OV - - Outputs

Executable Output


* [MAQAO] Info: Detected 2 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =      1 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.5624
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.2690

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        76349627
 --  (4) Integer space for factors (estimated)  =         8727328
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81870
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =               0
 Number of split nodes                          =               0
 RINFOG(1) Operations during elimination (estim)= 1.488D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Total space in MBytes, IC factorization      (INFOG(17)):             971
    Total space in MBytes,  OOC factorization    (INFOG(27)):             200

 Elapsed time in analysis driver=       8.2487
 Analysis time by clock_gettime(): 8.249 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =      1 and #OMP =      1

 Elapsed time in save structure driver=       0.0002
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =      1 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0



****** FACTORIZATION STEP ********

 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =               1
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        76349627
 INFOG(4) Integer space for factors (estim.)=         8727328
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81870
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01

* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m
 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1558
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Effective size of S     (based on INFO(39))=            101200636

 Redistrib: total data local/sent           =               0               0
 Elapsed time to reformat/distribute matrix =      0.1095


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =       230000
 Size of async. emission buffer (bytes).. =       230012
 Small emission buffer (bytes) .......... =           20

 ** Memory allocated, total in Mbytes           (INFOG(19)):         971
 ** Memory effectively used, total in Mbytes    (INFOG(22)):         784

 Elapsed time for factorization                     =      1.9155

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 7.824D+07
 ------ (3) Operations in node elimination          = 1.488D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        76349627
 INFOG (10) Integer space for factors               =         8727328
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =               0

 Elapsed time in factorization driver               =      2.1908
 Factorization time by clock_gettime(): 2.1910 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =      1 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_0  #
#################################################################################################################################################################


* [MAQAO] Info: Detected 2 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =      2 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.5866
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.2690
 A root of estimated size         1382  has been selected for Scalapack.

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        77209064
 --  (4) Integer space for factors (estimated)  =         8728739
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81870
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =               1
 Number of split nodes                          =               0
 RINFOG(1) Operations during elimination (estim)= 1.575D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Maximum estim. space in Mbytes, IC facto.    (INFOG(16)):             540
    Total space in MBytes, IC factorization      (INFOG(17)):            1050
    Maximum estim. space in Mbytes, OOC facto.   (INFOG(26)):             145
    Total space in MBytes,  OOC factorization    (INFOG(27)):             289

 Elapsed time in analysis driver=       8.4575
 Analysis time by clock_gettime(): 8.458 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =      2 and #OMP =      1

 Elapsed time in save structure driver=       0.0004
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =      2 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0



****** FACTORIZATION STEP ********

 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =               2
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        77209064
 INFOG(4) Integer space for factors (estim.)=         8728739
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81870
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m
 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1569
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Average Effective size of S     (based on INFO(39))=             52606677
 Elapsed time to reformat/distribute matrix =      0.1471


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =      1147920
 Size of async. emission buffer (bytes).. =      4603161
 Small emission buffer (bytes) .......... =          228
 ** Memory allocated, max in Mbytes             (INFOG(18)):         540

 ** Memory allocated, total in Mbytes           (INFOG(19)):        1051
 ** Memory effectively used, max in  Mbytes     (INFOG(21)):         436
 ** Memory effectively used, total in Mbytes    (INFOG(22)):         847

 Elapsed time to process root node                  =      0.0392

 Elapsed time for factorization                     =      1.0626

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 7.821D+07
 ------ (3) Operations in node elimination          = 1.575D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        77209064
 INFOG (10) Integer space for factors               =         8728753
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =               0

 Elapsed time in factorization driver               =      1.3785
 Factorization time by clock_gettime(): 1.3798 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =      2 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_1  #
#################################################################################################################################################################


* [MAQAO] Info: Detected 4 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =      4 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.5807
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.2696
 A root of estimated size         1382  has been selected for Scalapack.

