options
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MAQAO 2.17.7 - bf11934ec971510c7f500e010d8ca2474fd787ed::20230726-123240 || 2023/07/26

maqao OV -S1 --with-FLOPS WP=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so c=config_par.lua xp=OS1_skx_icc_OMP52_altpin --replace 

CPY:  [true] /home/eoseret/GROMACS/build/icc/bin/gmx_mpi --> /home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/binaries/gmx_mpi

LNK:  /home/eoseret/GROMACS/DATA/GROMACS_TestCaseA --> /home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset

CPY:  [true] /home/eoseret/GROMACS/build/icc/lib/libgromacs_mpi.so.7 --> /home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/libs/libgromacs_mpi.so.7

CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_0" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_1" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_2" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_3" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_4" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_5" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_6" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_7" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_8" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_9" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_10" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_11" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_12" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_13" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_14" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_15" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_16" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_17" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_18" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_19" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_20" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_21" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_22" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_23" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_24" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_25" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_26" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_27" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_28" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_29" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   /home/eoseret/MAQAODEV/bin/maqao lprof  --xp="/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/tools/lprof_npsu_run_30" --mpi-command="mpirun -n 1 --bind-to none"  -p=SSE_AVX_FLOP ppn=1  -ldi=libgromacs_mpi.so.7  -- /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
In run 1x52, 189 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

191 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 run_1, 179 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

35 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 run_2, 164 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

34 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 run_3, 177 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

22 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 run_4, 190 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

20 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 run_5, 183 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

16 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 run_6, 178 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

13 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 run_7, 165 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

9 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 run_8, 174 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

17 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 run_9, 183 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

13 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 run_10, 182 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 run_11, 184 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

15 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 run_12, 175 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 run_13, 192 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 run_14, 185 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 run_15, 181 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 run_16, 190 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

4 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 run_17, 172 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

2 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 run_18, 188 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 run_19, 178 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

4 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 run_20, 176 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

5 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 run_21, 178 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

6 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 run_22, 181 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

2 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 run_23, 188 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

5 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 run_24, 179 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

2 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 run_25, 181 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

5 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 run_26, 196 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

1 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 run_27, 188 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

4 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 run_28, 173 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

In run run_29, 183 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

1 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 run_30, 185 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

2 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

CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD: cd "/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/dataset";  OMP_TOOL_LIBRARIES=/home/eoseret/MAQAO/src/maqao/libprompt/libprompt_icc.so TARGET_PARALLEL_SECTION=ALL  OMP_PLACES=cores  OMP_PROC_BIND=close  OMP_NUM_THREADS=52   mpirun -n 1 --bind-to none /home/eoseret/GROMACS/build/icc/bin/gmx_mpi mdrun -s ion_channel.tpr -nsteps 10000 -deffnm icc
CMD:  /home/eoseret/MAQAODEV/bin/maqao otter  -input=/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/OTTER/input_manifest.csv -output=/home/eoseret/GROMACS/OV_dirs/OS1_skx_icc_OMP52_altpin/OTTER/output_manifest.csv

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