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==Graham Cluster==
 
==Graham Cluster==
  
The submission scripts myompjob.sh and mympijob.sh for the airbag problem are shown in the example section below.  Note that you should specify your own username if submitting to a def account (not roberpj).  Alternatively you could specify your resource allocation account:
+
The submission scripts myompjob.sh and mympijob.sh for the airbag problem are shown in the <b>Example Job</b> section below, for both graham and orcaPlease note that you should specify your own username if submitting to a def account (not roberpj).  Alternatively you could specify your resource allocation account:
  
 
Sample threaded job submit script:
 
Sample threaded job submit script:
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==Legacy Clusters==
 
==Legacy Clusters==
  
To run the single or double precision solvers specify <strong>lsdyna_s</strong> or <strong>lsdyna_d</strong> respectively in the following sqsub commands:
+
When loading a lsdyna sharcnet legacy module on the new orca or a sharcnet legacy system, the single or double precision solvers are specified with <strong>lsdyna_s</strong> or <strong>lsdyna_d</strong> respectively, as shown in the following sqsub commands:
  
 
===1cpu SERIAL Job===
 
===1cpu SERIAL Job===
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<pre>sqsub -r 1h -q threaded -n 4 -o ofile.%J --mpp=1G lsdyna_s i=airbag.deploy.k ncpu=4</pre>
 
<pre>sqsub -r 1h -q threaded -n 4 -o ofile.%J --mpp=1G lsdyna_s i=airbag.deploy.k ncpu=4</pre>
  
Optionally one may specify an initial memory setting on the command line when submitting a job as follows:
+
If using an explicit solver, one can specify a conservative initial memory setting on the command line as follows:
  
 
<pre>
 
<pre>
 
export LSTC_MEMORY=auto
 
export LSTC_MEMORY=auto
 
sqsub -r 1h -q threaded -n 4 -o ofile.%J --mpp=2G lsdyna_d i=airbag.deploy.k ncpu=4 memory=754414</pre>
 
sqsub -r 1h -q threaded -n 4 -o ofile.%J --mpp=2G lsdyna_d i=airbag.deploy.k ncpu=4 memory=754414</pre>
where memory is the minimum number of 8 bytes words shared by all processors in double precision.
+
where memory is the minimum number of 8 byte words shared by all processors in double precision, or, 4 byte words in single precision.
  
The initial value can be determined by running the simulation interactively on a orca development node and locating the output: <i> Memory required to begin solution      :      754414</i> When using the single precision solver memory would be the number of 4 bytes words shared by all processors in single precision.   
+
The initial value can be determined by starting a simulation interactively on the command line, and finding the output resembling: <i> Memory required to begin solution      :      754414</i>.    The number of words can be specified as memory=260M instead of memory=260000000,  for further details see https://www.d3view.com/2006/10/a-few-words-on-memory-settings-in-ls-dyna/.   
  
 
===8cpu MPI Job===
 
===8cpu MPI Job===
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<pre>sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k</pre>
 
<pre>sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k</pre>
  
Optionally one can specify initial memory settings on the sqsub command line: "memory=" for the first master processor to decompose the problem  and "memory2=" used on all processors including the master to solves the decomposed problem, where the values are specified as 4 bytes per word in single precision and 8 bytes per word in double precision.  The number of words can be specified as memory=260M instead of memory=260000000for further details see https://www.d3view.com/2006/10/a-few-words-on-memory-settings-in-ls-dyna/.   
+
The initial memory can also be specified for mpi jobs  on the sqsub command line with "memory=" for the first master processor to decompose the problem  and "memory2=" used on all processors including the master to solves the decomposed problem, where the values are specified as 4 bytes per word in single precision and 8 bytes per word in double precision.  The number of words can be specified as memory=260M instead of memory=260000000 OR memory2=260M instead of memory2=260000000 for further details see https://www.d3view.com/2006/10/a-few-words-on-memory-settings-in-ls-dyna/.  The initial values can be found by running simulation interactively on a orca compute node and checking the output for a line such as: <i>Memory required to begin solution (memory=    464898  memory2=    158794 )</i> which could then be implemented for a job run in the queue by doing:
 
+
The values can be found by running simulation interactively on a orca compute node and checking the output for a line such as: <i>Memory required to begin solution (memory=    464898  memory2=    158794 )</i> which could then be implemented for a job run in the queue by doing:
+
  
 
<pre>
 
<pre>
export LSTC_MEMORY=auto  
+
export LSTC_MEMORY=auto
 
sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k memory=464898 memory2=158794
 
sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k memory=464898 memory2=158794
 
</pre>
 
</pre>
  
However note that specifying memory2 on sharcnet is not beneficial since the queue reserves the same memory per core for all nodes hence the decomposition master node cannot be allocated larger system memory. Therefore its sufficient to only the memory paramemter such as:
+
The specification of memory2 on sharcnet or compute canada clusters is not beneficial since the queue reserves the same memory per core for all nodes, such that the decomposition master node process cannot be allocated to have larger system memory. Therefore its sufficient to specify a single memory parameter by doing:
 
   
 
   
 
<pre>
 
<pre>
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sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k memory=464898
 
sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k memory=464898
 
</pre>
 
</pre>
 +
 +
where the LSTC_MEMORY variable will only allow the memory to grow for explicit simulations. The following slurm examples demonstrate how to prescribe the memory parameters exactly.
  
 
=Example Job=
 
=Example Job=
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Copy the airbag example to your account:
 
Copy the airbag example to your account:
  
  rsync -av orca.sharcnet.ca:/opt/sharcnet/lsdyna/r901.109912/examples r901.109912_examples
+
  rsync -av orca.computecanada.ca:/opt/sharcnet/lsdyna/r901.109912/examples r901.109912_examples
 
  cd r901.109912_examples/examples/misc/airbag
 
  cd r901.109912_examples/examples/misc/airbag
 
  gunzip airbag.deploy.k.gz
 
  gunzip airbag.deploy.k.gz
  
==Graham Cluster==
+
==Graham (default modules)==
 +
 
 +
Please note that graham does not have the sharcnet legacy modules installed on it.
  
