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CAE utilities: Difference between revisions
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will you take care that these are found when called through the commandline or e.g. a job script. | will you take care that these are found when called through the commandline or e.g. a job script. | ||
=Workspaces= | |||
==ws_exchange procedure== | |||
{{Note|text = obsolete, see [[#ws_exchange replacements|note about ws_exchange replacements]] }} | |||
Exchanging data between users can be done using a [[Workspace_mechanism | workspace]]. | |||
If the users don't share a common group it is not advisable to just create such a workspace with permissions | |||
set to read (or/and write) and execute to world (others) since everyone on the systems gets access to the data. | |||
ws_exchange uses such a workspace with a slight modification: | |||
the workspace directory permissions are set to execute for all, but only the user is allowed to read its contents. | |||
A readable(/writable) subdirectory is therefore "invisble"/secret to others. | |||
This approach is '''not''' secure, but better than the "open to all" approach. | |||
{{Warning|text = Never use the secret subdirectory name within the arguments of command line tools. (also see [[#ws_cp2exchange|ws_cp2exchange]]) }} | |||
===ws_exchange=== | |||
Looking at the help first: | |||
$ module load cae | |||
$ ws_exchange -h | |||
usage: ws_exchange [-s <secret subdirectory name>] [-d <workspace duration>] [-w <workspacename>] [-f <workspace filesystem>] [-p <permissions>] | |||
-s <secret subdirectory name> [default: random name] | |||
-d <workspace duration [d]> [default: 1 days (48 hours)] | |||
-w <workspacename> [default: exchange%Y%m%d%H%M%S] | |||
-f <workspace filesystem> [default: default of ws_allocate] | |||
-p <subdirectory permissions> [default: go+rwx] | |||
ws_exchange will create a workspace, which is executable but not readable for the world. | |||
Its contents are hidden and a additional created subdirectory, which name serves as a password, could be open to the world. | |||
Executing ws_exchange with default options will create a one-day workspace in the default file system | |||
with a name starting with "exchange" followed by the date and time and a subdirectory with random name | |||
and execute/read/write permissions: | |||
$ ws_exchange | |||
Workspace created on gerris | |||
exchange20081018113236 Oct 18 11:32:51 0 days 23 hours | |||
/scratch2/ws/hpcstruc-exchange20081018113236-0 | |||
exchange directory ---------------------------------------- | |||
/scratch2/ws/hpcstruc-exchange20081018113236-0/Yj2mskvAuC6 | |||
------------------------------------------------------------ | |||
you might ws_cp2exchange to copy your files to exchange20081018113236 | |||
Concerned other user have to be notified about the path | |||
("/scratch2/ws/hpcstruc-exchange20081018113236-0/Yj2mskvAuC6" in the example) | |||
e.g. by email. Another example: | |||
$ ws_exchange -w myexchangews -s secretsubdir -d 30 -f lustre -p go+rx | |||
Workspace created on gerris | |||
myexchangews Oct 18 12:43:19 0 days 23 hours | |||
/scratch2/ws/hpcstruc-myexchangews-0 | |||
exchange directory ---------------------------------------- | |||
/scratch2/ws/hpcstruc-myexchangews-0/kkE2WVIY | |||
------------------------------------------------------------ | |||
you might ws_cp2exchange to copy your files to myexchangews | |||
Now the workspace (on the lustre file system) named myexchangews lasts for 30 days. | |||
===ws_cp2exchange=== | |||
Files also have permissions and especially copying files to a ws_exchange workspace | |||
these permissions are automatically set too restrictive. It's also a good idea first | |||
to change the current directory to the ws_exchange subdirectory and copy to this | |||
directory than in the other direction. To simplify this, [[#ws_cp2exchange|ws_cp2exchange]] was created. | |||
$ ws_cp2exchange -h | |||
usage: ws_cp2exchange [cp|mv] [<options>] <src> <wsname> | |||
To copy a file "testfile" to the ws_exchange workspace subdirectory created above simply write | |||
$ ws_cp2exchange testfile exchange20081018113236 | |||
working directory: /scratch2/ws/hpcstruc-exchange20081018113236-0/Yj2mskvAuC6 | |||
cp /DDN1/HLRS/hlrs/hpcstruc/testfile . | |||
change permissions to g+rwx,o+rwx | |||
done | |||
Copying whole directories needs an option (see "man cp"): | |||
$ ws_cp2exchange cp -r testdir1 myexchangews | |||
working directory: /scratch2/ws/hpcstruc-myexchangews-0/kkE2WVIY | |||
cp -r /DDN1/HLRS/hlrs/hpcstruc/testdir1 . | |||
change permissions to g+rwx,o+rwx | |||
done | |||
(The "cp" can be omitted, since copy is the default mode.) | |||
To move a directory (or file) use the "mv" mode: | |||
$ ws_cp2exchange mv testdir2 myexchangews | |||
working directory: /scratch2/ws/hpcstruc-myexchangews-0/kkE2WVIY | |||
mv /DDN1/HLRS/hlrs/hpcstruc/testdir2 . | |||
change permissions to g+rwx,o+rwx | |||
done | |||
== ws_exchange replacements == | |||
{{Note|text = The ws_exchange utility is not needed any more due to the introduction of | |||
ACLs and the new [[Workspace_mechanism#Share_your_workspace_with_another_user | ws_share]] [[Workspace_mechanism | workspace]]tool. }} | |||
=== Usage of ACLs === | |||
Since Access Control Lists are now enabled, there's not only user, group and other to specify the permissions for file objects, | |||
but a list. Creating a new workspace, the directory could be made e.g. readable to a specific user SHAREUSER like | |||
<code> | |||
$ WSDIR=ws_allocate $WSNAME | |||
$ setfacl -d -m u:$SHAREUSER:r $WSDIR | |||
</code> | |||
=== ws_share === | |||
see the [[ Workspace_mechanism#Share_your_workspace_with_another_user | Workspace mechanism documentation ]] | |||
=Jobs= | |||
== jobnodesinfo == | |||
jobnodesinfo.py shows which nodes are used by a job (and for HAWK how they are placed): | |||
$ jobnodesinfo.py --help | |||
usage: jobnodesinfo [-h] [-v] [-p PLATFORM] [-n NODESFILE] [-j JOBID] | |||
[-f FORMAT] [-o [OUTPUTFILE]] [--nocolor] | |||
[--nodedistribmarkers NODEDISTRIBMARKERS] | |||
[nodes [nodes ...]] | |||
print nodes information | |||
positional arguments: | |||
nodes | |||
optional arguments: | |||
-h, --help show this help message and exit | |||
