MatLab CLI: Difference between revisions

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== MATLAB from the Command Line ==
While MATLAB is typically used via GUI workspace environment on a local desktop, MATLAB can be accessed from a command line environment in order to call MATLAB scripts from other scripts, issue commands to a running instances, or simply to support using a text-based terminal for users who prefer or need that functionality. 
 
The instructions below describe command-line MATLAB interaction for the HPC environment on [[Cheaha]].
 
{{MatlabAppPage}}


=== MATLAB Versions ===
=== MATLAB Versions ===
Line 6: Line 10:
The following is an example output of the command and doesn't necessarily represent the currently installed versions:
The following is an example output of the command and doesn't necessarily represent the currently installed versions:
<pre>
<pre>
$ module avail mathworks
$ module avail rc/matlab


------------------------------------ /etc/modulefiles -------------------------------------
------------------------------------ /share/apps/modulefiles -------------------------------------
mathworks/R2010a
rc/matlab/R2012a
mathworks/R2009b
rc/matlab/R2012aa
mathworks/R2009a
rc/matlab/R2013a
rc/matlab/R2015a
rc/matlab/R2015b


</pre>
</pre>


=== Simple MATLAB Test ===
=== Simple MATLAB Test ===
A simple test to verify that the MATLAB client on Cheaha can check out a license from your server.
A simple test to verify that the MATLAB client on Cheaha can check out a license from your server (or from the campus license server 27000@lmgr.uabgrid.uab.edu ).


Set up your environment with the command:
Set up your environment with the command:
<pre>
<pre>
$ module load mathworks/R2010a
$ module load rc/matlab/R2012a
</pre>
</pre>
As a test, you can run MatLab and access your license server with
As a test, you can run MatLab and access your license server with
<pre>
<pre>
$ matlab -c port@license-server -nodesktop -nojvm -r 'rand, pause(0), exit'
$ matlab -nodesktop -nojvm -r 'rand, pause(0), exit'
</pre>
</pre>
or create an 'm file' and run it as
<pre>
$ matlab -nodesktop -nojvm <temp.m
</pre>
For example:
For example:
<pre>
<pre>
$ module load mathworks/R2010a
$ module load rc/matlab/R2012a
$ matlab -c 27000@licserver -nodesktop -nojvm -r 'rand, pause(0), exit'
$ matlab -nodesktop -nojvm -r 'rand, pause(0), exit'


                                    < M A T L A B (R) >
                                            < M A T L A B (R) >
                          Copyright 1984-2010 The MathWorks, Inc.
                                  Copyright 1984-2010 The MathWorks, Inc.
                        Version 7.10.0.499 (R2010a) 64-bit (glnxa64)
                                Version 7.11.0.584 (R2010b) 64-bit (glnxa64)
                                      February 5, 2010
                                              August 16, 2010


   
   
Line 40: Line 52:
   For product information, visit www.mathworks.com.
   For product information, visit www.mathworks.com.
   
   
>>
 
ans =
ans =


Line 46: Line 58:


</pre>
</pre>
This will start matlab without a graphical display and without Java support.  This is good just to  
This will start matlab without a graphical display and without Java support.  This is good just to  
verify things work, but do not run any significant computations on the Cheaha head node!
verify things work, but do not run any significant computations on the Cheaha head node!


MatLab computational work must be run on the compute nodes by submitting a job submission script to the SGE scheduler
MatLab computational work must be run on the compute nodes by submitting a job submission script to the SGE scheduler or by using the Parallel Computing Toolbox on your desktop.


=== Serial MATLAB ===
=== Serial MATLAB ===
Line 63: Line 78:
  * YOUR_EMAIL_ADDRESS
  * YOUR_EMAIL_ADDRESS
  * h_rt and s_rt to appropriate hard and soft runtime limits
  * h_rt and s_rt to appropriate hard and soft runtime limits
  * h_vmem to the maximum amount of memory that your job will use
  * vf to the maximum amount of memory that your job will use
 