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        77209064
 --  (4) Integer space for factors (estimated)  =         8736265
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81870
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =               3
 Number of split nodes                          =               0
 RINFOG(1) Operations during elimination (estim)= 1.575D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Maximum estim. space in Mbytes, IC facto.    (INFOG(16)):             296
    Total space in MBytes, IC factorization      (INFOG(17)):            1136
    Maximum estim. space in Mbytes, OOC facto.   (INFOG(26)):             102
    Total space in MBytes,  OOC factorization    (INFOG(27)):             406

 Elapsed time in analysis driver=       8.4435
 Analysis time by clock_gettime(): 8.444 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =      4 and #OMP =      1
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

 Elapsed time in save structure driver=       0.0004
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =      4 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0



****** FACTORIZATION STEP ********

 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =               4
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        77209064
 INFOG(4) Integer space for factors (estim.)=         8736265
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81870
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01

* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1563
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Average Effective size of S     (based on INFO(39))=             26707021
 Elapsed time to reformat/distribute matrix =      0.1352


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =      1147948
 Size of async. emission buffer (bytes).. =      4603272
 Small emission buffer (bytes) .......... =          700
 ** Memory allocated, max in Mbytes             (INFOG(18)):         296

 ** Memory allocated, total in Mbytes           (INFOG(19)):        1137
 ** Memory effectively used, max in  Mbytes     (INFOG(21)):         243
 ** Memory effectively used, total in Mbytes    (INFOG(22)):         930

 Elapsed time to process root node                  =      0.0370

 Elapsed time for factorization                     =      0.5602

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 7.865D+07
 ------ (3) Operations in node elimination          = 1.575D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        77209064
 INFOG (10) Integer space for factors               =         8736016
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =               0

 Elapsed time in factorization driver               =      0.8617
 Factorization time by clock_gettime(): 0.8688 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =      4 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_2  #
#################################################################################################################################################################


* [MAQAO] Info: Detected 8 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =      8 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.5810
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.2695
 A root of estimated size         1382  has been selected for Scalapack.

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        77191406
 --  (4) Integer space for factors (estimated)  =         8744543
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81871
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =               9
 Number of split nodes                          =               1
 RINFOG(1) Operations during elimination (estim)= 1.575D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Maximum estim. space in Mbytes, IC facto.    (INFOG(16)):             177
    Total space in MBytes, IC factorization      (INFOG(17)):            1331
    Maximum estim. space in Mbytes, OOC facto.   (INFOG(26)):              82
    Total space in MBytes,  OOC factorization    (INFOG(27)):             619

 Elapsed time in analysis driver=       8.4860
 Analysis time by clock_gettime(): 8.486 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =      8 and #OMP =      1

 Elapsed time in save structure driver=       0.0004
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =      8 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0


* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m

****** FACTORIZATION STEP ********

 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =               8
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        77191406
 INFOG(4) Integer space for factors (estim.)=         8744543
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81871
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01

 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1577
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Average Effective size of S     (based on INFO(39))=             13976431
 Elapsed time to reformat/distribute matrix =      0.1298


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =      1139504
 Size of async. emission buffer (bytes).. =      4569405
 Small emission buffer (bytes) .......... =         2164
 ** Memory allocated, max in Mbytes             (INFOG(18)):         177

 ** Memory allocated, total in Mbytes           (INFOG(19)):        1333
 ** Memory effectively used, max in  Mbytes     (INFOG(21)):         148
 ** Memory effectively used, total in Mbytes    (INFOG(22)):        1115

 Elapsed time to process root node                  =      0.0246

 Elapsed time for factorization                     =      0.3132

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 7.941D+07
 ------ (3) Operations in node elimination          = 1.575D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        77193043
 INFOG (10) Integer space for factors               =         8743714
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =               0

 Elapsed time in factorization driver               =      0.6202
 Factorization time by clock_gettime(): 0.6213 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =      8 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_3  #
#################################################################################################################################################################


* [MAQAO] Info: Detected 16 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =     16 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.5673
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.2641
 A root of estimated size         1382  has been selected for Scalapack.

