear groups
 
 There are 200 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: PENALTY3 (n = 200)
walltime at start:     0.000001
!!  PENALTY3    200      92     270     201     0    5.8670263e-07    9.9809265e-04    0.688068

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 5.867026e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : PENALTY3
# variables               = 200       

# cg iterations           = 92        

# cg function evals       = 270       

# cg gradient evals       = 201       

|| g ||                   = 5.8670263e-07   
Final f                   = 9.9809265e-04   
Function value at final x = 9.9809265e-04   
Solve time                = 0.688068    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   POWELLSG

 Problem name: POWELLSG

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: POWELLSG (n = 5000)
walltime at start:     0.000001
!!  POWELLSG   5000      26      53      27     0    1.2018814e-07    8.6653896e-12    0.008015

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.201881e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : POWELLSG
# variables               = 5000      

# cg iterations           = 26        

# cg function evals       = 53        

# cg gradient evals       = 27        

|| g ||                   = 1.2018814e-07   
Final f                   = 8.6653896e-12   
Function value at final x = 8.6653896e-12   
Solve time                = 0.008015    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   POWER

 Problem name: POWER

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 10000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: POWER (n = 10000)
walltime at start:     0.000001
!!     POWER  10000     375     759     386     0    9.9428323e-07    1.9177242e-09    0.140358

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.942832e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : POWER
# variables               = 10000     

# cg iterations           = 375       

# cg function evals       = 759       

# cg gradient evals       = 386       

|| g ||                   = 9.9428323e-07   
Final f                   = 1.9177242e-09   
Function value at final x = 1.9177242e-09   
Solve time                = 0.140358    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   QUARTC

 Problem name: QUARTC

 Double precision version will be formed

 The objective function uses 5000 linear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: QUARTC (n = 5000)
walltime at start:     0.000001
!!    QUARTC   5000      17      37      21     0    7.0514220e-07    2.7590839e-06    0.005647

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.051422e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : QUARTC
# variables               = 5000      

# cg iterations           = 17        

# cg function evals       = 37        

# cg gradient evals       = 21        

|| g ||                   = 7.0514220e-07   
Final f                   = 2.7590839e-06   
Function value at final x = 2.7590839e-06   
Solve time                = 0.005647    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ROSENBR

 Problem name: ROSENBR

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ROSENBR (n = 2)
walltime at start:     0.000001
!!   ROSENBR      2      33      76      45     0    3.6716479e-09    8.8085204e-21    0.000082

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.671648e-09 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ROSENBR
# variables               = 2         

# cg iterations           = 33        

# cg function evals       = 76        

# cg gradient evals       = 45        

|| g ||                   = 3.6716479e-09   
Final f                   = 8.8085204e-21   
Function value at final x = 8.8085204e-21   
Solve time                = 0.000082    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   S308

 Problem name: S308

 Double precision version will be formed

 The objective function uses 3 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: S308 (n = 2)
walltime at start:     0.000001
!!      S308      2       8      19      12     0    9.4535388e-07    7.7319906e-01    0.000053

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.453539e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : S308
# variables               = 2         

# cg iterations           = 8         

# cg function evals       = 19        

# cg gradient evals       = 12        

|| g ||                   = 9.4535388e-07   
Final f                   = 7.7319906e-01   
Function value at final x = 7.7319906e-01   
Solve time                = 0.000053    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SCHMVETT

 Problem name: SCHMVETT

 Double precision version will be formed

 The objective function uses 4998 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SCHMVETT (n = 5000)
walltime at start:     0.000001
!!  SCHMVETT   5000      43      73      60     0    6.4347041e-07   -1.4994000e+04    0.120820

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.434704e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SCHMVETT
# variables               = 5000      

# cg iterations           = 43        

# cg function evals       = 73        

# cg gradient evals       = 60        

|| g ||                   = 6.4347041e-07   
Final f                   = -1.4994000e+04  
Function value at final x = -1.4994000e+04  
Solve time                = 0.120820    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SENSORS

 Problem name: SENSORS

 Double precision version will be formed

 The objective function uses 10000 nonlinear groups
 
 There are 100 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SENSORS (n = 100)
walltime at start:     0.000000
!!   SENSORS    100      22      50      32     0    9.5218079e-07   -2.0882812e+03    0.177022