 
===Threaded Job ===
 
===Threaded Job ===
  
Sample submission script <b>mysmpjob1.sh</b> for 4 core smp job:
+
Sample submission script <b>mysmpjob1.sh</b> for 4 core single precision smp job using compute canada default cvmfs modules:
  
 
<pre>
 
<pre>
 
#!/bin/bash
 
#!/bin/bash
#SBATCH --account=def-roberpj-ab  
+
#SBATCH --account=def-roberpj-ab
 
#SBATCH --nodes=1                          # use one node
 
#SBATCH --nodes=1                          # use one node
#SBATCH --cpus-per-task=4                  # number threads  
+
#SBATCH --cpus-per-task=4                  # number threads
 
#SBATCH --mem=4000M                        # total memory
 
#SBATCH --mem=4000M                        # total memory
 
#SBATCH --time=00:30:00                    # hrs:min:sec
 
#SBATCH --time=00:30:00                    # hrs:min:sec
#SBATCH --job-name=testomp                  # %x = jobname
+
#SBATCH --job-name=testsmp1                # %x = jobname
 
#SBATCH --output=slurm-%x-%N-%j.out
 
#SBATCH --output=slurm-%x-%N-%j.out
 
echo "SLURM_CPUS_PER_TASK= "$SLURM_CPUS_PER_TASK
 
echo "SLURM_CPUS_PER_TASK= "$SLURM_CPUS_PER_TASK
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# ----------------------------------------------------------
 
# ----------------------------------------------------------
 
module load ls-dyna/9.1
 
module load ls-dyna/9.1
srun ls-dyna_d i=airbag.deploy.k memory=500M ncpu=8
+
ls-dyna_s i=airbag.deploy.k ncpu=4 memory=1000M
 
</pre>
 
</pre>
  
where memory = 4000M / 8 (bytes/word) = 500M words
+
where memory = 4000M / 4 (bytes/word) = 1000M words
  
 
===Mpi Job ===
 
===Mpi Job ===
  
Sample submission script <b>mympijob2.sh</b> for 4 core mpp job:
+
Sample submission script <b>mympijob2.sh</b> for 4 core double precision mpp job using compute canada default cvmfs modules:
  
 
<pre>
 
<pre>
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#SBATCH --account=def-roberpj-ab
 
#SBATCH --account=def-roberpj-ab
 
#SBATCH --ntasks=4                    # number of ranks
 
#SBATCH --ntasks=4                    # number of ranks
#SBATCH --mem-per-cpu=1000M           # memory per rank  
+
#SBATCH --mem-per-cpu=4000M           # memory per rank
 
#SBATCH --time=00:30:00                # hrs:min:sec
 
#SBATCH --time=00:30:00                # hrs:min:sec
#SBATCH --job-name=testmpi            # %x = jobname
+
#SBATCH --job-name=testmpi2            # %x = jobname
 
#SBATCH --output=slurm-%x-%N-%j.out
 
#SBATCH --output=slurm-%x-%N-%j.out
 
# ----------------------------------------------------------
 
# ----------------------------------------------------------
Line 274: Line 277:
 
# ----------------------------------------------------------
 
# ----------------------------------------------------------
 
module load openmpi/1.8.8 ls-dyna-mpi/9.1
 
module load openmpi/1.8.8 ls-dyna-mpi/9.1
srun ls-dyna_d i=airbag.deploy.k memory=125M memory2=125M
+
srun ls-dyna_d i=airbag.deploy.k memory=500M memory2=500M
 
</pre>
 
</pre>
  
where memory = 1000M / 8 (bytes/word) = 125M words
+
where memory = 4000M / 8 (bytes/word) = 500M words
 +
 
 +
==New Orca (legacy modules)==
  
==New Orca==
+
Please note, while new orca has most compute canada cvmfs modules available by default it does not have the graham the <i>ls-dyna</i> or <i>ls-dyna-mpi</i> modules installed.  Therefore currently the only way to run lsdyna is by using the legacy sharcnet <i>lsdyna</i> modules as shown in the following two smp and mpi examples.
  
 
===Threaded Job ===
 
===Threaded Job ===
  
Sample submission script <b>mysmpjob3.sh</b> for 4 core smp job using legacy sharcnet lsdyna modules:
+
Submission script <b>mysmpjob3.sh</b> to run 16 core single precision single node smp job with sharcnet legacy modules:
  
 
<pre>
 
<pre>
 
#!/bin/bash
 
#!/bin/bash
#SBATCH --account=def-username
+
#SBATCH --account=def-roberpj-ab
 
#SBATCH --nodes=1                          # use one node
 
#SBATCH --nodes=1                          # use one node
#SBATCH --cpus-per-task=4                  # number threads  
+
#SBATCH --cpus-per-task=16                  # number threads
 
#SBATCH --mem=4000M                        # total memory
 
#SBATCH --mem=4000M                        # total memory
 
#SBATCH --time=00:30:00                    # hrs:min:sec
 
#SBATCH --time=00:30:00                    # hrs:min:sec
#SBATCH --job-name=testomp3                # %x = jobname
+
#SBATCH --job-name=mysmpjob3-1node-16core    # jobname
#SBATCH --output=slurm-%x-%N-%j.out
+
#SBATCH --output=slurm-%x-%N-%j.out         # %x = jobname
 
echo "SLURM_CPUS_PER_TASK= "$SLURM_CPUS_PER_TASK
 
echo "SLURM_CPUS_PER_TASK= "$SLURM_CPUS_PER_TASK
 
export OMP_NUM_THREADS=$SLURM_CPUS_PER_TASK
 
export OMP_NUM_THREADS=$SLURM_CPUS_PER_TASK
# ----------------------------------------------------------
+
# ----------------------------------------------------------------
# IMPORTANT:  to set license server must do:
+
# IMPORTANT:  to set license server for legacy modules:
export LSTC_LICENSE_SERVER=port@some.license.server
+
export LSTC_LICENSE_SERVER=31047@license3.sharcnet.ca
# ~/.licenses/ls-dyna.lic does not work with legacy modules
+
# since ~/.licenses/ls-dyna.lic does NOT work with legacy modules
# ----------------------------------------------------------
+
# ----------------------------------------------------------------
module load ls-dyna/9.1
+
module purge --force
srun ls-dyna_d i=airbag.deploy.k memory=500M ncpu=8
+
export MODULEPATH=/opt/sharcnet/modules
 +
module load lsdyna/smp/r712.95028
 +
lsdyna_s i=airbag.deploy.k ncpu=$SLURM_CPUS_PER_TASK memory=500M
 