-v, --verbose verbose level (default, if not set: ERROR) | |||
-p PLATFORM, --platform PLATFORM | |||
platform name (default, if not set: hawk) | |||
-n NODESFILE, --nodesfile NODESFILE | |||
nodes file (default, if not set: $PBS_NODEFILE) | |||
-j JOBID, --jobid JOBID | |||
PBS JobID | |||
-f FORMAT, --format FORMAT | |||
format string (default, if not set: platform specific) | |||
-o [OUTPUTFILE], --outputfile [OUTPUTFILE] | |||
redirect output to file (default: stdout) | |||
--nocolor no color output | |||
--nodedistribmarkers NODEDISTRIBMARKERS | |||
nodesdistribution markers | |||
Within a job there's no need to set a JobID, since | |||
-n $PBS_JOBID resp. -n $PBS_NODEFILE is automatically set as a default. | |||
==qgen== | ==qgen== | ||
qgen will generate a job script based on a template. | qgen will generate a job script based on a template. | ||
qgen -h | $ module load cae | ||
$ qgen -h | |||
qgen a tool to generate(&submit) pbs jobfiles (version: 2012/03/29, author: Martin Bernreuther <bernreuther@hlrs.de>) | |||
usage: qgen [-n|--nodes <nodes>] [-t|--walltime <walltime>] [-N|--jobname <jobname>] [-w|--workdir <workdir>] [-o <jobfile>] [--submit|--submitq <queue>|--execute] [-] [<template>] [<template_opt1><template_opt2>...] | |||
-n|--nodes <nodes> [default: 1] number of nodes($QGEN_NODES) | |||
-t|--walltime <walltime> [default: 24:00:00] walltime ($QGEN_WALLTIME) | |||
-N|--jobname <jobname> [default: <template><datetime>] job name ($QGEN_NAME) | |||
-w|--workdir <workdir> [default: /zhome/academic/HLRS/hlrs/hpcstruc] working directory ($QGEN_WORKDIR) | |||
-o <jobfile> [default: <stdout>] save script to <jobfile> | |||
--submit submit immediately (to standard queue) | |||
--submitq <queue> submit immediately to queue <queue> | |||
--execute execute immediately on current host | |||
-l list system templates | |||
-v be verbose | |||
-h|--help print help and exit | |||
<template> template to use | |||
<template_options> additional options depending on and passed directly to the template ($*) | |||
qgen will create a pbs jobscript based on a template, substituting | |||
$QGEN_NODES, $QGEN_WALLTIME, $QGEN_NAME, $QGEN_WORKDIR and $* (latter with template options) | |||
Instead of setting the values with command line arguments, | |||
environment variables might be used (except for template options) | |||
These environment variables might be also set in the configuration file | |||
.../.qgenrc, which is sourced at the beginning. | |||
Templates are searched for in $QGEN_TEMPLATE_PATH, actually set to: | |||
... | |||
will print some help and | will print some help and | ||
qgen -l | $ qgen -l | ||
will list all available templates found in the QGEN_TEMPLATE_PATH | will list all available templates found in the QGEN_TEMPLATE_PATH | ||
One of these templates is "test", which doesn't need any further arguments. | One of these templates is "test", which doesn't need any further arguments. | ||
qgen test | $ qgen test | ||
A job file will be printed. Save this job file to "test.pbs" and compare it with the template: | A job file will be printed. Save this job file to "test.pbs" and compare it with the template: | ||
qgen -o test.pbs test | $ qgen -o test.pbs test | ||
tkdiff test.pbs /app/rus/struct/bin/qgen_templates/test | $ tkdiff test.pbs /app/rus/struct/bin/qgen_templates/test | ||
(If there's no X avaiable, replace tkdiff with e.g. sdiff) | (If there's no X avaiable, replace tkdiff with e.g. sdiff) | ||
Line 32: | Line 220: | ||
(approx.) the same (for 2 requested nodes) can also be achieved with: | (approx.) the same (for 2 requested nodes) can also be achieved with: | ||
qgen -n 2 --submit test | $ qgen -n 2 --submit test | ||
However, omitting the -o option, the executed job script will not be saved for the user. | However, omitting the -o option, the executed job script will not be saved for the user. | ||
Line 38: | Line 226: | ||
In general, templates require additional options. The help might give you a hint at the end, e.g. | In general, templates require additional options. The help might give you a hint at the end, e.g. | ||
qgen -h abaqus | $ qgen -h abaqus | ||
qgen a tool to generate(&submit) pbs jobfiles (author: Martin Bernreuther <bernreuther@hlrs.de>) | qgen a tool to generate(&submit) pbs jobfiles (version: 2012/03/29, author: Martin Bernreuther <bernreuther@hlrs.de>) | ||
usage: qgen [-n|--nodes <nodes>] [-t|--walltime <walltime>] [-N|--jobname <jobname>] [-w|--workdir <workdir>] [-o <jobfile>] [--submit|--submitq <queue>|--execute] [-] [<template>] [<template_opt1> <template_opt2>...] | usage: qgen [-n|--nodes <nodes>] [-t|--walltime <walltime>] [-N|--jobname <jobname>] [-w|--workdir <workdir>] [-o <jobfile>] [--submit|--submitq <queue>|--execute] [-] [<template>] [<template_opt1> <template_opt2>...] | ||
-n|--nodes <nodes> [default: 1] | -n|--nodes <nodes> [default: 1:nehalem:ppn=8] number of nodes($QGEN_NODES) | ||
-t|--walltime <walltime> [default: | -t|--walltime <walltime> [default: 24:00:00] walltime ($QGEN_WALLTIME) | ||
-N|--jobname <jobname> [default: <template><datetime>] job name | -N|--jobname <jobname> [default: <template><datetime>] job name ($QGEN_NAME) | ||
-w|--workdir <workdir> [default: / | -w|--workdir <workdir> [default: /zhome/academic/HLRS/hlrs/hpcbern] working directory ($QGEN_WORKDIR) | ||
-o <jobfile> [default: <stdout>] jobfile | -o <jobfile> [default: <stdout>] save script to <jobfile> | ||
--submit submit immediately (to standard queue) | --submit submit immediately (to standard queue) | ||
--submitq <queue> submit immediately to queue | --submitq <queue> submit immediately to queue <queue> | ||
--execute execute on current host | --execute execute immediately on current host | ||
-l list system templates | -l list system templates | ||
-v be verbose | |||
-h|--help print help and exit | -h|--help print help and exit | ||
<template> template to use | <template> template to use | ||
<template_options> additional options depending on the template | <template_options> additional options depending on and passed directly to the template ($*) | ||
qgen will create a pbs jobscript based on a template, substituting | qgen will create a pbs jobscript based on a template, substituting | ||
