# Difference between revisions of "SW:Matlab"

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− | = Running Matlab interactively | + | = Running Matlab interactively = |

− | Matlab is accessible | + | Matlab is accessible to all HPRC users within the terms of our license agreement. If you have particular concerns about whether specific usage falls within the TAMU HPRC license, please send an email to HPRC Helpdesk. You can start a Matlab session either directly on a login node or through our portal |

− | + | == Running Matlab on a login node == | |

− | |||

− | This will setup the environment for Matlab version | + | To be able to use Matlab, the Matlab module needs to be loaded first. This can be done using the following command: |

+ | [ netID@cluster ~]$ '''module load Matlab/R2019a''' | ||

+ | |||

+ | This will setup the environment for Matlab version R2019a. To see a list of all installed versions, use the following command: | ||

[ netID@cluster ~]$ '''module spider Matlab''' | [ netID@cluster ~]$ '''module spider Matlab''' | ||

<font color=teal>'''Note:''' New versions of software become available periodically. Version numbers may change.</font> | <font color=teal>'''Note:''' New versions of software become available periodically. Version numbers may change.</font> | ||

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[ netID@cluster ~]$ '''matlab''' | [ netID@cluster ~]$ '''matlab''' | ||

− | Depending on your X server settings, this will start either the Matlab GUI or the Matlab command line interface. To start Matlab in command line interface mode, use the following command with the appropriate flags: | + | Depending on your X server settings, this will start either the Matlab GUI or the Matlab command-line interface. To start Matlab in command-line interface mode, use the following command with the appropriate flags: |

[ netID@cluster ~]$ '''matlab -nosplash -nodisplay''' | [ netID@cluster ~]$ '''matlab -nosplash -nodisplay''' | ||

− | By default, Matlab will execute a large number of built-in operators and functions multi-threaded and will use as many threads (i.e. cores) as are available on the node. Since login nodes are shared among all users, HPRC restricts the number of computational threads to 8. This should suffice for most cases. Speedup achieved through multi-threading depends on many factors and in certain cases | + | By default, Matlab will execute a large number of built-in operators and functions multi-threaded and will use as many threads (i.e. cores) as are available on the node. Since login nodes are shared among all users, HPRC restricts the number of computational threads to 8. This should suffice for most cases. Speedup achieved through multi-threading depends on many factors and in certain cases. To explicitly change the number of computational threads, use the following Matlab command: |

>>feature('NumThreads',4); | >>feature('NumThreads',4); | ||

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{{:SW:Login_Node_Warning}} | {{:SW:Login_Node_Warning}} | ||

− | =Running | + | == Running Matlab through the hprc portal == |

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− | + | HPRC provides a portal through which users can start an interactive Matlab GUI session inside a web browser. For more information how to use the portal see our [[SW:Portal | HPRC OnDemand Portal]] section | |

+ | = Running Matlab through the batch system = | ||

− | |||

− | + | HPRC developed a tool named '''matlabsubmit''' to run Matlab simulations on the HPRC compute nodes without the need to create your own batch script and without the need to start a Matlab session. '''matlabsubmit''' will automatically generate a batch script with the correct requirements. In addition, '''matlabsubmit''' will also generate boilerplate Matlab code to set up the environment (e.g. the number of computational threads) and, if needed, will start a ''parpool'' using the correct Cluster Profile (''local'' if all workers fit on a single node and a cluster profile when workers are distribued over multiple nodes) | |

− | |||

− | HPRC developed a tool named '''matlabsubmit''' to run Matlab simulations on the HPRC compute nodes without the need to create your own batch script and without the need to start a Matlab session. '''matlabsubmit''' will automatically generate a batch script with the correct requirements. '''matlabsubmit''' will also generate boilerplate Matlab code to set up the environment (e.g. | ||

To submit your Matlab script, use the following command: | To submit your Matlab script, use the following command: | ||