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        77184744
 --  (4) Integer space for factors (estimated)  =         8771998
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81873
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =              23
 Number of split nodes                          =               3
 RINFOG(1) Operations during elimination (estim)= 1.575D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Maximum estim. space in Mbytes, IC facto.    (INFOG(16)):             137
    Total space in MBytes, IC factorization      (INFOG(17)):            1719
    Maximum estim. space in Mbytes, OOC facto.   (INFOG(26)):              93
    Total space in MBytes,  OOC factorization    (INFOG(27)):            1054

 Elapsed time in analysis driver=       8.4241
 Analysis time by clock_gettime(): 8.424 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =     16 and #OMP =      1
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

 Elapsed time in save structure driver=       0.0005
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =     16 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m

****** FACTORIZATION STEP ********

 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =              16
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        77184744
 INFOG(4) Integer space for factors (estim.)=         8771998
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81873
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01

 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1593
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Average Effective size of S     (based on INFO(39))=              7537577
 Elapsed time to reformat/distribute matrix =      0.1377


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =      1139616
 Size of async. emission buffer (bytes).. =      4569848
 Small emission buffer (bytes) .......... =         6924
 ** Memory allocated, max in Mbytes             (INFOG(18)):         138

 ** Memory allocated, total in Mbytes           (INFOG(19)):        1721
 ** Memory effectively used, max in  Mbytes     (INFOG(21)):         124
 ** Memory effectively used, total in Mbytes    (INFOG(22)):        1480

 Elapsed time to process root node                  =      0.0212

 Elapsed time for factorization                     =      0.1937

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 8.025D+07
 ------ (3) Operations in node elimination          = 1.575D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        77190575
 INFOG (10) Integer space for factors               =         8767917
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =               0

 Elapsed time in factorization driver               =      0.5095
 Factorization time by clock_gettime(): 0.5128 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =     16 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_4  #
#################################################################################################################################################################


* [MAQAO] Info: Detected 32 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =     32 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.8248
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.3053
 A root of estimated size         1382  has been selected for Scalapack.

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        77165049
 --  (4) Integer space for factors (estimated)  =         8852226
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81874
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =              48
 Number of split nodes                          =               4
 RINFOG(1) Operations during elimination (estim)= 1.575D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Maximum estim. space in Mbytes, IC facto.    (INFOG(16)):             111
    Total space in MBytes, IC factorization      (INFOG(17)):            2289
    Maximum estim. space in Mbytes, OOC facto.   (INFOG(26)):              86
    Total space in MBytes,  OOC factorization    (INFOG(27)):            1698

 Elapsed time in analysis driver=       8.8684
 Analysis time by clock_gettime(): 8.869 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =     32 and #OMP =      1

 Elapsed time in save structure driver=       0.0011
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =     32 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0


* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------


****** FACTORIZATION STEP ********

 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =              32
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        77165049
 INFOG(4) Integer space for factors (estim.)=         8852226
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81874
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01

 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1751
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Average Effective size of S     (based on INFO(39))=              3773517
 Elapsed time to reformat/distribute matrix =      0.1571


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =       971676
 Size of async. emission buffer (bytes).. =      3896421
 Small emission buffer (bytes) .......... =        24064
 ** Memory allocated, max in Mbytes             (INFOG(18)):         111

 ** Memory allocated, total in Mbytes           (INFOG(19)):        2292
 ** Memory effectively used, max in  Mbytes     (INFOG(21)):         102
 ** Memory effectively used, total in Mbytes    (INFOG(22)):        2028

 Elapsed time to process root node                  =      0.0262

 Elapsed time for factorization                     =      0.1697

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 8.021D+07
 ------ (3) Operations in node elimination          = 1.575D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        77188793
 INFOG (10) Integer space for factors               =         8829008
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =               4

 Elapsed time in factorization driver               =      0.5186
 Factorization time by clock_gettime(): 0.5331 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =     32 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_5  #
#################################################################################################################################################################


* [MAQAO] Info: Detected 64 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =     64 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.8376
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.2964
 A root of estimated size         1382  has been selected for Scalapack.