$QGEN_NODES, $QGEN_WALLTIME, $QGEN_NAME, $QGEN_WORKDIR and $* (latter with template options) | $QGEN_NODES, $QGEN_WALLTIME, $QGEN_NAME, $QGEN_WORKDIR and $* (latter with template options) | ||
Instead of setting the values with command line arguments, | Instead of setting the values with command line arguments, | ||
environment variables might be used (except for template options) | |||
These environment variables might be also set in the configuration file | These environment variables might be also set in the configuration file | ||
/zhome/academic/HLRS/hlrs/hpcbern/.qgenrc, which is sourced at the beginning. | |||
Templates are searched for in $QGEN_TEMPLATE_PATH, actually set to: | Templates are searched for in $QGEN_TEMPLATE_PATH, actually set to: | ||
/zhome/academic/HLRS/hlrs/hpcbern/qgen_templates /opt/cae/bin/qgen_templates | |||
abaqus template_options: [<version>] <abaqus-options> | |||
cpus and mp_mode are set automatically | |||
examples: job=<jobname> | |||
692 job=<jobname> inp=<inputfile> user=<usrprgfile> scratch=. | |||
ABAQUS options: | |||
job=job-name | |||
[input=input-file] | |||
[user={source-file | object-file}] | |||
[oldjob=oldjob-name] | |||
[fil={append | new}] | |||
[globalmodel={results file-name | output database file-name}] | |||
[domains=number-of-domains] | |||
[dynamic_load_balancing] | |||
[standard_parallel={all | solver}] | |||
[gpus=number-of-gpgpus] | |||
[memory=memory-size] | |||
[interactive | background | queue=[queue-name][after=time]] | |||
[double={explicit | both | off | constraint}] | |||
[scratch=scratch-dir] | |||
[output_precision={single | full} ] | |||
[field={odb | exodus | nemesis} ] | |||
[history={odb | csv} ] | |||
[madymo=MADYMO-input-file] | |||
[port=co-simulation port-number] | |||
[host=co-simulation hostname] | |||
[listenerport=Co-Simulation Engine listener port-number] | |||
[remoteconnections=Co-Simulation Engine host:port-number, remote job host:port-number] | |||
[timeout=co-simulation timeout value in seconds] | |||
[unconnected_regions={yes | no}] | |||
(Nutzung dieses Templates in eigener Verantwortung - use this template on your own responsibility) | |||
Submitting an ABAQUS job on 4 nodes is as easy as executing | Submitting an ABAQUS job on 4 nodes is as easy as executing | ||
qgen -n 4 --submit abaqus job=<jobname> | $ qgen -n 4 --submit abaqus job=<jobname> | ||
with <jobname> as ABAQUS inputfile (absolute path or relative path to the current directory). | with <jobname> as ABAQUS inputfile (absolute path or relative path to the current directory). | ||
Line 73: | Line 293: | ||
As mentioned before, more control is gained, if the PBS jobfile is generated first and submitted afterwards, like with this LS-Dyna example: | As mentioned before, more control is gained, if the PBS jobfile is generated first and submitted afterwards, like with this LS-Dyna example: | ||
qgen -o lsdyna.pbs -n 8 dyna i=<inputfile> | $ qgen -o lsdyna.pbs -n 8 dyna i=<inputfile> | ||
qsub lsdyna.pbs | $ qsub lsdyna.pbs | ||
Before the submission with qsub, the jobfile might be changed/tuned. | Before the submission with qsub, the jobfile might be changed/tuned. | ||
Line 85: | Line 305: | ||
There's also a simple template to execute a single command: | There's also a simple template to execute a single command: | ||
qgen -N cmdtoptest --submit cmd top -b -n 1 | $ qgen -N cmdtoptest --submit cmd top -b -n 1 | ||
The -N option sets the jobname and affects the names of the stdout/stderr files. | The -N option sets the jobname and affects the names of the stdout/stderr files. | ||
Line 99: | Line 319: | ||
which directories qgen should include, searching for the given template name. | which directories qgen should include, searching for the given template name. | ||
To | One strategy would be to copy an already existing template file (see ''qgen -l'') to tailored it to the own particular needs. | ||
Another one is to use an existing job script and to replace some varying parts with QGEN variables. | |||
To show how such a template file looks like, a simple helloworld template will be created from scratch | |||
(if you're not familar with vi and you have X enabled, use another editor like nedit,kwrite,...): | (if you're not familar with vi and you have X enabled, use another editor like nedit,kwrite,...): | ||
mkdir ${HOME}/qgen_templates | $ mkdir ${HOME}/qgen_templates | ||
$ vim ${HOME}/qgen_templates/helloworld | |||
The content of ~/qgen_templates/helloworld might look like | The content of ~/qgen_templates/helloworld might look like | ||
Line 118: | Line 341: | ||
The $QGEN_XXX strings will be replaced by qgen with some job specific data according to default values and the qgen options set. | The $QGEN_XXX strings will be replaced by qgen with some job specific data according to default values and the qgen options set. | ||
Now we can use this template to submit | Now we can use this template to create job files and submit the first jobs based on this template | ||
( | (The cae module has to be loaded only once - otherwise the full path to qgen has to be typed...): | ||
module load cae | $ module load cae | ||
qgen -h helloworld | $ qgen -h helloworld | ||
qgen -o helloworld.pbs --submit helloworld Rumpelstilzchen | $ qgen -o helloworld1.pbs --submit helloworld Rumpelstilzchen | ||
$ qgen -o helloworld2.pbs -n 1:node_type=rome -t 0:03:00 -N helloworldtest -w $HOME --submit helloworld Rumpelstilzchen | |||
$ qstat -f | |||
The help message will also display the QGENHELP part of the template at the end. | The help message will also display the QGENHELP part of the template at the end. | ||
=== qgen usage examples === | |||
The examples will create a workspace, copy/extract an example input file and | |||
generate a job script file to be submitted. | |||
The provided qgen templates will try to use the academic licenses provided by HLRS. | |||
To use other liceses they have to be [[CAE_utilities#qgen_customization|adopted]]. | |||
==== dyna (LS-Dyna) ==== | |||
Using a single precision mpp LS-DYNA version to compute 100 time steps of the odb10m example on a Vulcan "genoa" node. | |||
The same procedure can also be used on Hawk, but the node_type has to be adopted to "rome". | |||
$ ws_allocate dynatest 1 | |||
$ cd `ws_find dynatest` | |||
$ gunzip -c /sw/general/x86_64/cae/lstc/examples/topcrunch.org/ODB-10M/odb10m-ver18.k.gz > odb10m.k | |||