<pre> | <pre> | ||

[ netID@cluster ~]$ matlabsubmit myscript.m | [ netID@cluster ~]$ matlabsubmit myscript.m | ||

− | </pre> | + | </pre> |

− | |||

− | |||

− | + | In the above example, '''matlabsubmit''' will use all default values for runtime, memory requirements, the number of workers, etc. To specify resources, you can use the command-line options of '''matlabsubmmit'''. For example: | |

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<pre> | <pre> | ||

− | + | [ netID@cluster ~]$ matlabsubmit -t 07:00 -s 4 myscript.m | |

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</pre> | </pre> | ||

+ | will set the wall-time to 7 hours and makes sure Matlab will use 4 computational threads for its run ( '''matlabsubmit''' will also request 4 cores). | ||

− | + | To see all options for '''matlabsubmit''' use the '''-h''' flag | |

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<pre> | <pre> | ||

+ | [ netID@cluster ~]$ matlabsubmit -h | ||

+ | Usage: /sw/hprc/sw/Matlab/bin/matlabsubmit [options] SCRIPTNAME | ||

− | + | This tool automates the process of running Matlab codes on the compute nodes. | |

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− | This | ||

OPTIONS: | OPTIONS: | ||

-h Shows this message | -h Shows this message | ||

-m set the amount of requested memory in MEGA bytes(e.g. -m 20000) | -m set the amount of requested memory in MEGA bytes(e.g. -m 20000) | ||

− | -t sets the walltime; form hh:mm | + | -t sets the walltime; form hh:mm (e.g. -t 03:27) |

-w sets the number of ADDITIONAL workers | -w sets the number of ADDITIONAL workers | ||

-g indicates script needs GPU (no value needed) | -g indicates script needs GPU (no value needed) | ||

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DEFAULT VALUES: | DEFAULT VALUES: | ||

− | memory : | + | memory : 2000 per core |

time : 02:00 | time : 02:00 | ||

workers : 0 | workers : 0 | ||

gpu : no gpu | gpu : no gpu | ||

threading: on, 8 threads | threading: on, 8 threads | ||

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</pre> | </pre> | ||

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'''NOTE''' when using the '''-f''' flag to execute a function instead of a script, the function call must be enclosed with double quotes when it contains parentheses. For example: '''matlabsubmit -f "myfunc(21)"''' | '''NOTE''' when using the '''-f''' flag to execute a function instead of a script, the function call must be enclosed with double quotes when it contains parentheses. For example: '''matlabsubmit -f "myfunc(21)"''' | ||

− | + | <br> | |

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− | + | When executing, '''matlabsubmit''' will do the following: | |

− | + | * generate boilerplate Matlab code to setup the Matlab environment (e.g. #threads, #workers) <br> | |

− | + | * generate a batch script with all resources set correctly and the command to run Matlab <br> | |

− | + | * submit the generated batch script to the batch scheduler and return control back to the user <br> | |

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− | + | For detailed examples on using matlabsubmit see the [[ SW:Matlab_matlabsubmit | examples ]] section. | |

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= Using Matlab Parallel Toolbox on HPRC Resources= | = Using Matlab Parallel Toolbox on HPRC Resources= | ||

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<font color=red> ''THIS SECTION IS UNDER CONSTRUCTION'' </font><br> | <font color=red> ''THIS SECTION IS UNDER CONSTRUCTION'' </font><br> | ||

− | In this section, we will | + | In this section, we will focus on utilizing the Parallel toolbox on HPRC cluster. For a general intro to the Parallel Toolbox see the [https://www.mathworks.com/help/parallel-computing/index.html?s_tid=CRUX_lftnav parallel toolbox ] section on the Mathworks website. Here we will discuss how to use Matlab Cluster profiles to distribute workers over multiple nodes. |

− | The central concept in most of the | + | The central concept in most of the discussion below is the '''TAMUClusterProperties''' object which we will discuss in more detail in the next section |