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        77143666
 --  (4) Integer space for factors (estimated)  =         8964997
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81877
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =              88
 Number of split nodes                          =               7
 RINFOG(1) Operations during elimination (estim)= 1.575D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Maximum estim. space in Mbytes, IC facto.    (INFOG(16)):             136
    Total space in MBytes, IC factorization      (INFOG(17)):            3511
    Maximum estim. space in Mbytes, OOC facto.   (INFOG(26)):             124
    Total space in MBytes,  OOC factorization    (INFOG(27)):            3046

 Elapsed time in analysis driver=       8.8762
 Analysis time by clock_gettime(): 8.877 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =     64 and #OMP =      1

 Elapsed time in save structure driver=       0.0014
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =     64 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m

****** FACTORIZATION STEP ********

 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =              64
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        77143666
 INFOG(4) Integer space for factors (estim.)=         8964997
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81877
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01

 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1808
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Average Effective size of S     (based on INFO(39))=              1920692
 Elapsed time to reformat/distribute matrix =      0.1925


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =       972120
 Size of async. emission buffer (bytes).. =      3898192
 Small emission buffer (bytes) .......... =        88864
 ** Memory allocated, max in Mbytes             (INFOG(18)):         136

 ** Memory allocated, total in Mbytes           (INFOG(19)):        3512
 ** Memory effectively used, max in  Mbytes     (INFOG(21)):         130
 ** Memory effectively used, total in Mbytes    (INFOG(22)):        3239

 Elapsed time to process root node                  =      0.0312

 Elapsed time for factorization                     =      0.1305

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 8.113D+07
 ------ (3) Operations in node elimination          = 1.575D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        77184486
 INFOG (10) Integer space for factors               =         8915946
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =              10

 Elapsed time in factorization driver               =      0.5272
 Factorization time by clock_gettime(): 0.5417 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =     64 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_6  #
#################################################################################################################################################################


* [MAQAO] Info: Detected 128 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =    128 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.8013
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.2976
 A root of estimated size         1382  has been selected for Scalapack.

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        77108361
 --  (4) Integer space for factors (estimated)  =         9082632
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81877
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =              97
 Number of split nodes                          =               7
 RINFOG(1) Operations during elimination (estim)= 1.575D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Maximum estim. space in Mbytes, IC facto.    (INFOG(16)):             123
    Total space in MBytes, IC factorization      (INFOG(17)):            5926
    Maximum estim. space in Mbytes, OOC facto.   (INFOG(26)):             121
    Total space in MBytes,  OOC factorization    (INFOG(27)):            5748

 Elapsed time in analysis driver=       8.8601
 Analysis time by clock_gettime(): 8.862 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =    128 and #OMP =      1

 Elapsed time in save structure driver=       0.0031
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =    128 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0



****** FACTORIZATION STEP ********

 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =             128
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        77108361
 INFOG(4) Integer space for factors (estim.)=         9082632
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81877
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01

 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1712
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Average Effective size of S     (based on INFO(39))=              1021937
 Elapsed time to reformat/distribute matrix =      0.2192


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =       973004
 Size of async. emission buffer (bytes).. =      3901733
 Small emission buffer (bytes) .......... =       339924
 ** Memory allocated, max in Mbytes             (INFOG(18)):         123

 ** Memory allocated, total in Mbytes           (INFOG(19)):        5928
 ** Memory effectively used, max in  Mbytes     (INFOG(21)):         121
 ** Memory effectively used, total in Mbytes    (INFOG(22)):        5621

 Elapsed time to process root node                  =      0.0367

 Elapsed time for factorization                     =      0.1708

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 8.104D+07
 ------ (3) Operations in node elimination          = 1.575D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        77184486
 INFOG (10) Integer space for factors               =         9016322
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =              12