</pre>
 
</pre>
  
Line 309: Line 316:
 
===MPI Job ===
 
===MPI Job ===
  
Sample submission script <b>mympijob4.sh</b> for 4 core mpp job using legacy sharcnet lsdyna modules:
+
To run the sharcnet legacy <i>module lsdyna/mpp/r712.95028</i> efficiently over several compute nodes with many cores requires using orca's xeon nodes as shown in <b> mympijob4.sh</b> below.  To run lsdyna on orca's opteron nodes with <i>module lsdyna/mpp/r712.95028</i> requires using only <b>one</b> opteron node as shown in <b> mympijob5.sh</b> below.  The other legacy sharcnet lsdyna mpp modules, as shown in the Availability Table  lsdyna/mpp/ls971.r85718, lsdyna/mpp/ls980B1.011113, lsdyna/mpp/r611.79036, lsdyna/mpp/r611.80542, lsdyna/mpp/r711.88920, lsdyna/mpp/r800.95359 and lsdyna/mpp/r901.109912 have yet to be tested. If you want to use one but cannot get it working please open a ticket.  Note that lines containing a space between "# and SBATCH" are comments.  To activate such line(s) required removal of the space ie) "#SBATCH".  Its recommended to use <i>module ls-dyna-mpi</i> on graham instead since the machine is far newer, faster and reliable.
 +
 
 +
====Multi Node Slurm Script====
  
 
<pre>
 
<pre>
 +
[roberpj@orc-login2:~/samples/lsdyna/airbag] cat mympijob4.sh
 
#!/bin/bash
 
#!/bin/bash
#SBATCH --account=def-username
+
#SBATCH --account=def-roberpj-ab
#SBATCH --ntasks=4
+
#SBATCH --constraint=xeon
#SBATCH --mem-per-cpu=1000M
+
#SBATCH --ntasks=48
 +
#SBATCH --mem-per-cpu=4000M
 
#SBATCH --time=00:30:00
 
#SBATCH --time=00:30:00
#SBATCH --job-name=testmpi
+
#SBATCH --job-name=mympijob4-Xnodes-48cores-xeon  # jobname
 +
#SBATCH --output=slurm-%x-%N-%j.out            # %x = jobname
 +
# -------------------------------------------------------------
 +
# To set license server when using legacy sharcnet modules:
 +
export LSTC_LICENSE_SERVER=port@some.license.server
 +
# since ~/.licenses/ls-dyna.lic does not work with legacy modules.
 +
# -------------------------------------------------------------
 
module purge --force
 
module purge --force
 
export MODULEPATH=/opt/sharcnet/modules
 
export MODULEPATH=/opt/sharcnet/modules
# ----------------------------------------------------------
+
module load intel/12.1.3 openmpi/intel/1.6.5 lsdyna/mpp/r712.95028
# IMPORTANT:  to set license server must do:
+
MACHINEFILE=`srun hostname -s | tr '\n' ':' | sed 's/:/,/g' | sed 's/.$//'`
 +
mpirun --host $MACHINEFILE --mca plm_slurm_args '--cpu_bind=none' lsdyna_s i=airbag.deploy.k memory=250M memory2=250M
 +
</pre>
 +
 
 +
====Single Node Slurm Script====
 +
 
 +
<pre>
 +
[roberpj@orc-login2:~/samples/lsdyna/airbag] cat mympijob5.sh
 +
#!/bin/bash
 +
#SBATCH --account=def-roberpj-ab
 +
#SBATCH --constraint=opteron
 +
#SBATCH --nodes=1
 +
# SBATCH --ntasks=24
 +
# SBATCH --mem=0
 +
#SBATCH --ntasks=16
 +
#SBATCH --mem-per-cpu=1000M
 +
#SBATCH --time=00:30:00
 +
#SBATCH --job-name=mympijob5-1node-16cores-opteron  # jobname
 +
#SBATCH --output=slurm-%x-%N-%j.out        # %x = jobname
 +
# -------------------------------------------------------------
 +
# To set license server when using legacy sharcnet modules:
 
export LSTC_LICENSE_SERVER=port@some.license.server
 
export LSTC_LICENSE_SERVER=port@some.license.server
# ~/.licenses/ls-dyna.lic does not work with legacy modules
+
# since ~/.licenses/ls-dyna.lic does not work with legacy modules.
# ----------------------------------------------------------
+
# -------------------------------------------------------------
 +
module purge --force
 +
export MODULEPATH=/opt/sharcnet/modules
 
module load intel/12.1.3 openmpi/intel/1.6.5 lsdyna/mpp/r712.95028
 
module load intel/12.1.3 openmpi/intel/1.6.5 lsdyna/mpp/r712.95028
lsdyna_s i=01_Master.k memory=125M memory2=125M
+
MACHINEFILE=`srun hostname -s | tr '\n' ':' | sed 's/:/,/g' | sed 's/.$//'`
 +
mpirun --host $MACHINEFILE lsdyna_s i=airbag.deploy.k memory=250M memory2=250M
 
</pre>
 
</pre>
  
where memory = 1000M / 8 (bytes/word) = 125M words
+
where memory = 1000M / 4 (bytes/word) = 250M words
  
 
==Legacy Clusters==
 
==Legacy Clusters==
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==Graham Cluster==
 
==Graham Cluster==
  
 +
There are no special notes at the present time in regards to using lsdyna on graham.
  