== Cluster Profiles == | == Cluster Profiles == | ||

− | + | Matlab Cluster Profiles provide an interface to define properties of how and where to start Matlab workers. There are two kinds of profiles. | |

− | Cluster | ||

* local profiles: parallel processing is limited to the same node the Matlab client is running. | * local profiles: parallel processing is limited to the same node the Matlab client is running. | ||

− | * cluster profiles: parallel processing can span multiple nodes; profile interacts with batch scheduler (e.g. | + | * cluster profiles: parallel processing can span multiple nodes; profile interacts with a batch scheduler (e.g. SLURM on terra). |

'''NOTE:''' we will not discuss ''local profiles'' any further here. Processing using a local profile is exactly the same as processing using cluster profiles. | '''NOTE:''' we will not discuss ''local profiles'' any further here. Processing using a local profile is exactly the same as processing using cluster profiles. | ||

Line 402: | Line 116: | ||

=== Importing Cluster Profile === | === Importing Cluster Profile === | ||

− | For your convenience, HPRC already created a custom Cluster Profile. | + | For your convenience, HPRC already created a custom Cluster Profile. Using the profile, you can define how many workers you want, how you want to distribute the workers over the nodes, how many computational threads to use, how long to run, etc. Before you can use this profile you need to import it first. This can be done using by calling the following Matlab function. |

<pre> | <pre> | ||

− | >> | + | >>tamuprofile.importProfile() |

</pre> | </pre> | ||

− | |||

− | '''NOTE:''' | + | This function imports the cluster profile and it creates a directory structure in your scratch directory where Matlab will store meta-information during parallel processing. The default location is ''/scratch/$USER/MatlabJobs/TAMU<VERSION'', where <VERSION> represents the Matlab version. For example, for Matlab R2019b it will be ''/scratch/$USER/MatlabJobs/TAMU2019b'' |

+ | |||

+ | <!-- | ||

+ | '''NOTE:''' function '''tamuprofile.clusterprofile''' is a wrapper around the Matlab function | ||

[https://www.mathworks.com/help/distcomp/parallel.importprofile.html parallel.importprofile] | [https://www.mathworks.com/help/distcomp/parallel.importprofile.html parallel.importprofile] | ||

+ | --> | ||

− | + | '''NOTE:''' For Matlab versions before R2019b, use the following function | |

+ | <pre> | ||

+ | >>tamu_import_TAMU_clusterprofile() | ||

+ | </pre> | ||

− | + | In this case, Matlab will store meta-information in directory ''/scratch/$USER/MatlabJobs/TAMU'' | |

− | === | + | === Getting Cluster Profile Object === |

To return a fully completed cluster object (i.e. with attached resource information) HPRC created the '''tamu_set_profile_properties''' convenience function. There are two steps to follow: | To return a fully completed cluster object (i.e. with attached resource information) HPRC created the '''tamu_set_profile_properties''' convenience function. There are two steps to follow: | ||

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NOTE: all variables declared inside the matlabpool block will be destroyed once the block is finished. | NOTE: all variables declared inside the matlabpool block will be destroyed once the block is finished. | ||

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== Using GPU == | == Using GPU == | ||

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</pre> | </pre> | ||

+ | = Running (parallel) Matlab Scripts on HPRC compute nodes = | ||

+ | |||

+ | '''NOTE:''' Due to the new 2-factor authentication mechanism, this method does not work at the moment. We will update this wiki page when this is fixed. | ||

+ | |||

+ | |||

+ | For detailed information how to submit Matlab codes remotely, click [[SW:Matlab_app | here]] | ||

+ | |||

+ | == Submit Matlab Scripts Remotely or Locally From the Matlab Command Line == | ||

+ | |||

+ | '''NOTE:''' Due to the new 2-factor authentication mechanism, remote submission method does not work at the moment. We will update this wiki page when this is fixed. | ||