 Elapsed time in factorization driver               =      0.5875
 Factorization time by clock_gettime(): 0.6148 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =    128 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_7  #
#################################################################################################################################################################


* [MAQAO] Info: Detected 172 Lprof instances in igk-0805. 
If this is incorrect, rerun with number-processes-per-node=X

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   1     1228045        4904179
      executing #MPI =    172 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 =================================================
 MUMPS compiled with option -Dmetis
 MUMPS compiled with option -Dpord
 MUMPS compiled with option -Dptscotch
 MUMPS compiled with option -Dscotch
 =================================================
L D L^T Solver for general symmetric matrices
Type of parallelism: Working host

 ****** ANALYSIS STEP ********

 Processing a graph of size:   1228045
 Average density of rows/columns =    6
 Ordering based on METIS
 ELAPSED TIME SPENT IN METIS reordering  =      7.7064
 SYMBOLIC based on column counts 
 ELAPSED TIME IN symbolic factorization  =      0.2871
 A root of estimated size         1382  has been selected for Scalapack.

Leaving analysis phase with  ...
 INFOG(1)                                       =               0
 INFOG(2)                                       =               0
 -- (20) Number of entries in factors (estim.)  =        66350237
 --  (3) Real space for factors    (estimated)  =        77073683
 --  (4) Integer space for factors (estimated)  =         9151796
 --  (5) Maximum frontal size      (estimated)  =            1386
 --  (6) Number of nodes in the tree            =           81877
 -- (32) Type of analysis effectively used      =               1
 --  (7) Ordering option effectively used       =               5
 ICNTL (6) Maximum transversal option           =               0
 ICNTL (7) Pivot order option                   =               7
 ICNTL(12) Ordering symmetric indef. matrices   =               1
 ICNTL(13) Parallelism/splitting of root node   =               0
 ICNTL(14) Percentage of memory relaxation      =              30
 ICNTL(15) Analysis by block effectively used   =               0
 ICNTL(18) Distributed input matrix (on if >0)  =               0
 ICNTL(32) Forward elimination during facto.    =               0
 ICNTL(35) BLR activation                       =               0
 ICNTL(48) Tree based multithreading (effective)=               0
 ICNTL(58) Symbolic factorization option        =               2
 Number of level 2 nodes                        =              97
 Number of split nodes                          =               7
 RINFOG(1) Operations during elimination (estim)= 1.575D+10

 MEMORY ESTIMATIONS ... 
 Estimations with standard Full-Rank (FR) factorization:
    Maximum estim. space in Mbytes, IC facto.    (INFOG(16)):              97
    Total space in MBytes, IC factorization      (INFOG(17)):            7523
    Maximum estim. space in Mbytes, OOC facto.   (INFOG(26)):              93
    Total space in MBytes,  OOC factorization    (INFOG(27)):            7531

 Elapsed time in analysis driver=       8.7022
 Analysis time by clock_gettime(): 8.704 s

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   7     1228045        4904179
      executing #MPI =    172 and #OMP =      1

 Elapsed time in save structure driver=       0.0026
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------

* [MAQAO] Info: STARTING COUNTERS (igk-0805)
[0m ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 On return from DMUMPS, INFOG(1)=             -71
 On return from DMUMPS, INFOG(2)=               0
PRE FACTO START LPROF----------------------

Entering DMUMPS 5.8.2 from C interface with JOB, N, NNZ =   2     1228045        4904179
      executing #MPI =    172 and #OMP =      1

Advanced settings:
   KEEP(370) Static mapping              =         1
   KEEP(371) Advanced optimizations      =         0

 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
 ** ERROR RETURN ** FROM DMUMPS INFO(1)=  -71
 ** INFO(2)=               0
PRE FACTO START LPROF----------------------
PRE FACTO START LPROF----------------------
PRE FACTO START LPROF----------------------


