Matlab is currently available for use centrally on the HPC cluster systems system of the University of Iowa. One may use the Matlab environment by loading the appropriate module: [user@hpc:~]$ module load matlab_R2012b
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While it is possible to run Matlab interactively, which can be especially useful for prototyping a job, please remember that login nodes are a shared resource and are intended for launching jobs or prototyping smaller versions of jobs you intend to run. It is not advisable to use interactive sessions for long-running, compute-intensive jobs unless one uses a qlogin session to do so.
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A batch or serial job is generally run on a single node. The following is a very simple example of a non-parallel batch job using Matlab functions.
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Matlab's Parallel toolbox Toolbox does not work well if you set a shell preference in your SGE request. If you otherwise use a #$ -S <shell> designation in your SGE qsub scripts, it is best to remove or comment them when submitting parallel Matlab jobs. |
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This example demonstrates the -nojvm which disables some of Matlab's features in order to start faster and use less memory. This helps maintain the cluster's performance if you have a large batch of jobs which don't require the disabled features. |
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#!/bin/bash # The name of the job: #$ -N MatlabTest # Name of the output log file: #$ -o matjob.log # Combining output/error messages into one file: #$ -j y # Specifying the Queue #$ -q UI # One needs to tell the queue system to use the current directory as the working directory #$ -cwd # The command(s) to be executed: matlab -nodisplay -nodesktop -nojvm -r batch # Note after -r is the name of the routine or function |
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The current installation of Matlab uses the Parallel Toolbox, which allows for parallel jobs that can use up to 12 the total number of cores per job. Information on the Parallel Toolkit may be found here: http://www.mathworks.com/help/distcomp/index.html. The following example script can be used to submit a Matlab job to SGE to run on 8 cores (you may use all the cores in a node – which may be more than 8). Note that lines starting with '#$' are SGE shell commands, whereas '#' symbols denote comments, and the remaining lines are matlab commands.
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Submit the job using 'qsub parallel-test.sh'
, assuming the name of the submission script is called parallel-test.sh.
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Matlab's Parallel Toolbox requires Java, so if your code uses features of the toolbox, you must omit the -nojvm option when invoking matlab, otherwise your code will quit with an uninformative error. You can verify Java is available and otherwise deliberately quit with a helpful error message by adding this command before code which uses a feature requiring Java: error(javachk('jvm')) |
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#!/bin/bash # The name of the job: #$ -N test ## replace 'test' with job name # Name of the output log file: #$ -o matlabTest_parfor.log # Combining output/error messages into one file ( change y to n for separate files) #$ -j y # Specify the parallel environment (PE) and number of cores to use (8): #$ -pe smp 8 # One needs to tell the queue system to use the current directory as the working directory #$ -cwd # The matlab commands to be executed; replace "test" with your function name. # -r imediately runs a function without presenting an interactive prompt /opt/matlab/R2012b/bin/matlab -nodisplay -nodesktop -nosplash -r parafor-test |
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matlabpool('open',8); tic start = tic; clear A parfor i = 1:100000; A(i) = i; end stop = toc(start); stop matlabpool('close'); |
Matlab engine for Python
To install Matlab engine for Python in order to invoke Matlab using matlab.engine from your Python code, see the notes specific to using Python.