  
 
==Command Line Use==
 
==Command Line Use==
 +
 +
Following the upgrade of orca to the compute canada module stack, the orca development nodes were discontinued.<br>
 +
Therefore this section is no longer relevent and remain for historical purposes only.
  
 
Parallel lsdyna jobs can be run interactively on the command line (outside the queue) for short run testing purposes as follows:
 
Parallel lsdyna jobs can be run interactively on the command line (outside the queue) for short run testing purposes as follows:
Line 445: Line 489:
  
 
==Check License Status==
 
==Check License Status==
 +
 +
===Running and Queued Programs===
  
 
To get a summary of running and/or queued jobs use the <i>lstc_qrun</i> command as follows, where queued means the job has started running according to the sqsub command but its actually sitting waiting for license resources to come available.  Once these are acquired the job will start running on the cluster and appear as a Running Program according to  lstc_qrun ie)
 
To get a summary of running and/or queued jobs use the <i>lstc_qrun</i> command as follows, where queued means the job has started running according to the sqsub command but its actually sitting waiting for license resources to come available.  Once these are acquired the job will start running on the cluster and appear as a Running Program according to  lstc_qrun ie)
Line 498: Line 544:
 
                   LICENSE GROUP    0  1024  1024 |    0
 
                   LICENSE GROUP    0  1024  1024 |    0
 
</source>
 
</source>
 +
 +
===Killling A Program===
 +
 +
The queue normally kills lsdyna jobs cleanly.  However its possible that licences for a job (which is no longer running in the queue and therefore no longer has any processes running on the cluster) will continue to be tied up according to the lstc_qrun command.  To kill such a program determine the pid@hostname from the lstc_qrun command then run the following kill command.  The following example demonstrates the procedure for username roberpj:
 +
 +
<pre>
 +
[roberpj@orc-login2:~]  lstc_qrun -R | grep roberpj
 +
roberpj    45312@orc329.orca.shar MPPDYNA          Wed Dec  5 15:50    12
 +
 +
[roberpj@orc-login2:~] lstc_qkill 45312@orc329.orca.sharcnet.ca
 +
Defaulting to server 1 specified by LSTC_LICENSE_SERVER variable
 +
Program queued for termination
 +
 +
[roberpj@orc-login2:~]  lstc_qrun -R | grep roberpj
 +
[roberpj@orc-login2:~]
 +
</pre>
  
 
==Legacy Instructions==
 
==Legacy Instructions==

Latest revision as of 09:25, 6 June 2019

This page is will be deleted pending it's creation on the CC wiki.
LSDYNA
Description: Suite of programs for transient dynamic finite element program
SHARCNET Package information: see LSDYNA software page in web portal
Full list of SHARCNET supported software


Introduction

Before a research group can use LSDYNA on sharcnet, a license must be purchased directly from LSTC for the sharcnet license server. Alternately, if a research group resides at a institution that has sharcnet computing hardware (mac, uwo, guelph, waterloo) it maybe possible to use a pre-existing site license hosted on an accessible institutional license server. To access and use this software you must open a ticket and request to be added to the sharcnet lsdyna group.

Version Selection

Graham Cluster

License

Create and customize this file for your license server, where XXXXX should be replaced with your port number and Y with your server number:

[roberpj@gra1:~] cat .licenses/ls-dyna.lic 
#LICENSE_TYPE: network
#LICENSE_SERVER: XXXXX@licenseY.uwo.sharcnet

Module

The modules are loaded automatically in the testomp.sh and testmpi.sh script shown below in the example section:

For single node smp jobs the available versions can be found by doing:

[roberpj@gra-login2:~] module spider ls-dyna
       ls-dyna/7.1.2
       ls-dyna/7.1.3
       ls-dyna/8.1
       ls-dyna/9.1
       ls-dyna/9.2
       ls-dyna/10.0

To load any version do for example:

module load ls-dyna/9.1

For multi node mpp jobs the available versions can be found by doing:

[roberpj@gra-login2:~] module spider ls-dyna-mpi
       ls-dyna-mpi/7.1.2
       ls-dyna-mpi/7.1.3
       ls-dyna-mpi/8.1
       ls-dyna-mpi/9.1
       ls-dyna-mpi/9.2
       ls-dyna-mpi/10.0

To load the 7.1.X modules do the following:

module load openmpi/1.6.5 ls-dyna-mpi/7.1.3

To load the 8.X or 9.X modules do:

module load openmpi/1.8.8 ls-dyna-mpi/9.2

To load the 10.X modules do:

module load openmpi/1.10.7 ls-dyna-mpi/10.0

Legacy Clusters

License

Once a license configuration is established, the research group will be given a 5 digit port number. The value should then be inserted into the appropriate departmental export statement before loading the module file as follows:

o UofT Mechanical Engineering Dept

export LSTC_LICENSE_SERVER=Port@license1.uwo.sharcnet

o McGill Mechanical Engineering Department

export LSTC_LICENSE_SERVER=Port@license2.uwo.sharcnet

o UW Mechanical and Mechatronics Engineering Dept

export LSTC_LICENSE_SERVER=Port@license3.uwo.sharcnet

o Laurentian University Bharti School of Engineering

export LSTC_LICENSE_SERVER=Port@license4.uwo.sharcnet

o Fictitious Example:

export LSTC_LICENSE_SERVER=12345@license1.uwo.sharcnet

Module

The next step is load the desired sharcnet lsdyna module version. Check which modules are available by running the module avail command then load one the modules as shown:

[roberpj@orc-login2:~] module avail lsdyna
------------------------------------ /opt/sharcnet/modules ------------------------------------
lsdyna/hyb/r711.88920     lsdyna/mpp/r711.88920     lsdyna/smp/r611.79036
lsdyna/mpp/ls971.r85718   lsdyna/mpp/r712.95028     lsdyna/smp/r711.88920
lsdyna/mpp/ls980B1.011113 lsdyna/mpp/r800.95359     lsdyna/smp/r712.95028
lsdyna/mpp/r611.79036     lsdyna/mpp/r901.109912    lsdyna/smp/r800.95359
lsdyna/mpp/r611.80542     lsdyna/smp/ls980B1.78258  lsdyna/smp/r901.109912

r9.0.1 versions

o For serial or threaded jobs:

module load lsdyna/smp/r901.109912

o For mpi jobs:

module unload intel openmpi lsdyna mkl
module load intel/15.0.3 openmpi/intel1503-std/1.8.7 lsdyna/mpp/r901.109912

r8.0.0 versions

o For serial or threaded jobs:

module load lsdyna/smp/r800.95359

o For mpi jobs:

module unload intel openmpi lsdyna mkl
module load intel/15.0.3 openmpi/intel1503-std/1.8.7 lsdyna/mpp/r800.95359

r7.1.2 versions

o For serial or threaded jobs:

module load lsdyna/smp/r712.95028

o For mpi jobs:

module unload intel openmpi lsdyna
module load intel/12.1.3 openmpi/intel/1.6.5 lsdyna/mpp/r712.95028

r7.1.1 versions

o For serial or threaded jobs:

module load lsdyna/smp/r711.88920

o For mpi jobs:

module load lsdyna/mpp/r711.88920

r6.1.1 versions

o For serial or threaded jobs:

module load lsdyna/smp/r611.79036

o For mpi jobs:

module unload intel openmpi lsdyna

module load intel/11.1.069 openmpi/intel/1.6.4 lsdyna/mpp/r611.79036
or
module load intel/11.1.069 openmpi/intel/1.6.4 lsdyna/mpp/r611.80542

where r611.80542 provides lsdyna_s only.

ls980 versions

o For serial or threaded jobs:

module load lsdyna/smp/ls980B1.78258

o For mpi jobs:

module unload intel openmpi lsdyna

module load intel/12.1.3 openmpi/intel/1.4.5 lsdyna/mpp/ls980B1.011113
or
module load intel/12.1.3 openmpi/intel/1.6.2 lsdyna/smp/ls980B1.78258

Note1) restart capability for ls980smpB1 and ls980mppB1 is not supported Note2) the module using legacy openmpi/intel/1.4.5 will run extremely slow

Job Submission

Graham Cluster

The submission scripts myompjob.sh and mympijob.sh for the airbag problem are shown in the Example Job section below, for both graham and orca. Please note that you should specify your own username if submitting to a def account (not roberpj). Alternatively you could specify your resource allocation account:

Sample threaded job submit script:

sbatch myompjob.sh

Sample mpi job submit script:

sbatch  mympijob.sh

Legacy Clusters

When loading a lsdyna sharcnet legacy module on the new orca or a sharcnet legacy system, the single or double precision solvers are specified with lsdyna_s or lsdyna_d respectively, as shown in the following sqsub commands:

1cpu SERIAL Job

sqsub -r 1h -q serial -o ofile.%J --mpp=2G lsdyna_d i=airbag.deploy.k ncpu=1

4cpu SMP Job

sqsub -r 1h -q threaded -n 4 -o ofile.%J --mpp=1G lsdyna_s i=airbag.deploy.k ncpu=4

If using an explicit solver, one can specify a conservative initial memory setting on the command line as follows:

export LSTC_MEMORY=auto
sqsub -r 1h -q threaded -n 4 -o ofile.%J --mpp=2G lsdyna_d i=airbag.deploy.k ncpu=4 memory=754414

where memory is the minimum number of 8 byte words shared by all processors in double precision, or, 4 byte words in single precision.

The initial value can be determined by starting a simulation interactively on the command line, and finding the output resembling: Memory required to begin solution  : 754414. The number of words can be specified as memory=260M instead of memory=260000000, for further details see https://www.d3view.com/2006/10/a-few-words-on-memory-settings-in-ls-dyna/.

8cpu MPI Job

sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k

The initial memory can also be specified for mpi jobs on the sqsub command line with "memory=" for the first master processor to decompose the problem and "memory2=" used on all processors including the master to solves the decomposed problem, where the values are specified as 4 bytes per word in single precision and 8 bytes per word in double precision. The number of words can be specified as memory=260M instead of memory=260000000 OR memory2=260M instead of memory2=260000000 for further details see https://www.d3view.com/2006/10/a-few-words-on-memory-settings-in-ls-dyna/. The initial values can be found by running simulation interactively on a orca compute node and checking the output for a line such as: Memory required to begin solution (memory= 464898 memory2= 158794 ) which could then be implemented for a job run in the queue by doing:

export LSTC_MEMORY=auto
sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k memory=464898 memory2=158794

The specification of memory2 on sharcnet or compute canada clusters is not beneficial since the queue reserves the same memory per core for all nodes, such that the decomposition master node process cannot be allocated to have larger system memory. Therefore its sufficient to specify a single memory parameter by doing:

export LSTC_MEMORY=auto 
sqsub -r 1h -q mpi -o ofile.%J -n 8 --mpp=2G lsdyna_d i=airbag.deploy.k memory=464898

where the LSTC_MEMORY variable will only allow the memory to grow for explicit simulations. The following slurm examples demonstrate how to prescribe the memory parameters exactly.

Example Job

Copy the airbag example to your account:

rsync -av orca.computecanada.ca:/opt/sharcnet/lsdyna/r901.109912/examples r901.109912_examples
cd r901.109912_examples/examples/misc/airbag
gunzip airbag.deploy.k.gz

Graham (default modules)

Please note that graham does not have the sharcnet legacy modules installed on it.