****** FACTORIZATION STEP ********

 GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...
 Number of working processes                =             172
 ICNTL(22) Out-of-core option               =               0
 ICNTL(35) BLR activation (eff. choice)     =               0
 ICNTL(37) BLR CB compression (eff. choice) =               0
 ICNTL(49) Compact workarray S (end facto.) =               0
 ICNTL(56) Effective value during facto.    =               0
 ICNTL(14) Memory relaxation                =              30
 INFOG(3) Real space for factors (estimated)=        77073683
 INFOG(4) Integer space for factors (estim.)=         9151796
 Maximum frontal size (estimated)           =            1386
 Number of nodes in the tree                =           81877
 ICNTL(23) Memory allowed (value on host)   =               0
           Sum over all procs               =               0
 Memory provided by user, sum of LWK_USER   =               0
 Effective threshold for pivoting, CNTL(1)  =      0.1000D-01

 Statistics on the scaling phase
 Elapsed time for scaling                   =      0.1723
 Max difference from 1 after scaling the entries for ONE-NORM (option 7/8)   = 0.30D-01

 Average Effective size of S     (based on INFO(39))=               791247
 Elapsed time to reformat/distribute matrix =      0.1844


 Allocated buffers
 ------------------
 Size of reception buffer in bytes ...... =       894692
 Size of async. emission buffer (bytes).. =      3587709
 Small emission buffer (bytes) .......... =       607444
 ** Memory allocated, max in Mbytes             (INFOG(18)):          97

 ** Memory allocated, total in Mbytes           (INFOG(19)):        7528
 ** Memory effectively used, max in  Mbytes     (INFOG(21)):          95
 ** Memory effectively used, total in Mbytes    (INFOG(22)):        7206

 Elapsed time to process root node                  =      0.0270

 Elapsed time for factorization                     =      0.1342

Leaving factorization with ...
 RINFOG (2) Operations in node assembly             = 8.101D+07
 ------ (3) Operations in node elimination          = 1.575D+10
 ICNTL  (8) Scaling effectively used                =               7
 INFOG  (9) Real space for factors                  =        77184486
 INFOG (10) Integer space for factors               =         9079891
 INFOG (11) Maximum front size                      =            1386
 INFOG (29) Number of entries in factors            =        66350237
 INFOG (12) Number of negative pivots               =               0
 INFOG (13) Number of delayed pivots                =               0
 Number of 2x2 pivots in type 1 nodes               =               0
 Number of 2x2 pivots in type 2 nodes               =               0
 RINFOG(19) Smallest pivot WITH perturbed pivots    = 5.885D-02
 RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 5.885D-02
 RINFOG(21) Largest pivot in absolute value         = 1.000D+00
 INFOG (24) Effective value of ICNTL(12)            =               1
 INFOG (14) Number of memory compress               =               9

 Elapsed time in factorization driver               =      0.5204
 Factorization time by clock_gettime(): 0.5458 s

Entering DMUMPS 5.8.2 from C interface with JOB =  -2
      executing #MPI =    172 and #OMP =      1


Your experiment path is /home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8

To display your profiling results:
#################################################################################################################################################################
#    LEVEL    |     REPORT     |                                                            COMMAND                                                             #
#################################################################################################################################################################
#  Functions  |  Cluster-wide  |  maqao lprof -df xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8      #
#  Functions  |  Per-node      |  maqao lprof -df -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8  #
#  Functions  |  Per-process   |  maqao lprof -df -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8  #
#  Functions  |  Per-thread    |  maqao lprof -df -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8  #
#  Loops      |  Cluster-wide  |  maqao lprof -dl xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8      #
#  Loops      |  Per-node      |  maqao lprof -dl -dn xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8  #
#  Loops      |  Per-process   |  maqao lprof -dl -dp xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8  #
#  Loops      |  Per-thread    |  maqao lprof -dl -dt xp=/home/mlkaps_org/kevin/matrices/test_m1-172_o1_thermal2_allowextra_scala_kptr_probe/tools/lprof_run_8  #
#################################################################################################################################################################

Report Configuration

Executable Output