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.521808e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SENSORS
# variables               = 100       

# cg iterations           = 22        

# cg function evals       = 50        

# cg gradient evals       = 32        

|| g ||                   = 9.5218079e-07   
Final f                   = -2.0882812e+03  
Function value at final x = -2.0882812e+03  
Solve time                = 0.177022    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SINEVAL

 Problem name: SINEVAL

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SINEVAL (n = 2)
walltime at start:     0.000001
!!   SINEVAL      2      64     147      94     0    1.1945282e-14    7.7332904e-32    0.000168

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.194528e-14 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SINEVAL
# variables               = 2         

# cg iterations           = 64        

# cg function evals       = 147       

# cg gradient evals       = 94        

|| g ||                   = 1.1945282e-14   
Final f                   = 7.7332904e-32   
Function value at final x = 7.7332904e-32   
Solve time                = 0.000168    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SINQUAD

 Problem name: SINQUAD

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SINQUAD (n = 5000)
walltime at start:     0.000001
!!   SINQUAD   5000      14      39      32     0    2.0715902e-08   -6.7570138e+06    0.039052

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.071590e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SINQUAD
# variables               = 5000      

# cg iterations           = 14        

# cg function evals       = 39        

# cg gradient evals       = 32        

|| g ||                   = 2.0715902e-08   
Final f                   = -6.7570138e+06  
Function value at final x = -6.7570138e+06  
Solve time                = 0.039052    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SISSER

 Problem name: SISSER

 Double precision version will be formed

 The objective function uses 3 nonlinear groups
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SISSER (n = 2)
walltime at start:     0.000000
!!    SISSER      2       6      18      14     0    2.2204721e-08    6.8302615e-12    0.000045

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.220472e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SISSER
# variables               = 2         

# cg iterations           = 6         

# cg function evals       = 18        

# cg gradient evals       = 14        

|| g ||                   = 2.2204721e-08   
Final f                   = 6.8302615e-12   
Function value at final x = 6.8302615e-12   
Solve time                = 0.000045    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SNAIL

 Problem name: SNAIL

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SNAIL (n = 2)
walltime at start:     0.000000
!!     SNAIL      2     114     268     196     0    2.9756168e-07    3.2095227e-14    0.000312

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.975617e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SNAIL
# variables               = 2         

# cg iterations           = 114       

# cg function evals       = 268       

# cg gradient evals       = 196       

|| g ||                   = 2.9756168e-07   
Final f                   = 3.2095227e-14   
Function value at final x = 3.2095227e-14   
Solve time                = 0.000312    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SPARSINE

 Problem name: SPARSINE

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SPARSINE (n = 5000)
walltime at start:     0.000000
!!  SPARSINE   5000   27272   27561   54259     0    9.9891100e-07    1.3590556e-10   71.255045

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.989110e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SPARSINE
# variables               = 5000      

# cg iterations           = 27272     

# cg function evals       = 27561     

# cg gradient evals       = 54259     

|| g ||                   = 9.9891100e-07   
Final f                   = 1.3590556e-10   
Function value at final x = 1.3590556e-10   
Solve time                = 71.255045   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SPARSQUR

 Problem name: SPARSQUR

 Double precision version will be formed

 The objective function uses 10000 nonlinear groups
 
 There are 10000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SPARSQUR (n = 10000)
walltime at start:     0.000001
!!  SPARSQUR  10000      28      61      35     0    1.1572768e-07    9.7199564e-10    0.092303

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 1.157277e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SPARSQUR
# variables               = 10000     

# cg iterations           = 28        

# cg function evals       = 61        

# cg gradient evals       = 35        

|| g ||                   = 1.1572768e-07   
Final f                   = 9.7199564e-10   
Function value at final x = 9.7199564e-10   
Solve time                = 0.092303    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SPMSRTLS

 Problem name: SPMSRTLS

 Double precision version will be formed

 The objective function uses 8329 nonlinear groups
 
 There are 4999 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SPMSRTLS (n = 4999)
walltime at start:     0.000000
!!  SPMSRTLS   4999     201     405     206     0    9.5830239e-07    3.3105147e-11    0.226240

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.583024e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SPMSRTLS
# variables               = 4999      