$ module load cae | |||
$ qgen -n 1:node_type=genoa:mpiprocs=64 -t 0:05:00 -o job.pbs dyna s mpp i=odb10m.k ncycle=100 d=NODUMP | |||
$ qsub job.pbs | |||
==== ansys (ANSYS mechanical) ==== | |||
$ ws_allocate ansystest 1 | |||
$ cd `ws_find ansystest` | |||
$ cp /sw/general/x86_64/cae/ansys_inc/v241/ansys/site/ansys/mapdl/core/examples/verif/vm263.dat . | |||
$ module load cae | |||
$ qgen -n 1:node_type=clx-25:mpiprocs=1:ompthreads=10 -t 0:05:00 -o job.pbs ansys -i vm263.dat -o vm263_output | |||
$ qsub job.pbs | |||
==qwtime== | |||
qwtime will show the (remaining) walltime of a job. | |||
$ module load cae | |||
$ qwtime -h | |||
usage: /sw/general/x86_64/cae/bin/qwtime [-r] [-R] [-e] [--fmt '<FORMAT>'] [--datimefmt '<DATIMEFORMAT>'] [<JOBID> ...] | |||
-r print remaining time (FORMAT '%r') [sec] | |||
-R print remaining time (FORMAT '%:r') (HH:MM:SS) | |||
-e print (estimated) end time (FORMAT '%e') (also see --datimefmt) | |||
--fmt <FORMAT> print with format <FORMAT> | |||
(default:'%j\tjobname:\t%n (jobowner: %o, #hosts: %#h, host1: %h1)\n%j\tjobworkdir:\t%d\n%j\ttime range:\t%s\t%e\t(%:w)\n%j\twalltime used:\t%:u\t(%us, %%u%)\n%j\twalltime remaining:\t%:r\t(%rs, %%r%)\n%j\t|%b|\n') | |||
environment variable qwtimeARGfmtDEFAULT (not set) | |||
--datimefmt <DATIMEFORMAT> use time format <DATIMEFORMAT> | |||
(default:'%Y-%m-%dT%H:%M:%S') | |||
environment variable: qwtimeARGdatimefmtDEFAULT (not set) | |||
<JOBID> job ID (default: PBS_JOBID or actual USER jobs) | |||
FORMAT: | |||
%j job ID (without suffix, %J with suffix) | |||
%n job Name | |||
%o job Owner | |||
%h job hosts (%h1 first host/MOM) | |||
%d job workdir | |||
%s start time (also see --datimefmt) | |||
%e (estimated) endtime (also see --datimefmt) | |||
%w requested Walltime [sec] (%:w [HH:MM:SS]) | |||
%u used walltime [sec] (%:u [HH:MM:SS], %%u [%]) | |||
%r remaining walltime [sec] (%:r [HH:MM:SS], %%r [%]) | |||
%b progress bar | |||
DATIMEFORMAT: see "man 1 date | grep -m1 -A105 '^ *FORMAT'" | |||
If no JOBIDs are given, the actual running jobs will be queried. | |||
Using a --fmt format string, which might include format specifiers, the output can be customized. | |||
With options like e.g. -r only a specific information (e.g. remaining walltime in seconds) will be printed (adjusting the format string). | |||
==qcat== | ==qcat== | ||
Line 136: | Line 428: | ||
working directory. | working directory. | ||
qcat -h | $ qcat -h | ||
usage: / | usage: /opt/cae/bin/qcat [o|e] [<JOBID>] [-c] [-t [<N>]] | ||
o|e show output or error output file default:o | |||
<JOBID> OpenPBS job ID default: last own job | |||
-c copy file to final destination default: no copy | |||
-t [<N>] show tail (only <N> last lines) default: show all | |||
= MPI/OpenMP = | |||
== | == showaffinity == | ||
showaffinity will show/print the affinity (pinning) of processes and serves as a replacement of a program to be executed with the same options. | |||
The possible places will be marked. | |||
=== sequential program === | |||
$ showaffinity --help | |||
hybrid MPI program to show process to core affinity; <bernreuther@hlrs.de> | |||
Usage: | |||
showaffinity [OPTION...] | |||
-h, --help Print help | |||
-v, --verbose Verbose output | |||
-f, --maskformat arg mask format template string | |||
-p, --preset arg mask format presets | |||
--marker arg marker (default: .X) | |||
$ showaffinity.seq | |||
$ taskset 1 showaffinity.seq | |||
$ taskset 0x0000000b showaffinity.seq | |||
$ taskset --cpu-list 0-2,4 showaffinity.seq | |||
$ numactl --cpunodebind=0 --membind=0 showaffinity.seq | |||
=== OpenMP program === | |||
$ showaffinity.omp | |||
$ OMPLACES | |||
=== MPI program === | |||
using MPT on HAWK | |||
$ mpirun showaffinity.mpt -p hawk0 | |||
$ mpirun -np 4 omplace -v showaffinity.mpt | |||
=== hybrid MPI+OpenMP program === | |||
using MPT on HAWK | |||
$ mpirun -np 2 omplace -nt $OMP_NUM_THREADS -vv showaffinity.mptomp -p hawk1 | |||
= | = Monitoring = | ||
== meminfo == | |||
meminfo.py will just print the data found in the Linux /proc/meminfo, | |||
which looks like (shown for an HAWK compute node) | |||
$ nl /proc/meminfo; meminfo.py -c 1-3,17 | |||
1 MemTotal: 262730452 kB | |||
2 MemFree: 250762824 kB | |||
3 MemAvailable: 250228776 kB | |||
4 Buffers: 39288 kB | |||
5 Cached: 1151664 kB | |||
6 SwapCached: 0 kB | |||
7 Active: 232808 kB | |||
8 Inactive: 1677452 kB | |||
9 Active(anon): 109068 kB | |||
10 Inactive(anon): 1436592 kB | |||
11 Active(file): 123740 kB | |||
12 Inactive(file): 240860 kB | |||
13 Unevictable: 0 kB | |||
14 Mlocked: 0 kB | |||
15 SwapTotal: 0 kB | |||
16 SwapFree: 0 kB | |||
17 Dirty: 0 kB | |||
18 Writeback: 0 kB | |||
19 AnonPages: 717452 kB | |||
20 Mapped: 294688 kB | |||
21 Shmem: 826352 kB | |||
22 KReclaimable: 340944 kB | |||
23 Slab: 4913136 kB | |||
24 SReclaimable: 340944 kB | |||
25 SUnreclaim: 4572192 kB | |||
26 KernelStack: 54800 kB | |||
27 PageTables: 10864 kB | |||
28 NFS_Unstable: 0 kB | |||
29 Bounce: 0 kB | |||
30 WritebackTmp: 0 kB | |||
31 CommitLimit: 131365224 kB | |||
32 Committed_AS: 10660508 kB | |||
33 VmallocTotal: 34359738367 kB | |||
34 VmallocUsed: 3109344 kB | |||
35 VmallocChunk: 0 kB | |||
36 Percpu: 475136 kB | |||
37 HardwareCorrupted: 0 kB | |||
38 AnonHugePages: 573440 kB | |||
39 ShmemHugePages: 0 kB | |||
40 ShmemPmdMapped: 0 kB | |||
41 FileHugePages: 0 kB | |||
42 FilePmdMapped: 0 kB | |||
43 HugePages_Total: 0 | |||
44 HugePages_Free: 0 | |||
45 HugePages_Rsvd: 0 | |||
46 HugePages_Surp: 0 | |||
47 Hugepagesize: 2048 kB | |||
48 Hugetlb: 0 kB | |||
49 DirectMap4k: 1905588 kB | |||
50 DirectMap2M: 189710336 kB | |||
51 DirectMap1G: 76546048 kB | |||
but offering some additional features: | |||
$ module load cae | |||
$ meminfo.py --help | |||
usage: meminfo [-h] [-o [OUTPUTFILE]] [--mpi] [--avg] [--printnodenames] | |||
[-r REPEAT] [-c COLUMNS] [--delay DELAY] [--noheader] | |||
[--valfmt VALFMT] [--timestampfmt TIMESTAMPFMT] [--daemonize] | |||
gather and print meminfo data | |||
optional arguments: | |||
-h, --help show this help message and exit | |||
-o [OUTPUTFILE], --outputfile [OUTPUTFILE] | |||
redirect output to file (default: stdout) | |||
--mpi MPI multinode version (default: False) | |||
--avg also calculate averages and standard deviation | |||