Note, the matlab command switch '-nojvm' dramatically decreases the amount of RAM needed to start MATLAB. The work performed by your job will determine whether or not it can be run with '-nojvm'
<pre>
<pre>
$ mkdir -p $UABGRID_SCRATCH/jobs/matlab/serial01/output
$ mkdir -p $USER_SCRATCH/jobs/matlab/serial01/output
$ cd $UABGRID_SCRATCH/jobs/matlab/serial01
$ cd $USER_SCRATCH/jobs/matlab/serial01
</pre>
</pre>
<pre>
<pre>
Line 74: Line 91:
#
#
#$ -N serialMatlab
#$ -N serialMatlab
#$ -l h_rt=00:10:00,s_rt=00:08:00,h_vmem=2G
#$ -l h_rt=00:10:00,s_rt=00:08:00,vf=2G
#$ -j y
#$ -j y
#
#
Line 80: Line 97:
#$ -m eas
#$ -m eas
#
#
module load mathworks/R2010a
module load mathworks/R2011a
#$ -V
#$ -V
   
   
matlab -c port@license-server -nodisplay -nojvm < matlab-script
matlab -nodisplay -nojvm < matlab-script
</pre>
</pre>
   
   
Then submit the script to the scheduler with
Then submit the script to the scheduler with
<pre>
<pre>
$ cd $UABGRID_SCRATCH/jobs/matlab/serial01
$ cd $USER_SCRATCH/jobs/matlab/serial01
$ qsub matlabtest.qsub
$ qsub matlabtest.qsub
</pre>
</pre>
Line 101: Line 118:


Distributed MATLAB jobs use the following licenses:
Distributed MATLAB jobs use the following licenses:
* Your own MATLAB client license with the Parallel Computing Toolbox
* MATLAB client license with the Parallel Computing Toolbox - Uses 1 client license
* The Cheaha Distributed Computing license
* The Cheaha Distributed Computing license - 1 DCS license per cpu slot


The client license will only be needed for as long as it takes MATLAB to start the job on the compute nodes (unless you keep the client open, for example using "waitForState(job)" in your MATLAB script).
The client license will only be needed for as long as it takes MATLAB to start the job on the compute nodes (unless you keep the client open, for example using "waitForState(job)" in your MATLAB script). This is mostly relevant if you are using a client license from a source other than the UAB MATLAB site license where there are a limited number of licenses available.


The instructions are a work in progress, so please contact Research Computing support with any questions or corrections.
The instructions are a work in progress, so please contact Research Computing support with any questions or corrections.
Line 110: Line 127:
First, create the working directory for the job
First, create the working directory for the job
<pre>
<pre>
$ mkdir -p $UABGRID_SCRATCH/jobs/matlab/distrib01/output
$ mkdir -p $USER_SCRATCH/jobs/matlab/distrib01/output
$ cd $UABGRID_SCRATCH/jobs/matlab/distrib01
$ cd $USER_SCRATCH/jobs/matlab/distrib01


</pre>
</pre>
Line 125: Line 142:
<pre>
<pre>
% Always set these variables
% Always set these variables
matlab_ver      = 'R2010a';    % (MATLAB release supported by your license) R2009a R2009b R2010a
matlab_ver      = 'R2011a';    % (MATLAB release supported by your license) R2009a R2009b R2010a
email          = 'YOUREMAIL'; % your email address
email          = 'YOUREMAIL'; % your email address
email_opt      = 'eas';      % qsub email options
email_opt      = 'eas';      % qsub email options
Line 131: Line 148:
h_rt            = '00:07:00';  % hard wall time
h_rt            = '00:07:00';  % hard wall time
vf              = '1G';        % Amount of memory need per task
vf              = '1G';        % Amount of memory need per task
scratch        = getenv('UABGRID_SCRATCH');
scratch        = getenv('USER_SCRATCH');
outputDirectory  = [scratch, '/jobs/matlab/distrib01/output'];
outputDirectory  = [scratch, '/jobs/matlab/distrib01/output'];


Line 151: Line 168:
createTask(job, @rand, 1, {3,3});
createTask(job, @rand, 1, {3,3});
createTask(job, @rand, 1, {3,3});
createTask(job, @rand, 1, {3,3});
% createTask(job, @USERFUNCTION, 1, {options});  % this can call a user m file instead of an inbuilt
                                                % function , please make sure that the user defined
                                                % function is in the MATLAB path)


submit(job)
submit(job)
Line 156: Line 177:


Running the MATLAB script will submit 2 SGE single slot (CPU) jobs, one for each task. The Parallel Computing Toolbox requires Java VM, so notice that for this job we do not include the "-nojvm" switch!
Running the MATLAB script will submit 2 SGE single slot (CPU) jobs, one for each task. The Parallel Computing Toolbox requires Java VM, so notice that for this job we do not include the "-nojvm" switch!
Additional examples and submit scripts available on the [[MATLAB_workshop_2011#Workshop_Demo.27s | MATLAB workshop 2011 demo ]] page.
<pre>
<pre>
$ module load mathworks/R2010a
$ module load mathworks/R2010a
$ matlab -c port@license-server -nodisplay < sharedDistrib01.m
$ matlab -nodisplay < sharedDistrib01.m
</pre>
</pre>