# cg iterations           = 201       

# cg function evals       = 405       

# cg gradient evals       = 206       

|| g ||                   = 9.5830239e-07   
Final f                   = 3.3105147e-11   
Function value at final x = 3.3105147e-11   
Solve time                = 0.226240    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SROSENBR

 Problem name: SROSENBR

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SROSENBR (n = 5000)
walltime at start:     0.000037
!!  SROSENBR   5000      11      23      12     0    4.8292836e-10    4.2359717e-19    0.004853

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.829284e-10 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SROSENBR
# variables               = 5000      

# cg iterations           = 11        

# cg function evals       = 23        

# cg gradient evals       = 12        

|| g ||                   = 4.8292836e-10   
Final f                   = 4.2359717e-19   
Function value at final x = 4.2359717e-19   
Solve time                = 0.004853    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SSBRYBND

 Problem name: SSBRYBND

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SSBRYBND (n = 5000)
walltime at start:     0.000001
!!  SSBRYBND   5000    9307   15594   12380     0    9.6157683e-07    6.2950893e-15   11.899717

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.615768e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SSBRYBND
# variables               = 5000      

# cg iterations           = 9307      

# cg function evals       = 15594     

# cg gradient evals       = 12380     

|| g ||                   = 9.6157683e-07   
Final f                   = 6.2950893e-15   
Function value at final x = 6.2950893e-15   
Solve time                = 11.899717   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   SSCOSINE

 Problem name: SSCOSINE

 Double precision version will be formed

 The objective function uses 4999 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: SSCOSINE (n = 5000)
walltime at start:     0.000001
!!  SSCOSINE   5000     164     390     228    44    9.2244309e+03    3.3617043e+01    0.249024

CG_DESCENT (Version 7.0, May 1, 2018) run status: 44

The line search fails.
Possible causes of this error message:
   - your tolerance may be too strict: grad_tol =  1.000000e-06
   - your gradient routine has an error
   - Parm->pert_eps may be too small.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : SSCOSINE
# variables               = 5000      

# cg iterations           = 164       

# cg function evals       = 390       

# cg gradient evals       = 228       

|| g ||                   = 9.2244309e+03   
Final f                   = 3.3617043e+01   
Function value at final x = 1.0047219e+03   
Solve time                = 0.249024    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   STRATEC

 Problem name: STRATEC

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 10 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: STRATEC (n = 10)
walltime at start:     0.000001
!!   STRATEC     10     476    1052     934    51    3.5841518e+01    2.3204897e+03   11.299523

CG_DESCENT (Version 7.0, May 1, 2018) run status: 51

The line search could not locate a finite objective value
after Parm->ninf_tries = 20 attempts.


 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : STRATEC
# variables               = 10        

# cg iterations           = 476       

# cg function evals       = 1052      

# cg gradient evals       = 934       

|| g ||                   = 3.5841518e+01   
Final f                   = 2.3204897e+03   
Function value at final x = 2.2174673e+03   
Solve time                = 11.299523   seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   TESTQUAD

 Problem name: TESTQUAD

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: TESTQUAD (n = 5000)
the problem has a quadratic objective
walltime at start:     0.000001
!!  TESTQUAD   5000    1490       0    1491     0    8.4102097e-07   -1.8608709e-06    0.078007

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.410210e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : TESTQUAD
# variables               = 5000      

# cg iterations           = 1490      

# cg function evals       = 0         

# cg gradient evals       = 1491      

|| g ||                   = 8.4102097e-07   
Final f                   = -1.8608709e-06  
Function value at final x = 4.9868548e-13   
Solve time                = 0.078007    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   TOINTGOR

 Problem name: TOINTGOR

 Double precision version will be formed

 The objective function uses 83 nonlinear groups
 
 There are 50 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: TOINTGOR (n = 50)
walltime at start:     0.000001
!!  TOINTGOR     50     135     234     175     0    9.9819687e-07    1.3739055e+03    0.002672

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.981969e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : TOINTGOR
# variables               = 50        

# cg iterations           = 135       

# cg function evals       = 234       

# cg gradient evals       = 175       

|| g ||                   = 9.9819687e-07   
Final f                   = 1.3739055e+03   
Function value at final x = 1.3739055e+03   
Solve time                = 0.002672    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   TOINTGSS