(default: False) [needs --mpi] | |||
--printnodenames print node names (default: False) [needs --mpi; | |||
inactive for --noheader] | |||
-r REPEAT, --repeat REPEAT | |||
N|+N|+HH:MM:SS,T|HH:MM:SS repeat N-1 times|within +N | |||
sec|+HH:MM:SS with a sleep time of T sec|HH:MM:SS in | |||
between | |||
-c COLUMNS, --columns COLUMNS | |||
columns selection e.g. 1-3,17,18,21,33-34 (if not set: | |||
select all) - see `nl /proc/meminfo` | |||
--delay DELAY delay (sleep) before execution (default: None) | |||
--noheader omit printing header | |||
--valfmt VALFMT value format (default: {}) | |||
--timestampfmt TIMESTAMPFMT | |||
timestamp format (default: %y%m%dT%H%M%S) | |||
--daemonize put process into background (default: False) | |||
E.g. filtering some values like | |||
$ meminfo.py -c 1-3,17 | |||
# meminfo running at XXX XXX XX XX:XX:XX XXXX | |||
# TIMESTAMP MemTotal MemFree MemAvailable Dirty | |||
XXXXXXTXXXXXX 269035982848.0 256765276160.0 256218411008.0 0.0 | |||
( | where the numbers correspond to the line numbers above (without -c all entries will be listed). | ||
For single node jobs or if only the first node should be monitored, meminfo.py could be | |||
"daemonized" to execute the following commands in a job script directly afterwards. | |||
Especially for this case, it is advisable to redirect the output to a file. | |||
Its also possible to repeat this data collection and do that after a given delay. | |||
In the following case 2 columns will be written to meminfo.out after a waiting time | |||
of 10 seconds 10 times waiting 5 seconds in between: | |||
$ meminfo.py --daemonize --delay 10 -r 10,5 -c 2,3 -o meminfo.out | |||
mpiinfo.py also offers a MPI mode (using mpi4py) to collect the data of multiple nodes: | |||
$ qsub -IXlselect=2:node_type=rome:mpiprocs=128,walltime=0:5:0 -q test | |||
$ module load cae mpi4py | |||
$ ( mpirun -np 256 meminfo.py --mpi --avg --delay 0:0:30 -r +0:10:00,0:0:10 -c 1-3 -o meminfo.out.${PBS_JOBID%%.*} ) & | |||
done | |||
The output will contain the MIN,MAX values. With --avg (like in the example above) | |||
additionally the average and the standard deviation is printed. | |||
Only a single process will collect the data on each node (all others will just idle). | |||
The "daemonize" is not supported in MPI mode, so in the example | |||
the whole program start will be done in a subprocess in the background | |||
(notice the paranthesis and the trailing ampersand). |
Latest revision as of 17:59, 7 November 2024
A collection of small helper scripts.
module load cae
will you take care that these are found when called through the commandline or e.g. a job script.
Workspaces
ws_exchange procedure
Exchanging data between users can be done using a workspace.
If the users don't share a common group it is not advisable to just create such a workspace with permissions
set to read (or/and write) and execute to world (others) since everyone on the systems gets access to the data.
ws_exchange uses such a workspace with a slight modification:
the workspace directory permissions are set to execute for all, but only the user is allowed to read its contents.
A readable(/writable) subdirectory is therefore "invisble"/secret to others.
This approach is not secure, but better than the "open to all" approach.
ws_exchange
Looking at the help first:
$ module load cae $ ws_exchange -h
usage: ws_exchange [-s <secret subdirectory name>] [-d <workspace duration>] [-w <workspacename>] [-f <workspace filesystem>] [-p <permissions>] -s <secret subdirectory name> [default: random name] -d <workspace duration [d]> [default: 1 days (48 hours)] -w <workspacename> [default: exchange%Y%m%d%H%M%S] -f <workspace filesystem> [default: default of ws_allocate] -p <subdirectory permissions> [default: go+rwx] ws_exchange will create a workspace, which is executable but not readable for the world. Its contents are hidden and a additional created subdirectory, which name serves as a password, could be open to the world.
Executing ws_exchange with default options will create a one-day workspace in the default file system with a name starting with "exchange" followed by the date and time and a subdirectory with random name and execute/read/write permissions:
$ ws_exchange
Workspace created on gerris exchange20081018113236 Oct 18 11:32:51 0 days 23 hours /scratch2/ws/hpcstruc-exchange20081018113236-0 exchange directory ---------------------------------------- /scratch2/ws/hpcstruc-exchange20081018113236-0/Yj2mskvAuC6 ------------------------------------------------------------ you might ws_cp2exchange to copy your files to exchange20081018113236
Concerned other user have to be notified about the path ("/scratch2/ws/hpcstruc-exchange20081018113236-0/Yj2mskvAuC6" in the example) e.g. by email. Another example:
$ ws_exchange -w myexchangews -s secretsubdir -d 30 -f lustre -p go+rx
Workspace created on gerris myexchangews Oct 18 12:43:19 0 days 23 hours /scratch2/ws/hpcstruc-myexchangews-0 exchange directory ---------------------------------------- /scratch2/ws/hpcstruc-myexchangews-0/kkE2WVIY ------------------------------------------------------------ you might ws_cp2exchange to copy your files to myexchangews
Now the workspace (on the lustre file system) named myexchangews lasts for 30 days.
ws_cp2exchange
Files also have permissions and especially copying files to a ws_exchange workspace these permissions are automatically set too restrictive. It's also a good idea first to change the current directory to the ws_exchange subdirectory and copy to this directory than in the other direction. To simplify this, ws_cp2exchange was created.
$ ws_cp2exchange -h
usage: ws_cp2exchange [cp|mv] [<options>] <src> <wsname>
To copy a file "testfile" to the ws_exchange workspace subdirectory created above simply write
$ ws_cp2exchange testfile exchange20081018113236
working directory: /scratch2/ws/hpcstruc-exchange20081018113236-0/Yj2mskvAuC6 cp /DDN1/HLRS/hlrs/hpcstruc/testfile . change permissions to g+rwx,o+rwx done
Copying whole directories needs an option (see "man cp"):
$ ws_cp2exchange cp -r testdir1 myexchangews
working directory: /scratch2/ws/hpcstruc-myexchangews-0/kkE2WVIY cp -r /DDN1/HLRS/hlrs/hpcstruc/testdir1 . change permissions to g+rwx,o+rwx done
(The "cp" can be omitted, since copy is the default mode.)