Line 184: Line 208:
First, create the working directory for the job
First, create the working directory for the job
<pre>
<pre>
$ mkdir -p $UABGRID_SCRATCH/jobs/matlab/paralle01/output
$ mkdir -p $USER_SCRATCH/jobs/matlab/paralle01/output
$ cd $UABGRID_SCRATCH/jobs/matlab/parallel01
$ cd $USER_SCRATCH/jobs/matlab/parallel01


</pre>
</pre>
Line 199: Line 223:
<pre>
<pre>
% Always set these variables
% Always set these variables
matlab_ver      = 'R2010a';    % (MATLAB release supported by your license) R2009a R2009b R2010a
matlab_ver      = 'R2011a';    % (MATLAB release supported by your license) R2009a R2009b R2010a
email          = 'YOUREMAIL'; % your email address
email          = 'YOUREMAIL'; % your email address
email_opt      = 'eas';      % qsub email options
email_opt      = 'eas';      % qsub email options
Line 207: Line 231:
min_cpu_slots  = 4;          % Minimum number of cpu slots needed for the parallel job
min_cpu_slots  = 4;          % Minimum number of cpu slots needed for the parallel job
max_cpu_slots  = 8;          % Maximum number of cpu slots needed for the parallel job
max_cpu_slots  = 8;          % Maximum number of cpu slots needed for the parallel job
scratch        = getenv('UABGRID_SCRATCH');
scratch        = getenv('USER_SCRATCH');
outputDirectory = [scratch, '/jobs/matlab/parallel01/output'];
outputDirectory = [scratch, '/jobs/matlab/parallel01/output'];


Line 234: Line 258:
Running the MATLAB script will submit 1 SGE job requesting 4 slots (cpu cores). The Parallel Computing Toolbox requires Java VM, so notice that for this job we do not include the "-nojvm" switch!
Running the MATLAB script will submit 1 SGE job requesting 4 slots (cpu cores). The Parallel Computing Toolbox requires Java VM, so notice that for this job we do not include the "-nojvm" switch!
<pre>
<pre>
$ module load mathworks/R2010a
$ module load mathworks/R2011a
$ matlab -c port@license-server -nodisplay < sharedPar01.m
$ matlab -nodisplay < sharedPar01.m
</pre>
</pre>


Line 250: Line 274:
The job output can be found in the "output" directory
The job output can be found in the "output" directory


=== ParFor Parallel Example ===
=== Matlabpool/ParFor Parallel Example ===
This example will utilize the parfor parallel loop as [http://www.mathworks.com/products/parallel-computing/parallel/accelerate.html defined here].
This example will utilize the parfor parallel loop as [http://www.mathworks.com/products/parallel-computing/parallel/accelerate.html defined here].


coming soon....
Matlabpool can be run on the [[Cheaha]] from the head node.
<pre>
1. Login to the Cheaha head node with X using: ssh -X USERID@cheaha.uabgrid.uab.edu
2. load the Matlab module:  module load mathworks/R2011a
3. Start Matlab in X using: matlab
</pre>
 
This should open up a Matlab window on your Desktop. User needs to setup the Parallel Config and copy the required files to the user folder on the Cheaha. A similar process for the same on a desktop is mentioned [[MatLab_DCS#MATLAB_from_Your_Desktop| here]].
 
Validate the parallel configuration.
<pre>
Open matlabpool from the MATLAB command window using: matlabpool open cheaha 'numberOfProcessors'.
Output: Starting matlabpool using the 'cheaha' configuration ... connected to 'numberOfProcessors' labs.
Run Matlab job as you would run it using a local configuration on your Desktop.
Close matlabpool using: matlabpool close all
</pre>
 
 
{{MATLAB Support}}


[[Category:MATLAB]]
[[Category:MATLAB]]

Latest revision as of 18:29, 28 October 2016

While MATLAB is typically used via GUI workspace environment on a local desktop, MATLAB can be accessed from a command line environment in order to call MATLAB scripts from other scripts, issue commands to a running instances, or simply to support using a text-based terminal for users who prefer or need that functionality.

The instructions below describe command-line MATLAB interaction for the HPC environment on Cheaha.