 Problem name: TOINTGSS

 Double precision version will be formed

 The objective function uses 4998 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: TOINTGSS (n = 5000)
walltime at start:     0.000000
!!  TOINTGSS   5000       4       9       5     0    2.2872519e-07    1.0002001e+01    0.004488

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.287252e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : TOINTGSS
# variables               = 5000      

# cg iterations           = 4         

# cg function evals       = 9         

# cg gradient evals       = 5         

|| g ||                   = 2.2872519e-07   
Final f                   = 1.0002001e+01   
Function value at final x = 1.0002001e+01   
Solve time                = 0.004488    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   TOINTPSP

 Problem name: TOINTPSP

 Double precision version will be formed

 The objective function uses 83 nonlinear groups
 
 There are 50 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: TOINTPSP (n = 50)
walltime at start:     0.000001
!!  TOINTPSP     50     145     283     181     0    7.3353077e-07    2.2556041e+02    0.001569

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.335308e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : TOINTPSP
# variables               = 50        

# cg iterations           = 145       

# cg function evals       = 283       

# cg gradient evals       = 181       

|| g ||                   = 7.3353077e-07   
Final f                   = 2.2556041e+02   
Function value at final x = 2.2556041e+02   
Solve time                = 0.001569    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   TOINTQOR

 Problem name: TOINTQOR

 Double precision version will be formed

 The objective function uses 83 linear groups
 
 There are 50 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: TOINTQOR (n = 50)
the problem has a quadratic objective
walltime at start:     0.000001
!!  TOINTQOR     50      29       0      30     0    4.4231462e-07    1.1754722e+03    0.000178

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.423146e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : TOINTQOR
# variables               = 50        

# cg iterations           = 29        

# cg function evals       = 0         

# cg gradient evals       = 30        

|| g ||                   = 4.4231462e-07   
Final f                   = 1.1754722e+03   
Function value at final x = 1.1754722e+03   
Solve time                = 0.000178    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   TQUARTIC

 Problem name: TQUARTIC

 Double precision version will be formed

 The objective function uses 5000 nonlinear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: TQUARTIC (n = 5000)
walltime at start:     0.000000
!!  TQUARTIC   5000      12      33      24     0    3.4493904e-08    2.0081575e-20    0.015117

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.449390e-08 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : TQUARTIC
# variables               = 5000      

# cg iterations           = 12        

# cg function evals       = 33        

# cg gradient evals       = 24        

|| g ||                   = 3.4493904e-08   
Final f                   = 2.0081575e-20   
Function value at final x = 2.0081575e-20   
Solve time                = 0.015117    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   TRIDIA

 Problem name: TRIDIA

 Double precision version will be formed

 The objective function uses 5000 linear groups
 
 There are 5000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: TRIDIA (n = 5000)
the problem has a quadratic objective
walltime at start:     0.000000
!!    TRIDIA   5000     780       0     781     0    9.7406364e-07    9.9879629e-10    0.057660

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 9.740636e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : TRIDIA
# variables               = 5000      

# cg iterations           = 780       

# cg function evals       = 0         

# cg gradient evals       = 781       

|| g ||                   = 9.7406364e-07   
Final f                   = 9.9879629e-10   
Function value at final x = 4.9904374e-15   
Solve time                = 0.057660    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   VARDIM

 Problem name: VARDIM

 Double precision version will be formed

 The objective function uses 202 nonlinear groups
 
 There are 200 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: VARDIM (n = 200)
walltime at start:     0.000001
!!    VARDIM    200      10      21      11     0    2.5959262e-07    4.2117690e-19    0.000188

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.595926e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : VARDIM
# variables               = 200       

# cg iterations           = 10        

# cg function evals       = 21        

# cg gradient evals       = 11        

|| g ||                   = 2.5959262e-07   
Final f                   = 4.2117690e-19   
Function value at final x = 4.2117690e-19   
Solve time                = 0.000188    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   VAREIGVL

 Problem name: VAREIGVL

 Double precision version will be formed

 The objective function uses 50 nonlinear groups
 
 There are 50 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: VAREIGVL (n = 50)
walltime at start:     0.000000
!!  VAREIGVL     50      23      47      24     0    8.4765966e-07    3.7975332e-13    0.000417