To move a directory (or file) use the "mv" mode:
$ ws_cp2exchange mv testdir2 myexchangews
working directory: /scratch2/ws/hpcstruc-myexchangews-0/kkE2WVIY mv /DDN1/HLRS/hlrs/hpcstruc/testdir2 . change permissions to g+rwx,o+rwx done
ws_exchange replacements
Usage of ACLs
Since Access Control Lists are now enabled, there's not only user, group and other to specify the permissions for file objects, but a list. Creating a new workspace, the directory could be made e.g. readable to a specific user SHAREUSER like
$ WSDIR=ws_allocate $WSNAME
$ setfacl -d -m u:$SHAREUSER:r $WSDIR
see the Workspace mechanism documentation
Jobs
jobnodesinfo
jobnodesinfo.py shows which nodes are used by a job (and for HAWK how they are placed):
$ jobnodesinfo.py --help usage: jobnodesinfo [-h] [-v] [-p PLATFORM] [-n NODESFILE] [-j JOBID] [-f FORMAT] [-o [OUTPUTFILE]] [--nocolor] [--nodedistribmarkers NODEDISTRIBMARKERS] [nodes [nodes ...]] print nodes information positional arguments: nodes optional arguments: -h, --help show this help message and exit -v, --verbose verbose level (default, if not set: ERROR) -p PLATFORM, --platform PLATFORM platform name (default, if not set: hawk) -n NODESFILE, --nodesfile NODESFILE nodes file (default, if not set: $PBS_NODEFILE) -j JOBID, --jobid JOBID PBS JobID -f FORMAT, --format FORMAT format string (default, if not set: platform specific) -o [OUTPUTFILE], --outputfile [OUTPUTFILE] redirect output to file (default: stdout) --nocolor no color output --nodedistribmarkers NODEDISTRIBMARKERS nodesdistribution markers
Within a job there's no need to set a JobID, since -n $PBS_JOBID resp. -n $PBS_NODEFILE is automatically set as a default.
qgen
qgen will generate a job script based on a template.
$ module load cae $ qgen -h qgen a tool to generate(&submit) pbs jobfiles (version: 2012/03/29, author: Martin Bernreuther <bernreuther@hlrs.de>) usage: qgen [-n|--nodes <nodes>] [-t|--walltime <walltime>] [-N|--jobname <jobname>] [-w|--workdir <workdir>] [-o <jobfile>] [--submit|--submitq <queue>|--execute] [-] [<template>] [<template_opt1><template_opt2>...] -n|--nodes <nodes> [default: 1] number of nodes($QGEN_NODES) -t|--walltime <walltime> [default: 24:00:00] walltime ($QGEN_WALLTIME) -N|--jobname <jobname> [default: <template><datetime>] job name ($QGEN_NAME) -w|--workdir <workdir> [default: /zhome/academic/HLRS/hlrs/hpcstruc] working directory ($QGEN_WORKDIR) -o <jobfile> [default: <stdout>] save script to <jobfile> --submit submit immediately (to standard queue) --submitq <queue> submit immediately to queue <queue> --execute execute immediately on current host -l list system templates -v be verbose -h|--help print help and exit <template> template to use <template_options> additional options depending on and passed directly to the template ($*) qgen will create a pbs jobscript based on a template, substituting $QGEN_NODES, $QGEN_WALLTIME, $QGEN_NAME, $QGEN_WORKDIR and $* (latter with template options) Instead of setting the values with command line arguments, environment variables might be used (except for template options) These environment variables might be also set in the configuration file .../.qgenrc, which is sourced at the beginning. Templates are searched for in $QGEN_TEMPLATE_PATH, actually set to: ...
will print some help and
$ qgen -l
will list all available templates found in the QGEN_TEMPLATE_PATH One of these templates is "test", which doesn't need any further arguments.
$ qgen test
A job file will be printed. Save this job file to "test.pbs" and compare it with the template:
$ qgen -o test.pbs test $ tkdiff test.pbs /app/rus/struct/bin/qgen_templates/test
(If there's no X avaiable, replace tkdiff with e.g. sdiff)
qgen just replaces some placeholders within the template. Everyone can expand the system writing own templates. The default path for these files is ~/qgen_templates
Now the job script could be submitted with "qsub test.pbs", but... (approx.) the same (for 2 requested nodes) can also be achieved with:
$ qgen -n 2 --submit test
However, omitting the -o option, the executed job script will not be saved for the user.
In general, templates require additional options. The help might give you a hint at the end, e.g.
$ qgen -h abaqus qgen a tool to generate(&submit) pbs jobfiles (version: 2012/03/29, author: Martin Bernreuther <bernreuther@hlrs.de>) usage: qgen [-n|--nodes <nodes>] [-t|--walltime <walltime>] [-N|--jobname <jobname>] [-w|--workdir <workdir>] [-o <jobfile>] [--submit|--submitq <queue>|--execute] [-] [<template>] [<template_opt1> <template_opt2>...] -n|--nodes <nodes> [default: 1:nehalem:ppn=8] number of nodes($QGEN_NODES) -t|--walltime <walltime> [default: 24:00:00] walltime ($QGEN_WALLTIME) -N|--jobname <jobname> [default: <template><datetime>] job name ($QGEN_NAME) -w|--workdir <workdir> [default: /zhome/academic/HLRS/hlrs/hpcbern] working directory ($QGEN_WORKDIR) -o <jobfile> [default: <stdout>] save script to <jobfile> --submit submit immediately (to standard queue) --submitq <queue> submit immediately to queue <queue> --execute execute immediately on current host -l list system templates -v be verbose -h|--help print help and exit <template> template to use <template_options> additional options depending on and passed directly to the template ($*) qgen will create a pbs jobscript based on a template, substituting $QGEN_NODES, $QGEN_WALLTIME, $QGEN_NAME, $QGEN_WORKDIR and $* (latter with template options) Instead of setting the values with command line arguments, environment variables might be used (except for template options) These environment variables might be also set in the configuration file /zhome/academic/HLRS/hlrs/hpcbern/.qgenrc, which is sourced at the beginning. Templates are searched for in $QGEN_TEMPLATE_PATH, actually set to: /zhome/academic/HLRS/hlrs/hpcbern/qgen_templates /opt/cae/bin/qgen_templates abaqus template_options: [<version>] <abaqus-options> cpus and mp_mode are set automatically examples: job=<jobname> 692 job=<jobname> inp=<inputfile> user=<usrprgfile> scratch=. ABAQUS options: job=job-name [input=input-file] [user={source-file | object-file}] [oldjob=oldjob-name] [fil={append | new}] [globalmodel={results file-name | output database file-name}] [domains=number-of-domains] [dynamic_load_balancing] [standard_parallel={all | solver}] [gpus=number-of-gpgpus] [memory=memory-size] [interactive | background | queue=[queue-name][after=time]] [double={explicit | both | off | constraint}] [scratch=scratch-dir] [output_precision={single | full} ] [field={odb | exodus | nemesis} ] [history={odb | csv} ] [madymo=MADYMO-input-file] [port=co-simulation port-number] [host=co-simulation hostname] [listenerport=Co-Simulation Engine listener port-number] [remoteconnections=Co-Simulation Engine host:port-number, remote job host:port-number] [timeout=co-simulation timeout value in seconds] [unconnected_regions={yes | no}] (Nutzung dieses Templates in eigener Verantwortung - use this template on your own responsibility)
Submitting an ABAQUS job on 4 nodes is as easy as executing
$ qgen -n 4 --submit abaqus job=<jobname>
with <jobname> as ABAQUS inputfile (absolute path or relative path to the current directory). Typically qgen is executed within a writable directory and a workspace is used here. As mentioned before, more control is gained, if the PBS jobfile is generated first and submitted afterwards, like with this LS-Dyna example:
$ qgen -o lsdyna.pbs -n 8 dyna i=<inputfile> $ qsub lsdyna.pbs
Before the submission with qsub, the jobfile might be changed/tuned.