Please see the MATLAB application page for more information and a general overview of MATLAB and its use at UAB.

MATLAB Versions

Use the 'module' command to view a list of available MATLAB versions. If the version that you require isn't listed, please open a help desk ticket to request the installation.

The following is an example output of the command and doesn't necessarily represent the currently installed versions:

$ module avail rc/matlab

------------------------------------ /share/apps/modulefiles -------------------------------------
rc/matlab/R2012a
rc/matlab/R2012aa
rc/matlab/R2013a
rc/matlab/R2015a
rc/matlab/R2015b

Simple MATLAB Test

A simple test to verify that the MATLAB client on Cheaha can check out a license from your server (or from the campus license server 27000@lmgr.uabgrid.uab.edu ).

Set up your environment with the command:

$ module load rc/matlab/R2012a

As a test, you can run MatLab and access your license server with

$ matlab  -nodesktop -nojvm -r 'rand, pause(0), exit'

or create an 'm file' and run it as

$ matlab -nodesktop -nojvm <temp.m

For example:

$ module load rc/matlab/R2012a
$ matlab  -nodesktop -nojvm -r 'rand, pause(0), exit'

                                             < M A T L A B (R) >
                                   Copyright 1984-2010 The MathWorks, Inc.
                                Version 7.11.0.584 (R2010b) 64-bit (glnxa64)
                                               August 16, 2010

 
  To get started, type one of these: helpwin, helpdesk, or demo.
  For product information, visit www.mathworks.com.
 

ans =

    0.8147


This will start matlab without a graphical display and without Java support. This is good just to verify things work, but do not run any significant computations on the Cheaha head node!

MatLab computational work must be run on the compute nodes by submitting a job submission script to the SGE scheduler or by using the Parallel Computing Toolbox on your desktop.

Serial MATLAB

Serial MATLAB jobs have the following characteristics:

* Consumes one of your client licenses for the duration of the job
* Does not use the distributed licenses available on cheaha
* Does not require the Parallel Computing Toolbox
* Restricted to a single CPU core (slot)

See the next section for an example using the distributed computing license.

Create a job script "matlabtest.qsub" making sure to change:

* YOUR_EMAIL_ADDRESS
* h_rt and s_rt to appropriate hard and soft runtime limits
* vf to the maximum amount of memory that your job will use

Note, the matlab command switch '-nojvm' dramatically decreases the amount of RAM needed to start MATLAB. The work performed by your job will determine whether or not it can be run with '-nojvm'

$ mkdir -p $USER_SCRATCH/jobs/matlab/serial01/output
$ cd $USER_SCRATCH/jobs/matlab/serial01
#!/bin/bash
#$ -S /bin/bash
#$ -cwd
#
#$ -N serialMatlab
#$ -l h_rt=00:10:00,s_rt=00:08:00,vf=2G
#$ -j y
#
#$ -M YOUR_EMAIL_ADDRESS
#$ -m eas
#
module load mathworks/R2011a
#$ -V
 
matlab -nodisplay -nojvm < matlab-script

Then submit the script to the scheduler with

$ cd $USER_SCRATCH/jobs/matlab/serial01
$ qsub matlabtest.qsub

Check on it with qstat.

$ qstat -u $USER

Distributed MATLAB

These instructions provide an example of how to create and submit a distributed MATLAB job on cheaha.

Distributed MATLAB jobs use the following licenses:

  • MATLAB client license with the Parallel Computing Toolbox - Uses 1 client license
  • The Cheaha Distributed Computing license - 1 DCS license per cpu slot

The client license will only be needed for as long as it takes MATLAB to start the job on the compute nodes (unless you keep the client open, for example using "waitForState(job)" in your MATLAB script). This is mostly relevant if you are using a client license from a source other than the UAB MATLAB site license where there are a limited number of licenses available.

The instructions are a work in progress, so please contact Research Computing support with any questions or corrections.