+ | |||

+ | Instead of using the App you can also call Matlab functions (developed by HPRC) directly to run your Matlab script on HPRC compute nodes. There are two steps involved in submitting your Matlab script: | ||

+ | |||

+ | * Define the properties for your Matlab script (e.g. #workers). HPRC created a class named '''TAMUClusterProperties''' for this | ||

+ | * Submit the Matlab script to run on HPRC compute nodes. HPRC created a function named '''tamu_run_batch''' for this. | ||

+ | |||

+ | For example, suppose you have a script named ''mysimulation.m'', you want to use 4 workers and estimate it will need less than 7 hours of computing time: | ||

+ | |||

+ | <pre> | ||

+ | >> tp=TAMUClusterProperties(); | ||

+ | >> tp.workers(4); | ||

+ | >> tp.walltime('07:00'); | ||

+ | >> myjob=tamu_run_batch(tp,'mysimulation.m'); | ||

+ | </pre> | ||

+ | |||

+ | '''NOTE:''' '''TAMUClusterProperties''' will use all default values for any of the properties that have not been set explicitly. | ||

+ | |||

+ | In case you want to submit your Matlab script remotely from your local Matlab GUI, you also have to specify the HPRC cluster name you want to run on and your username. | ||

+ | For example, suppose you have a script that uses Matlab GPU functions and you want to run it on terra: | ||

+ | <pre> | ||

+ | >> tp=TAMUClusterProperties(); | ||

+ | >> tp.gpu(1); | ||

+ | >> tp.hostname('terra.tamu.edu'); | ||

+ | >> tp.user('<USERNAME>'); | ||

+ | >> myjob=tamu_run_batch(tp,'mysimulation.m'); | ||

+ | </pre> | ||

+ | |||

+ | To see all available methods on objects of type '''TAMUClusterProperties''' you can use the Matlab '''help''' or '''doc''' functions: E.g. | ||

+ | |||

+ | >> help TAMUClusterProperties/doc | ||

+ | |||

+ | To see help page for '''tamu_run_batch''', use: | ||

+ | |||

+ | <pre> | ||

+ | >> help tamu_run_batch | ||

+ | tamu_run_batch runs Matlab script on worker(s). | ||

+ | |||

+ | j = TAMU_RUN_BATH(tp,'script') runs the script | ||

+ | script.m on the worker(s) using the TAMUClusterProperties object tp. | ||

+ | Returns j, a handle to the job object that runs the script. | ||

+ | |||

+ | |||

+ | </pre> | ||

+ | |||

+ | |||

+ | '''tamu_run_batch''' returns a variable of type '''Job'''. See the section ''"Retrieve results and information from Submitted Job"'' how to get results and information from the submitted job. | ||

[[Category:Software]] | [[Category:Software]] |

## Revision as of 23:58, 24 February 2020

## Contents

# Running Matlab interactively

Matlab is accessible to all HPRC users within the terms of our license agreement. If you have particular concerns about whether specific usage falls within the TAMU HPRC license, please send an email to HPRC Helpdesk. You can start a Matlab session either directly on a login node or through our portal

## Running Matlab on a login node

To be able to use Matlab, the Matlab module needs to be loaded first. This can be done using the following command:

[ netID@cluster ~]$module load Matlab/R2019a

This will setup the environment for Matlab version R2019a. To see a list of all installed versions, use the following command:

[ netID@cluster ~]$module spider Matlab

**Note:** New versions of software become available periodically. Version numbers may change.

To start matlab, use the following command:

[ netID@cluster ~]$matlab

Depending on your X server settings, this will start either the Matlab GUI or the Matlab command-line interface. To start Matlab in command-line interface mode, use the following command with the appropriate flags:

[ netID@cluster ~]$matlab -nosplash -nodisplay

By default, Matlab will execute a large number of built-in operators and functions multi-threaded and will use as many threads (i.e. cores) as are available on the node. Since login nodes are shared among all users, HPRC restricts the number of computational threads to 8. This should suffice for most cases. Speedup achieved through multi-threading depends on many factors and in certain cases. To explicitly change the number of computational threads, use the following Matlab command:

>>feature('NumThreads',4);

This will set the number of computational threads to 4.