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 8.476597e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : VAREIGVL
# variables               = 50        

# cg iterations           = 23        

# cg function evals       = 47        

# cg gradient evals       = 24        

|| g ||                   = 8.4765966e-07   
Final f                   = 3.7975332e-13   
Function value at final x = 3.7975332e-13   
Solve time                = 0.000417    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   VIBRBEAM

 Problem name: VIBRBEAM

 Double precision version will be formed

 The objective function uses 30 nonlinear groups
 
 There are 8 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: VIBRBEAM (n = 8)
walltime at start:     0.000000
!!  VIBRBEAM      8     145     331     223     0    4.5304478e-07    1.7488668e+00    0.006603

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 4.530448e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : VIBRBEAM
# variables               = 8         

# cg iterations           = 145       

# cg function evals       = 331       

# cg gradient evals       = 223       

|| g ||                   = 4.5304478e-07   
Final f                   = 1.7488668e+00   
Function value at final x = 1.7488668e+00   
Solve time                = 0.006603    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   WATSON

 Problem name: WATSON

 Double precision version will be formed

 The objective function uses 1 linear group
 The objective function uses 30 nonlinear groups
 
 There are 12 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: WATSON (n = 12)
walltime at start:     0.000001
!!    WATSON     12      64     129      66     0    7.5631946e-07    1.5758028e-07    0.000689

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 7.563195e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : WATSON
# variables               = 12        

# cg iterations           = 64        

# cg function evals       = 129       

# cg gradient evals       = 66        

|| g ||                   = 7.5631946e-07   
Final f                   = 1.5758028e-07   
Function value at final x = 1.5758028e-07   
Solve time                = 0.000689    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   WOODS

 Problem name: WOODS

 Double precision version will be formed

 The objective function uses 4001 linear groups
 The objective function uses 2000 nonlinear groups
 
 There are 4000 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: WOODS (n = 4000)
walltime at start:     0.000000
!!     WOODS   4000      22      50      31     0    6.9363198e-07    5.4121811e-13    0.012247

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 6.936320e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : WOODS
# variables               = 4000      

# cg iterations           = 22        

# cg function evals       = 50        

# cg gradient evals       = 31        

|| g ||                   = 6.9363198e-07   
Final f                   = 5.4121811e-13   
Function value at final x = 5.4121811e-13   
Solve time                = 0.012247    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   YFITU

 Problem name: YFITU

 Double precision version will be formed

 The objective function uses 17 nonlinear groups
 
 There are 3 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: YFITU (n = 3)
walltime at start:     0.000001
!!     YFITU      3      84     200     130     0    3.8954077e-07    6.6697367e-13    0.000798

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 3.895408e-07 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : YFITU
# variables               = 3         

# cg iterations           = 84        

# cg function evals       = 200       

# cg gradient evals       = 130       

|| g ||                   = 3.8954077e-07   
Final f                   = 6.6697367e-13   
Function value at final x = 6.6697367e-13   
Solve time                = 0.000798    seconds

 ******************************************************************

 ====================================================

sifdecoder -A pc64.lnx.gfo -st   ZANGWIL2

 Problem name: ZANGWIL2

 Double precision version will be formed

 The objective function uses 1 nonlinear group
 
 There are 2 free variables
 
 
 File successfully decoded
 CUTEST: tools (double precision version) compiled successfully
 CUTEst: cg_descent (double precision version) compiled successfully

 Problem: ZANGWIL2 (n = 2)
the problem has a quadratic objective
walltime at start:     0.000001
!!  ZANGWIL2      2       1       0       2     0    2.2204460e-16   -1.8200000e+01    0.000011

CG_DESCENT (Version 7.0, May 1, 2018) run status: 0

Success: Error 2.220446e-16 satisfies error tolerance 1.000000e-06.



 *********************** CG statistics ************************

Code used                 : cg_descent
Problem                   : ZANGWIL2
# variables               = 2         

# cg iterations           = 1         

# cg function evals       = 0         

# cg gradient evals       = 2         

|| g ||                   = 2.2204460e-16   
Final f                   = -1.8200000e+01  
Function value at final x = -1.8200000e+01  
Solve time                = 0.000011    seconds

 ******************************************************************

 ====================================================