First, create the working directory for the job

$ mkdir -p $USER_SCRATCH/jobs/matlab/distrib01/output
$ cd $USER_SCRATCH/jobs/matlab/distrib01

Next, create a simple 2 task distributed MATLAB script called "sharedDistrib01.m" make sure to change:

* email to your email address
* s_rt to an appropriate soft wall time limit
* h_rt to the maximum wall time for your job
* vf to the maximum memory needed for each task
* outputDirectory to the directory where results should be stored

Don't make any changes to the section labeled "Configure the scheduler"

% Always set these variables
matlab_ver      = 'R2011a';    % (MATLAB release supported by your license) R2009a R2009b R2010a
email           = 'YOUREMAIL'; % your email address
email_opt       = 'eas';       % qsub email options
s_rt            = '00:05:00';  % soft wall time
h_rt            = '00:07:00';  % hard wall time
vf              = '1G';        % Amount of memory need per task
scratch         = getenv('USER_SCRATCH');
outputDirectory  = [scratch, '/jobs/matlab/distrib01/output'];

% Configure the scheduler
sched = findResource('scheduler', 'type', 'generic');
set(sched, 'DataLocation'       , outputDirectory);
set(sched, 'ClusterMatlabRoot', ['/share/apps/mathworks/', matlab_ver]);
set(sched, 'HasSharedFilesystem',  true);
set(sched, 'ClusterOsType'      , 'unix');
set(sched, 'SubmitFcn', {@sgeSubmitFcn});
set(sched, 'DestroyJobFcn', {@sgeDestroyJob});
set(sched, 'GetJobStateFcn', {@sgeGetJobState});
sge_options = ['-pe matlab 1 -l matlab_dcs=1,vf=', vf, ',h_rt=', h_rt, ',s_rt=', s_rt, ' -m ', email_opt, ' -M ', email];
SGEClusterInfo.setExtraParameter(sge_options);
get(sched)
job = createJob(sched);

% start of user specific commands
createTask(job, @rand, 1, {3,3});
createTask(job, @rand, 1, {3,3});
% createTask(job, @USERFUNCTION, 1, {options});  % this can call a user m file instead of an inbuilt
                                                 % function , please make sure that the user defined 
                                                 % function is in the MATLAB path)


submit(job)

Running the MATLAB script will submit 2 SGE single slot (CPU) jobs, one for each task. The Parallel Computing Toolbox requires Java VM, so notice that for this job we do not include the "-nojvm" switch!

Additional examples and submit scripts available on the MATLAB workshop 2011 demo page.

$ module load mathworks/R2010a
$ matlab -nodisplay < sharedDistrib01.m

Check qstat to see that the scheduler now has 2 jobs running, one for each task

$ qstat -u $USER

job-ID  prior   name       user         state submit/start at     queue                          slots ja-task-ID
-----------------------------------------------------------------------------------------------------------------
 110839 0.50167 Job1.1     jdoe         r     03/10/2010 16:32:37 all.q@compute-0-12.local           1
 110840 0.50083 Job1.2     jdoe         r     03/10/2010 16:32:37 all.q@compute-0-12.local           1

The job output can be found in the "output" directory

Parallel MATLAB

These instructions provide an example of how to create and submit a parallel MATLAB job on cheaha. Parallel MATLAB jobs require two separate licenses:

* Your own client license that includes the Parallel Computing Toolbox
* The Cheaha 128 node Distributed Computing license

The client license will only be needed for as long as it takes MATLAB to start the job on the compute nodes (unless you keep the client open, for example using "waitForState(job)" in your MATLAB script).

Check out this MATLAB Help Page for a quick overview of using parallel code in your MATLAB scripts.

First, create the working directory for the job

$ mkdir -p $USER_SCRATCH/jobs/matlab/paralle01/output
$ cd $USER_SCRATCH/jobs/matlab/parallel01

Next, create a simple 4 slot parallel MATLAB script called "sharedPar01.m" make sure to change:

* email to your email address
* s_rt to an appropriate soft wall time limit
* h_rt to the maximum wall time for your job
* vf to the maximum memory needed for each task
* outputDirectory to the directory where results should be stored

Don't make any changes to the section labeled "Configure the scheduler"

% Always set these variables
matlab_ver      = 'R2011a';    % (MATLAB release supported by your license) R2009a R2009b R2010a
email           = 'YOUREMAIL'; % your email address
email_opt       = 'eas';       % qsub email options
s_rt            = '00:05:00';  % soft wall time
h_rt            = '00:07:00';  % hard wall time
vf        = '1G';        % Amount of memory need per task
min_cpu_slots   = 4;           % Minimum number of cpu slots needed for the parallel job
max_cpu_slots   = 8;           % Maximum number of cpu slots needed for the parallel job
scratch         = getenv('USER_SCRATCH');
outputDirectory = [scratch, '/jobs/matlab/parallel01/output'];