To completely disable multi-threading, use the -singleCompThread option when starting Matlab:

[ netID@cluster ~]$matlab -singleCompThread

## Usage on the Login Nodes

Please limit interactive processing to short, non-intensive usage. Use non-interactive batch jobs for resource-intensive and/or multiple-core processing. Users are requested to be **responsible** and **courteous to other users** when using software on the login nodes.

The most important processing limits here are:

**ONE HOUR**of**PROCESSING TIME**per login session.**EIGHT CORES**per login session on the same node or (cumulatively) across all login nodes.

**Anyone found violating the processing limits will have their processes killed without warning. Repeated violation of these limits will result in account suspension.**

**Note:** Your login session will disconnect after **one hour** of inactivity.

## Running Matlab through the hprc portal

HPRC provides a portal through which users can start an interactive Matlab GUI session inside a web browser. For more information how to use the portal see our HPRC OnDemand Portal section

# Running Matlab through the batch system

HPRC developed a tool named **matlabsubmit** to run Matlab simulations on the HPRC compute nodes without the need to create your own batch script and without the need to start a Matlab session. **matlabsubmit** will automatically generate a batch script with the correct requirements. In addition, **matlabsubmit** will also generate boilerplate Matlab code to set up the environment (e.g. the number of computational threads) and, if needed, will start a *parpool* using the correct Cluster Profile (*local* if all workers fit on a single node and a cluster profile when workers are distribued over multiple nodes)

To submit your Matlab script, use the following command:

[ netID@cluster ~]$ matlabsubmit myscript.m

In the above example, **matlabsubmit** will use all default values for runtime, memory requirements, the number of workers, etc. To specify resources, you can use the command-line options of **matlabsubmmit**. For example:

[ netID@cluster ~]$ matlabsubmit -t 07:00 -s 4 myscript.m

will set the wall-time to 7 hours and makes sure Matlab will use 4 computational threads for its run ( **matlabsubmit** will also request 4 cores).

To see all options for **matlabsubmit** use the **-h** flag

[ netID@cluster ~]$ matlabsubmit -h Usage: /sw/hprc/sw/Matlab/bin/matlabsubmit [options] SCRIPTNAME This tool automates the process of running Matlab codes on the compute nodes. OPTIONS: -h Shows this message -m set the amount of requested memory in MEGA bytes(e.g. -m 20000) -t sets the walltime; form hh:mm (e.g. -t 03:27) -w sets the number of ADDITIONAL workers -g indicates script needs GPU (no value needed) -b sets the billing account to use -s set number of threads for multithreading (default: 8 ( 1 when -w > 0) -p set number of workers per node -f run function call instead of script -x add explicit batch scheduler option DEFAULT VALUES: memory : 2000 per core time : 02:00 workers : 0 gpu : no gpu threading: on, 8 threads

**NOTE** when using the **-f** flag to execute a function instead of a script, the function call must be enclosed with double quotes when it contains parentheses. For example: **matlabsubmit -f "myfunc(21)"**

When executing, **matlabsubmit** will do the following:

- generate boilerplate Matlab code to setup the Matlab environment (e.g. #threads, #workers)
- generate a batch script with all resources set correctly and the command to run Matlab
- submit the generated batch script to the batch scheduler and return control back to the user

For detailed examples on using matlabsubmit see the examples section.

# Using Matlab Parallel Toolbox on HPRC Resources

*THIS SECTION IS UNDER CONSTRUCTION*

In this section, we will focus on utilizing the Parallel toolbox on HPRC cluster. For a general intro to the Parallel Toolbox see the parallel toolbox section on the Mathworks website. Here we will discuss how to use Matlab Cluster profiles to distribute workers over multiple nodes.