The qgen command can also be used within LSOPT for LS-Dyna optimization/DoE runs. After loading the necessary modules (module load cae lstc) start "lsoptui" to do the configuration. Within the "Solvers" tab, after choosing "LS-DYNA" as "Solver Package Name", a "Command" like "qgen --submit -n 1:ppn=8 -o job.pbs dyna" will generate and submit the LS-Dyna jobs, controlled by lsopt.
There's also a simple template to execute a single command:
$ qgen -N cmdtoptest --submit cmd top -b -n 1
The -N option sets the jobname and affects the names of the stdout/stderr files. The output of the command "top -b -n 1" can thus be found in the cmdtoptest.o* file. The error output cmdtoptest.e* is hopefully empty...
qgen customization
The preset qgen templates can be augmented through user defined ones. qgen will check the directory ~/qgen_templates for templates by default and files in this directory will be preferred over the preset templates. There's also the environment variable $QGEN_TEMPLATE_PATH to define, which directories qgen should include, searching for the given template name.
One strategy would be to copy an already existing template file (see qgen -l) to tailored it to the own particular needs. Another one is to use an existing job script and to replace some varying parts with QGEN variables.
To show how such a template file looks like, a simple helloworld template will be created from scratch (if you're not familar with vi and you have X enabled, use another editor like nedit,kwrite,...):
$ mkdir ${HOME}/qgen_templates $ vim ${HOME}/qgen_templates/helloworld
The content of ~/qgen_templates/helloworld might look like
#!/bin/bash #QGENHELP pbs jobscript file for testing/demonstration purposes #QGENHELP helloworld template_options: <name> #PBS -l nodes=$QGEN_NODES #PBS -l walltime=$QGEN_WALLTIME #PBS -N $QGEN_NAME cd $QGEN_WORKDIR echo -e "Hello world!\nThe current working directory is $PWD and my name is...\n$*"
The $QGEN_XXX strings will be replaced by qgen with some job specific data according to default values and the qgen options set.
Now we can use this template to create job files and submit the first jobs based on this template (The cae module has to be loaded only once - otherwise the full path to qgen has to be typed...):
$ module load cae $ qgen -h helloworld $ qgen -o helloworld1.pbs --submit helloworld Rumpelstilzchen $ qgen -o helloworld2.pbs -n 1:node_type=rome -t 0:03:00 -N helloworldtest -w $HOME --submit helloworld Rumpelstilzchen $ qstat -f
The help message will also display the QGENHELP part of the template at the end.
qgen usage examples
The examples will create a workspace, copy/extract an example input file and generate a job script file to be submitted. The provided qgen templates will try to use the academic licenses provided by HLRS. To use other liceses they have to be adopted.
dyna (LS-Dyna)
Using a single precision mpp LS-DYNA version to compute 100 time steps of the odb10m example on a Vulcan "genoa" node. The same procedure can also be used on Hawk, but the node_type has to be adopted to "rome".
$ ws_allocate dynatest 1 $ cd `ws_find dynatest` $ gunzip -c /sw/general/x86_64/cae/lstc/examples/topcrunch.org/ODB-10M/odb10m-ver18.k.gz > odb10m.k $ module load cae $ qgen -n 1:node_type=genoa:mpiprocs=64 -t 0:05:00 -o job.pbs dyna s mpp i=odb10m.k ncycle=100 d=NODUMP $ qsub job.pbs
ansys (ANSYS mechanical)
$ ws_allocate ansystest 1 $ cd `ws_find ansystest` $ cp /sw/general/x86_64/cae/ansys_inc/v241/ansys/site/ansys/mapdl/core/examples/verif/vm263.dat . $ module load cae $ qgen -n 1:node_type=clx-25:mpiprocs=1:ompthreads=10 -t 0:05:00 -o job.pbs ansys -i vm263.dat -o vm263_output $ qsub job.pbs
qwtime
qwtime will show the (remaining) walltime of a job.
$ module load cae $ qwtime -h usage: /sw/general/x86_64/cae/bin/qwtime [-r] [-R] [-e] [--fmt '<FORMAT>'] [--datimefmt '<DATIMEFORMAT>'] [<JOBID> ...] -r print remaining time (FORMAT '%r') [sec] -R print remaining time (FORMAT '%:r') (HH:MM:SS) -e print (estimated) end time (FORMAT '%e') (also see --datimefmt) --fmt <FORMAT> print with format <FORMAT> (default:'%j\tjobname:\t%n (jobowner: %o, #hosts: %#h, host1: %h1)\n%j\tjobworkdir:\t%d\n%j\ttime range:\t%s\t%e\t(%:w)\n%j\twalltime used:\t%:u\t(%us, %%u%)\n%j\twalltime remaining:\t%:r\t(%rs, %%r%)\n%j\t|%b|\n') environment variable qwtimeARGfmtDEFAULT (not set) --datimefmt <DATIMEFORMAT> use time format <DATIMEFORMAT> (default:'%Y-%m-%dT%H:%M:%S') environment variable: qwtimeARGdatimefmtDEFAULT (not set) <JOBID> job ID (default: PBS_JOBID or actual USER jobs) FORMAT: %j job ID (without suffix, %J with suffix) %n job Name %o job Owner %h job hosts (%h1 first host/MOM) %d job workdir %s start time (also see --datimefmt) %e (estimated) endtime (also see --datimefmt) %w requested Walltime [sec] (%:w [HH:MM:SS]) %u used walltime [sec] (%:u [HH:MM:SS], %%u [%]) %r remaining walltime [sec] (%:r [HH:MM:SS], %%r [%]) %b progress bar DATIMEFORMAT: see "man 1 date | grep -m1 -A105 '^ *FORMAT'"
If no JOBIDs are given, the actual running jobs will be queried. Using a --fmt format string, which might include format specifiers, the output can be customized. With options like e.g. -r only a specific information (e.g. remaining walltime in seconds) will be printed (adjusting the format string).
qcat
Whereas the qsub option "-k oe" causes the system to create a *.o* and *.e* file for the standard and error output in the home directory right from the start of a job run, the default behaviour is that these files are kept in a spool directory and moved at the end to the working directory. qcat will show these files using cat or copy the actual version to the working directory.