% Configure the scheduler
sched = findResource('scheduler', 'type', 'generic');
set(sched, 'DataLocation'       , outputDirectory);
set(sched, 'ClusterMatlabRoot', ['/share/apps/mathworks/', matlab_ver]);
set(sched, 'HasSharedFilesystem',  true);
set(sched, 'ClusterOsType'      , 'unix');
set(sched, 'ParallelSubmitFcn', {@sgeParallelSubmitFcn});
set(sched, 'DestroyJobFcn', {@sgeDestroyJob});
set(sched, 'GetJobStateFcn', {@sgeGetJobState});
sge_options = ['-l matlab_dcs=1,vf=', vf, ',h_rt=', h_rt, ',s_rt=', s_rt, ' -m ', email_opt, ' -M ', email];
SGEClusterInfo.setExtraParameter(sge_options);
get(sched)
pjob = createParallelJob(sched);

% start of user specific commands
createTask(pjob, 'rand', 1, {4});
set(pjob, 'MinimumNumberOfWorkers', min_cpu_slots);
set(pjob, 'MaximumNumberOfWorkers', max_cpu_slots);

submit(pjob)

Running the MATLAB script will submit 1 SGE job requesting 4 slots (cpu cores). The Parallel Computing Toolbox requires Java VM, so notice that for this job we do not include the "-nojvm" switch!

$ module load mathworks/R2011a
$ matlab -nodisplay < sharedPar01.m

Check qstat to see that the scheduler now has 2 jobs running, one for each task

$ qstat -u $USER

job-ID  prior   name	   user         state submit/start at     queue                          slots ja-task-ID
-----------------------------------------------------------------------------------------------------------------
 110857 0.00000 Job1	   jdoe         r     03/10/2010 17:20:08                                    4

The job output can be found in the "output" directory

Matlabpool/ParFor Parallel Example

This example will utilize the parfor parallel loop as defined here.

Matlabpool can be run on the Cheaha from the head node.

1. Login to the Cheaha head node with X using: ssh -X USERID@cheaha.uabgrid.uab.edu
2. load the Matlab module:  module load mathworks/R2011a
3. Start Matlab in X using: matlab 

This should open up a Matlab window on your Desktop. User needs to setup the Parallel Config and copy the required files to the user folder on the Cheaha. A similar process for the same on a desktop is mentioned here.

Validate the parallel configuration.

Open matlabpool from the MATLAB command window using: matlabpool open cheaha 'numberOfProcessors'.
Output: Starting matlabpool using the 'cheaha' configuration ... connected to 'numberOfProcessors' labs.
Run Matlab job as you would run it using a local configuration on your Desktop.
Close matlabpool using: matlabpool close all


MATLAB Support / Mailing List

As with any application or computer language, learning to use MATLAB to analyze data or to develop or modify MATLAB applications is an individual responsibility. There is ample application documentation available from the Mathworks website, potential outreach to colleagues who also use MATLAB, and options for consultation with Mathworks. Mathworks also host on-campus training seminars several times a year and provides many on-line learning tutorials.

Installation support for MATLAB at UAB is provided by your local IT support organization and the Docs wiki.

Mathworks Website

Your first and best option for application-specific questions on MATLAB is to refer to the on-line MATLAB documentation. The Mathworks site also provides a a support matrix and an on-line knowledge base.

UAB MATLAB Wiki

The MATLAB page on the Docs wiki is the starting point for installing MATLAB at UAB and, optionally, configuring it to use cluster computing. All users are encouraged to contribute to the MATLAB knowledge in this wiki, especially if you see areas where improvements are needed. Remember, this knowledge base is only as good as the people who contribute to it.

Contributing to the wiki is as easy as clicking the login link on the top-right of the page and signing in with your UAB BlazerID. If you are unsure about making an edit, you can make suggestions for improvement on the page's Discussion tab or discuss the proposed improvement in the MATLAB user group.

UAB MATLAB User Group

At UAB, MATLAB installation support is provided by your local IT support group. Support for application specific questions is available from peers in your research group. We realize that some people are not as familiar with MATLAB as others. For this reason, we have established a MATLAB user forum (mailing list) where users of MATLAB at UAB can help answer each others questions.

This is a network of volunteers sharing their knowledge with peers. You are encouraged to reach out to this community for questions on using MATLAB by

Archives of MATLAB user group discussions are available on-line at https://vo.uabgrid.uab.edu/sympa/arc/matlab-user. You may find your question is already answered in these archives.


UAB MATLAB announce mailing list

To receive information about UAB's MATLAB license and announcements please subscribe to the matlab-annc mailing list by