Threaded Job

Sample submission script mysmpjob1.sh for 4 core single precision smp job using compute canada default cvmfs modules:

#!/bin/bash
#SBATCH --account=def-roberpj-ab
#SBATCH --nodes=1                           # use one node
#SBATCH --cpus-per-task=4                   # number threads
#SBATCH --mem=4000M                         # total memory
#SBATCH --time=00:30:00                     # hrs:min:sec
#SBATCH --job-name=testsmp1                 # %x = jobname
#SBATCH --output=slurm-%x-%N-%j.out
echo "SLURM_CPUS_PER_TASK= "$SLURM_CPUS_PER_TASK
export OMP_NUM_THREADS=$SLURM_CPUS_PER_TASK
# ----------------------------------------------------------
# IMPORTANT:  to set license server do either:
# 1) export LSTC_LICENSE_SERVER=port@some.license.server
# 2) create  ~/.licenses/ls-dyna.lic as shown above
# ----------------------------------------------------------
module load ls-dyna/9.1
ls-dyna_s i=airbag.deploy.k ncpu=4 memory=1000M

where memory = 4000M / 4 (bytes/word) = 1000M words

Mpi Job

Sample submission script mympijob2.sh for 4 core double precision mpp job using compute canada default cvmfs modules:

#!/bin/bash
#SBATCH --account=def-roberpj-ab
#SBATCH --ntasks=4                     # number of ranks
#SBATCH --mem-per-cpu=4000M            # memory per rank
#SBATCH --time=00:30:00                # hrs:min:sec
#SBATCH --job-name=testmpi2            # %x = jobname
#SBATCH --output=slurm-%x-%N-%j.out
# ----------------------------------------------------------
# IMPORTANT:  to set license server do either:
# 1) export LSTC_LICENSE_SERVER=port@some.license.server
# 2) create  ~/.licenses/ls-dyna.lic as shown above
# ----------------------------------------------------------
module load openmpi/1.8.8 ls-dyna-mpi/9.1
srun ls-dyna_d i=airbag.deploy.k memory=500M memory2=500M

where memory = 4000M / 8 (bytes/word) = 500M words

New Orca (legacy modules)

Please note, while new orca has most compute canada cvmfs modules available by default it does not have the graham the ls-dyna or ls-dyna-mpi modules installed. Therefore currently the only way to run lsdyna is by using the legacy sharcnet lsdyna modules as shown in the following two smp and mpi examples.

Threaded Job

Submission script mysmpjob3.sh to run 16 core single precision single node smp job with sharcnet legacy modules:

#!/bin/bash
#SBATCH --account=def-roberpj-ab
#SBATCH --nodes=1                           # use one node
#SBATCH --cpus-per-task=16                  # number threads
#SBATCH --mem=4000M                         # total memory
#SBATCH --time=00:30:00                     # hrs:min:sec
#SBATCH --job-name=mysmpjob3-1node-16core    # jobname
#SBATCH --output=slurm-%x-%N-%j.out         # %x = jobname
echo "SLURM_CPUS_PER_TASK= "$SLURM_CPUS_PER_TASK
export OMP_NUM_THREADS=$SLURM_CPUS_PER_TASK
# ----------------------------------------------------------------
# IMPORTANT:  to set license server for legacy modules:
export LSTC_LICENSE_SERVER=31047@license3.sharcnet.ca
# since ~/.licenses/ls-dyna.lic does NOT work with legacy modules
# ----------------------------------------------------------------
module purge --force
export MODULEPATH=/opt/sharcnet/modules
module load lsdyna/smp/r712.95028
lsdyna_s i=airbag.deploy.k ncpu=$SLURM_CPUS_PER_TASK memory=500M

where memory = 4000M / 8 (bytes/word) = 500M words

MPI Job

To run the sharcnet legacy module lsdyna/mpp/r712.95028 efficiently over several compute nodes with many cores requires using orca's xeon nodes as shown in mympijob4.sh below. To run lsdyna on orca's opteron nodes with module lsdyna/mpp/r712.95028 requires using only one opteron node as shown in mympijob5.sh below. The other legacy sharcnet lsdyna mpp modules, as shown in the Availability Table lsdyna/mpp/ls971.r85718, lsdyna/mpp/ls980B1.011113, lsdyna/mpp/r611.79036, lsdyna/mpp/r611.80542, lsdyna/mpp/r711.88920, lsdyna/mpp/r800.95359 and lsdyna/mpp/r901.109912 have yet to be tested. If you want to use one but cannot get it working please open a ticket. Note that lines containing a space between "# and SBATCH" are comments. To activate such line(s) required removal of the space ie) "#SBATCH". Its recommended to use module ls-dyna-mpi on graham instead since the machine is far newer, faster and reliable.

Multi Node Slurm Script

[roberpj@orc-login2:~/samples/lsdyna/airbag] cat mympijob4.sh
#!/bin/bash
#SBATCH --account=def-roberpj-ab
#SBATCH --constraint=xeon
#SBATCH --ntasks=48
#SBATCH --mem-per-cpu=4000M
#SBATCH --time=00:30:00
#SBATCH --job-name=mympijob4-Xnodes-48cores-xeon  # jobname
#SBATCH --output=slurm-%x-%N-%j.out             # %x = jobname
# -------------------------------------------------------------
# To set license server when using legacy sharcnet modules:
export LSTC_LICENSE_SERVER=port@some.license.server
# since ~/.licenses/ls-dyna.lic does not work with legacy modules.
# -------------------------------------------------------------
module purge --force
export MODULEPATH=/opt/sharcnet/modules
module load intel/12.1.3 openmpi/intel/1.6.5 lsdyna/mpp/r712.95028
MACHINEFILE=`srun hostname -s | tr '\n' ':' | sed 's/:/,/g' | sed 's/.$//'`
mpirun --host $MACHINEFILE --mca plm_slurm_args '--cpu_bind=none' lsdyna_s i=airbag.deploy.k memory=250M memory2=250M