$ qcat -h
usage: /opt/cae/bin/qcat [o|e] [<JOBID>] [-c] [-t [<N>]] o|e show output or error output file default:o <JOBID> OpenPBS job ID default: last own job -c copy file to final destination default: no copy -t [<N>] show tail (only <N> last lines) default: show all
MPI/OpenMP
showaffinity
showaffinity will show/print the affinity (pinning) of processes and serves as a replacement of a program to be executed with the same options. The possible places will be marked.
sequential program
$ showaffinity --help hybrid MPI program to show process to core affinity; <bernreuther@hlrs.de> Usage: showaffinity [OPTION...] -h, --help Print help -v, --verbose Verbose output -f, --maskformat arg mask format template string -p, --preset arg mask format presets --marker arg marker (default: .X) $ showaffinity.seq $ taskset 1 showaffinity.seq $ taskset 0x0000000b showaffinity.seq $ taskset --cpu-list 0-2,4 showaffinity.seq $ numactl --cpunodebind=0 --membind=0 showaffinity.seq
OpenMP program
$ showaffinity.omp $ OMPLACES
MPI program
using MPT on HAWK
$ mpirun showaffinity.mpt -p hawk0 $ mpirun -np 4 omplace -v showaffinity.mpt
hybrid MPI+OpenMP program
using MPT on HAWK
$ mpirun -np 2 omplace -nt $OMP_NUM_THREADS -vv showaffinity.mptomp -p hawk1
Monitoring
meminfo
meminfo.py will just print the data found in the Linux /proc/meminfo, which looks like (shown for an HAWK compute node)
$ nl /proc/meminfo; meminfo.py -c 1-3,17 1 MemTotal: 262730452 kB 2 MemFree: 250762824 kB 3 MemAvailable: 250228776 kB 4 Buffers: 39288 kB 5 Cached: 1151664 kB 6 SwapCached: 0 kB 7 Active: 232808 kB 8 Inactive: 1677452 kB 9 Active(anon): 109068 kB 10 Inactive(anon): 1436592 kB 11 Active(file): 123740 kB 12 Inactive(file): 240860 kB 13 Unevictable: 0 kB 14 Mlocked: 0 kB 15 SwapTotal: 0 kB 16 SwapFree: 0 kB 17 Dirty: 0 kB 18 Writeback: 0 kB 19 AnonPages: 717452 kB 20 Mapped: 294688 kB 21 Shmem: 826352 kB 22 KReclaimable: 340944 kB 23 Slab: 4913136 kB 24 SReclaimable: 340944 kB 25 SUnreclaim: 4572192 kB 26 KernelStack: 54800 kB 27 PageTables: 10864 kB 28 NFS_Unstable: 0 kB 29 Bounce: 0 kB 30 WritebackTmp: 0 kB 31 CommitLimit: 131365224 kB 32 Committed_AS: 10660508 kB 33 VmallocTotal: 34359738367 kB 34 VmallocUsed: 3109344 kB 35 VmallocChunk: 0 kB 36 Percpu: 475136 kB 37 HardwareCorrupted: 0 kB 38 AnonHugePages: 573440 kB 39 ShmemHugePages: 0 kB 40 ShmemPmdMapped: 0 kB 41 FileHugePages: 0 kB 42 FilePmdMapped: 0 kB 43 HugePages_Total: 0 44 HugePages_Free: 0 45 HugePages_Rsvd: 0 46 HugePages_Surp: 0 47 Hugepagesize: 2048 kB 48 Hugetlb: 0 kB 49 DirectMap4k: 1905588 kB 50 DirectMap2M: 189710336 kB 51 DirectMap1G: 76546048 kB
but offering some additional features:
$ module load cae $ meminfo.py --help usage: meminfo [-h] [-o [OUTPUTFILE]] [--mpi] [--avg] [--printnodenames] [-r REPEAT] [-c COLUMNS] [--delay DELAY] [--noheader] [--valfmt VALFMT] [--timestampfmt TIMESTAMPFMT] [--daemonize]
gather and print meminfo data
optional arguments: -h, --help show this help message and exit -o [OUTPUTFILE], --outputfile [OUTPUTFILE] redirect output to file (default: stdout) --mpi MPI multinode version (default: False) --avg also calculate averages and standard deviation (default: False) [needs --mpi] --printnodenames print node names (default: False) [needs --mpi; inactive for --noheader] -r REPEAT, --repeat REPEAT N|+N|+HH:MM:SS,T|HH:MM:SS repeat N-1 times|within +N sec|+HH:MM:SS with a sleep time of T sec|HH:MM:SS in between -c COLUMNS, --columns COLUMNS columns selection e.g. 1-3,17,18,21,33-34 (if not set: select all) - see `nl /proc/meminfo` --delay DELAY delay (sleep) before execution (default: None) --noheader omit printing header --valfmt VALFMT value format (default: {}) --timestampfmt TIMESTAMPFMT timestamp format (default: %y%m%dT%H%M%S) --daemonize put process into background (default: False)
E.g. filtering some values like
$ meminfo.py -c 1-3,17 # meminfo running at XXX XXX XX XX:XX:XX XXXX # TIMESTAMP MemTotal MemFree MemAvailable Dirty XXXXXXTXXXXXX 269035982848.0 256765276160.0 256218411008.0 0.0
where the numbers correspond to the line numbers above (without -c all entries will be listed). For single node jobs or if only the first node should be monitored, meminfo.py could be "daemonized" to execute the following commands in a job script directly afterwards. Especially for this case, it is advisable to redirect the output to a file. Its also possible to repeat this data collection and do that after a given delay. In the following case 2 columns will be written to meminfo.out after a waiting time of 10 seconds 10 times waiting 5 seconds in between:
$ meminfo.py --daemonize --delay 10 -r 10,5 -c 2,3 -o meminfo.out
mpiinfo.py also offers a MPI mode (using mpi4py) to collect the data of multiple nodes:
$ qsub -IXlselect=2:node_type=rome:mpiprocs=128,walltime=0:5:0 -q test $ module load cae mpi4py $ ( mpirun -np 256 meminfo.py --mpi --avg --delay 0:0:30 -r +0:10:00,0:0:10 -c 1-3 -o meminfo.out.${PBS_JOBID%%.*} ) &
The output will contain the MIN,MAX values. With --avg (like in the example above) additionally the average and the standard deviation is printed. Only a single process will collect the data on each node (all others will just idle). The "daemonize" is not supported in MPI mode, so in the example the whole program start will be done in a subprocess in the background (notice the paranthesis and the trailing ampersand).