options
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MAQAO 2.19.1 - e26c8ffcefb997f114892e36591c060f98f53e6a::20240206-190005 || 2024/02/06
/home/eoseret/MAQAO/bin/maqao OV -R1 --with-FLOPS --with-scalability=strong --with-topology c=config_scal.json xp=oneview_results_scal 
CPY:  [true] /beegfs/hackathon/users/eoseret/qaas_runs/170-861-0321/intel/CloverLeafFC/run/binaries/gcc_13/exec --> /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec
CMD:  I_MPI_PIN_DOMAIN=auto:scatter  OMP_PLACES=threads  OMP_PROC_BIND=spread  OMP_NUM_THREADS=1   /home/eoseret/MAQAO/bin/maqao lprof  --xp="/beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/tools/lprof_npsu_run_0" --mpi-command="mpirun -np 2"  -p=SSE_AVX_FLOP  --collect-topology ppn=2   -- /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec 
CMD:  OMP_NUM_THREADS=2  I_MPI_PIN_DOMAIN=auto:scatter  OMP_PLACES=threads  OMP_PROC_BIND=spread   /home/eoseret/MAQAO/bin/maqao lprof  --xp="/beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/tools/lprof_npsu_run_1" --mpi-command="mpirun -np 2"  -p=SSE_AVX_FLOP  --collect-topology ppn=2   -- /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec 
CMD:  OMP_NUM_THREADS=4  I_MPI_PIN_DOMAIN=auto:scatter  OMP_PLACES=threads  OMP_PROC_BIND=spread   /home/eoseret/MAQAO/bin/maqao lprof  --xp="/beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/tools/lprof_npsu_run_2" --mpi-command="mpirun -np 2"  -p=SSE_AVX_FLOP  --collect-topology ppn=2   -- /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec 
CMD:  OMP_NUM_THREADS=8  I_MPI_PIN_DOMAIN=auto:scatter  OMP_PLACES=threads  OMP_PROC_BIND=spread   /home/eoseret/MAQAO/bin/maqao lprof  --xp="/beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/tools/lprof_npsu_run_3" --mpi-command="mpirun -np 2"  -p=SSE_AVX_FLOP  --collect-topology ppn=2   -- /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec 
CMD:  OMP_NUM_THREADS=16  I_MPI_PIN_DOMAIN=auto:scatter  OMP_PLACES=threads  OMP_PROC_BIND=spread   /home/eoseret/MAQAO/bin/maqao lprof  --xp="/beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/tools/lprof_npsu_run_4" --mpi-command="mpirun -np 2"  -p=SSE_AVX_FLOP  --collect-topology ppn=2   -- /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec 
CMD:  OMP_NUM_THREADS=32  I_MPI_PIN_DOMAIN=auto:scatter  OMP_PLACES=threads  OMP_PROC_BIND=spread   /home/eoseret/MAQAO/bin/maqao lprof  --xp="/beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/tools/lprof_npsu_run_5" --mpi-command="mpirun -np 2"  -p=SSE_AVX_FLOP  --collect-topology ppn=2   -- /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec 
CMD:  OMP_NUM_THREADS=64  I_MPI_PIN_DOMAIN=auto:scatter  OMP_PLACES=threads  OMP_PROC_BIND=spread   /home/eoseret/MAQAO/bin/maqao lprof  --xp="/beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/tools/lprof_npsu_run_6" --mpi-command="mpirun -np 2"  -p=SSE_AVX_FLOP  --collect-topology ppn=2   -- /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec 
CMD:  OMP_NUM_THREADS=96  I_MPI_PIN_DOMAIN=auto:scatter  OMP_PLACES=threads  OMP_PROC_BIND=spread   /home/eoseret/MAQAO/bin/maqao lprof  --xp="/beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/tools/lprof_npsu_run_7" --mpi-command="mpirun -np 2"  -p=SSE_AVX_FLOP  --collect-topology ppn=2   -- /beegfs/hackathon/users/eoseret/qaas_runs/CloverLeaf-FC/intel/CloverLeafFC/run/oneview_runs/compilers/gcc_13/oneview_results_scal/binaries/exec 
In run 2x1, 89 loops were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
27 functions were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
In run 2x2, 90 loops were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
21 functions were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
In run 2x4, 88 loops were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
12 functions were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
In run 2x8, 92 loops were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
10 functions were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
In run 2x16, 91 loops were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
8 functions were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
In run 2x32, 80 loops were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
7 functions were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
In run 2x64, 81 loops were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
11 functions were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
In run 2x96, 83 loops were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
7 functions were discarded from static analysis because their coverage
are lower than object_coverage_threshold value (0.01%).
That represents 0% of the execution time. To include them, change the value
in the experiment directory configuration file, then rerun the command with the additionnal parameter
--force-static-analysis
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