Single Node Slurm Script

[roberpj@orc-login2:~/samples/lsdyna/airbag] cat mympijob5.sh
#!/bin/bash
#SBATCH --account=def-roberpj-ab
#SBATCH --constraint=opteron
#SBATCH --nodes=1
# SBATCH --ntasks=24
# SBATCH --mem=0
#SBATCH --ntasks=16
#SBATCH --mem-per-cpu=1000M
#SBATCH --time=00:30:00
#SBATCH --job-name=mympijob5-1node-16cores-opteron  # jobname
#SBATCH --output=slurm-%x-%N-%j.out         # %x = jobname
# -------------------------------------------------------------
# To set license server when using legacy sharcnet modules:
export LSTC_LICENSE_SERVER=port@some.license.server
# since ~/.licenses/ls-dyna.lic does not work with legacy modules.
# -------------------------------------------------------------
module purge --force
export MODULEPATH=/opt/sharcnet/modules
module load intel/12.1.3 openmpi/intel/1.6.5 lsdyna/mpp/r712.95028
MACHINEFILE=`srun hostname -s | tr '\n' ':' | sed 's/:/,/g' | sed 's/.$//'`
mpirun --host $MACHINEFILE lsdyna_s i=airbag.deploy.k memory=250M memory2=250M

where memory = 1000M / 4 (bytes/word) = 250M words

Legacy Clusters

STEP1) The following shows sqsub submission of the airbag example to the mpi queue. Its recommended to first edit airbag.deploy.k and change endtim to 3.000E-00 so the job runs long enough to perform the restart in steps 2 and 3 below:

cp -a /opt/sharcnet/lsdyna/r611.79036/examples /scratch/$USER/test-lsdyna
cd /scratch/$USER/test-lsdyna/misc/airbag
gunzip airbag.deploy.k.gz
cp airbag.deploy.k airbag.deploy.restart.k
nano deploy.restart.k (reduce plot file creation frequency)
   *DATABASE_BINARY_D3PLOT
   $       dt      lcdtdeploy.restart.k
   1.000E-01   <--- change from 5.000E-04 
export LSTC_LICENSE_SERVER=#####@license#.uwo.sharcnet
module unload intel openmpi lsdyna
module load intel/11.1.069 openmpi/intel/1.6.4 lsdyna/mpp/r611.79036
sqsub -r 10m -q mpi --mpp=2G -n 8 -o ofile.%J lsdyna_d i=airbag.deploy.k

STEP2) With the job still running, use the echo command as follows to create a file called "D3KIL" that will trigger generation of restart files at which point the file D3KIL itself will be erased. Do this once a day if data loss is critical to you OR once or twice just before the sqsub -r time limit is reached. Further information can be found here http://www.dynasupport.com/tutorial/ls-dyna-users-guide/sense-switch-control:

echo "sw3" > D3KIL
sqkill job#

STEP3) Before the job can be restarted, the following two lines must be added to the airbag.deploy.restart.k file:

*CHANGE_CURVE_DEFINITION
         1

STEP4) Now resubmit the job as follows using "r=" to specify the restart file:

sqsub -r 1h -q mpi --mpp=2G -n 8 -o ofile.%J lsdyna_d i=airbag.deploy.restart.k r=d3dump01

General Notes

Graham Cluster

There are no special notes at the present time in regards to using lsdyna on graham.


Command Line Use

Following the upgrade of orca to the compute canada module stack, the orca development nodes were discontinued.
Therefore this section is no longer relevent and remain for historical purposes only.

Parallel lsdyna jobs can be run interactively on the command line (outside the queue) for short run testing purposes as follows:

o Orca Development Node MPP (mpi) Example

ssh orca.sharcnet.ca  
ssh orc-dev1  (or dev2,3,4)
module unload intel openmpi lsdyna
module load intel/12.1.3 openmpi/intel/1.6.2 lsdyna/mpp/r711.88920
mpirun -np 8 lsdyna_d i=airbag.deploy.k

o Orca Development Node SMP (threaded) Example

ssh orca.sharcnet.ca  
ssh orc-dev1  (or dev2,3,4)
module unload intel openmpi lsdyna
module load lsdyna/smp/r711.88920
lsdyna_d i=airbag.deploy.k ncpu=8

Memory Issues

A minumum of mpp=2G is recommended although the memory requirement of a job may suggest much less is required. For instance setting mpp=1G for the airbag test job above will result in the following error when running a job in the queue:

--------------------------------------------------------------------------
An attempt to set processor affinity has failed - please check to
ensure that your system supports such functionality. If so, then
this is probably something that should be reported to the OMPI developers.
--------------------------------------------------------------------------

Another error message which can occur after a job runs for a while if mpp is chosen to small is:

>>>>> Process 45 <<<<<
>>>>> Signal 11 : Segmentation Violation <<<<<

To get an idea of the amount of memory a job used run grep on the output file:

[roberpj@orc-login1:~/samples/lsdyna/airbag]  cat  ofile.2063302.orc-admin2.orca.sharcnet | grep Memory
     |    Distributed Memory Parallel                  |
 Memory size from command line:      500000,       500000
 Memory for the head node
 Memory installed (MB)        :        32237
 Memory free (MB)             :        11259
 Memory required (MB)         :            0
 Memory required to process keyword     :       458120
 Memory required for decomposition      :       458120
 Memory required to begin solution (memory=      458120 memory2=      230721)
 Max. Memory reqd for implicit sol: max used               0
 Max. Memory reqd for implicit sol: incore                 0
 Max. Memory reqd for implicit sol: oocore                 0
 Memory required to complete solution (memory=      458120 memory2=      230721)

Version and Revision

Again run grep on the output file to extract the major and minor revision:

[roberpj@orc-login1:~/samples/lsdyna/airbag]  cat  ofile.2063302.orc-admin2.orca.sharcnet | grep 'Revision\|Version'
     |  Version : mpp s R6.1.1    Date: 01/02/2013     |
     |  Revision: 78769           Time: 07:43:30       |
     |  SVN Version: 80542                             |

Check License Status

Running and Queued Programs

To get a summary of running and/or queued jobs use the lstc_qrun command as follows, where queued means the job has started running according to the sqsub command but its actually sitting waiting for license resources to come available. Once these are acquired the job will start running on the cluster and appear as a Running Program according to lstc_qrun ie)

[roberpj@hnd19:~] export LSTC_LICENSE_SERVER=#####@license#.uwo.sharcnet
 
[roberpj@hnd19:~] lstc_qrun
Defaulting to server 1 specified by LSTC_LICENSE_SERVER variable
                     Running Programs
    User             Host          Program              Started       # procs
-----------------------------------------------------------------------------
dgierczy    20277@saw61.saw.sharcn LS-DYNA_971      Mon Apr  8 17:44     1
dgierczy     8570@saw32.saw.sharcn LS-DYNA_971      Mon Apr  8 17:44     1
dscronin    25486@hnd6             MPPDYNA_971      Tue Apr  9 20:19     6
dscronin    14897@hnd18            MPPDYNA_971      Tue Apr  9 21:48     6
dscronin    14971@hnd18            MPPDYNA_971      Tue Apr  9 21:48     6
dscronin    15046@hnd18            MPPDYNA_971      Tue Apr  9 21:48     6
dscronin    31237@hnd16            MPPDYNA_971      Tue Apr  9 21:53     6
dscronin    31313@hnd16            MPPDYNA_971      Tue Apr  9 21:54     6
dscronin     6396@hnd15            MPPDYNA_971      Tue Apr  9 21:54     6
csharson    28890@saw175.saw.sharc MPPDYNA_971      Wed Apr 10 16:48     6
No programs queued

To show license file expiration details, append "-R" to the command:

[roberpj@hnd19:~] export LSTC_LICENSE_SERVER=#####@license#.uwo.sharcnet
 
[roberpj@hnd19:~] lstc_qrun -R
Defaulting to server 1 specified by LSTC_LICENSE_SERVER variable
**** LICENSE INFORMATION ****
PROGRAM          EXPIRATION CPUS  USED   FREE    MAX | QUEUE
---------------- ----------      ----- ------ ------ | -----
LS-DYNA_971      12/31/2013          -    966   1024 |     0
 dgierczy   20277@saw61.saw.sharcnet   1
 dgierczy    8570@saw32.saw.sharcnet   1
MPPDYNA_971      12/31/2013          -    966   1024 |     0
 dscronin   25486@hnd6               6
 dscronin   14897@hnd18              6
 dscronin   14971@hnd18              6
 dscronin   15046@hnd18              6
 dscronin   31237@hnd16              6
 dscronin   31313@hnd16              6
 dscronin    6396@hnd15              6
 csharson   28890@saw175.saw.sharcnet   6
                   LICENSE GROUP    58    966   1024 |     0
 
PROGRAM          EXPIRATION CPUS  USED   FREE    MAX | QUEUE
---------------- ----------      ----- ------ ------ | -----
LS-OPT           12/31/2013          0   1024   1024 |     0
                   LICENSE GROUP     0   1024   1024 |     0

Killling A Program

The queue normally kills lsdyna jobs cleanly. However its possible that licences for a job (which is no longer running in the queue and therefore no longer has any processes running on the cluster) will continue to be tied up according to the lstc_qrun command. To kill such a program determine the pid@hostname from the lstc_qrun command then run the following kill command. The following example demonstrates the procedure for username roberpj:

[roberpj@orc-login2:~]  lstc_qrun -R | grep roberpj
roberpj    45312@orc329.orca.shar MPPDYNA          Wed Dec  5 15:50    12

[roberpj@orc-login2:~] lstc_qkill 45312@orc329.orca.sharcnet.ca
Defaulting to server 1 specified by LSTC_LICENSE_SERVER variable
Program queued for termination

[roberpj@orc-login2:~]  lstc_qrun -R | grep roberpj
[roberpj@orc-login2:~] 

Legacy Instructions

The following binaries remain available on saw and orca for backward compatibility testing:

[roberpj@orc-login2:~] cd /opt/sharcnet/local/lsdyna
[roberpj@orc129:/opt/sharcnet/local/lsdyna] ls ls971*
ls971_d_R3_1    ls971_d_R4_2_1  ls971_s_R3_1    ls971_s_R4_2_1  ls971_s_R5_1_1
ls971_d_R4_2_0  ls971_d_R5_0    ls971_s_R4_2_0  ls971_s_R5_0

There are currently no sharcnet modules for these versions, hence jobs should be submitted as follows:

module load lsdyna
export PATH=/opt/sharcnet/local/lsdyna:$PATH
export LSTC_LICENSE_SERVER=XXXXX@license3.uwo.sharcnet
cp /opt/sharcnet/local/lsdyna/examples/airbag.deploy.k airbag.deploy.k
SERIAL JOB:  sqsub -q serial -r 1d -o ofile.%J ls971_d_R4_2_1 i=airbag.deploy.k
THREADED JOB:  sqsub -q threaded -n 4 -r 1d -o ofile.%J ls971_d_R4_2_1 ncpu=4 para=2 i=airbag.deploy.k

Note! the ls971_s_R3_1 and ls971_d_R3_1 binaries do not work, a fix is being looked for.

References

o LSTC LS-DYNA Homepage
http://www.lstc.com/products/ls-dyna

o LSTC LS-DYNA Support (Tutorials, HowTos, Faq, Manuals, Release Notes, News, Links)
http://www.dynasupport.com/

o LS-DYNA Release Notes
http://www.dynasupport.com/release-notes

o LS-PrePost Online Documentation FAQ
http://www.lstc.com/lspp/content/faq.shtml

o LSTC Download/Install Overview Page
Provides links to binaries for LS-DYNA SMP/MPP, LS-OPT, LS-PREPOST, LS-TASC.
http://www.lstc.com/download

Memory Links

o Implicit: Memory notes
http://www.dynasupport.com/howtos/implicit/implicit-memory-notes

o LS-DYNA Support Environment variables
http://www.dynasupport.com/howtos/general/environment-variables

o LS-DYNA and d3VIEW Blog (a few words on memory settings)
http://blog2.d3view.com/a-few-words-on-memory-settings-in-ls-dyna/

o Convert Words to GB ie) memory=500MW (3.73GB)
http://deviceanalytics.com/memcalc.php