The central concept in most of the discussion below is the **TAMUClusterProperties** object which we will discuss in more detail in the next section

## Cluster Profiles

Matlab Cluster Profiles provide an interface to define properties of how and where to start Matlab workers. There are two kinds of profiles.

- local profiles: parallel processing is limited to the same node the Matlab client is running.
- cluster profiles: parallel processing can span multiple nodes; profile interacts with a batch scheduler (e.g. SLURM on terra).

**NOTE:** we will not discuss *local profiles* any further here. Processing using a local profile is exactly the same as processing using cluster profiles.

### Importing Cluster Profile

For your convenience, HPRC already created a custom Cluster Profile. Using the profile, you can define how many workers you want, how you want to distribute the workers over the nodes, how many computational threads to use, how long to run, etc. Before you can use this profile you need to import it first. This can be done using by calling the following Matlab function.

>>tamuprofile.importProfile()

This function imports the cluster profile and it creates a directory structure in your scratch directory where Matlab will store meta-information during parallel processing. The default location is */scratch/$USER/MatlabJobs/TAMU<VERSION*, where <VERSION> represents the Matlab version. For example, for Matlab R2019b it will be */scratch/$USER/MatlabJobs/TAMU2019b*

**NOTE:** For Matlab versions before R2019b, use the following function

>>tamu_import_TAMU_clusterprofile()

In this case, Matlab will store meta-information in directory */scratch/$USER/MatlabJobs/TAMU*

### Getting Cluster Profile Object

To return a fully completed cluster object (i.e. with attached resource information) HPRC created the **tamu_set_profile_properties** convenience function. There are two steps to follow:

- define the properties using the TAMUClusterProperties class
- call
**tamu_set_profile_properties**using the created TAMUClusterProperties object.

For example, suppose you have Matlab code and want to use 4 workers for parallel processing.

>> tp=TAMUClusterProperties; >> tp.workers(4); >> clusterObject=tamu_set_profile_properties(tp);

Variable *clusterObject* is a fully populated cluster object that can be used for parallel processing.

**NOTE:** convenience function **tamu_set_profile_properties** is a wrapper around Matlab function
parcluster. It also uses HPRC convenience function **tamu_import_TAMU_clusterprofile** to check if the **TAMU** profile has been imported already.

## Starting a Parallel Pool

To start a parallel pool you can use the HPRC convenience function **tamu_parpool**. It takes as argument a **TAMUClustrerProperties** object that specifies all the resources that are requested.

The **parpool** functions enables the full functionality of the parallel language features (parfor and spmd, will be discussed below). A parpool creates a special job on a pool of workers, and connects the pool to the MATLAB client. For example:

mypool = parpool 4 : delete(mypool)

This code starts a worker pool using the default cluster profile, with 4 additional workers.

NOTE: only instructions within parfor and spmd blocks are executed on the workers. All other instructions are executed on the client.

NOTE: all variables declared inside the matlabpool block will be destroyed once the block is finished.

## Using GPU

Normally all variables reside in the client workspace and matlab operations are executed on the client machine. However, Matlab also provides options to utilize available GPUs to run code faster. Running code on the gpu is actually very straightforward. Matlab provides GPU versions for many build-in operations. These operations are executed on the GPU automatically when the variables involved reside on the GPU. The results of these operations will also reside on the GPU. To see what functions can be run on the GPU type:

methods('gpuArray') This will show a list of all available functions that can be run on the GPU, as well as a list of available static functions to create data on the GPU directly (will be discussed later).

NOTE: There is significant overhead of executing code on the gpu because of memory transfers.

Another useful function is: gpuDevice This functions shows all the properties of the GPU. When this function is called from the client (or a node without a GPU) it will just print an error message.

To copy variables from the client workspace to the GPU, you can use the gpuArray command. For example:

carr = ones(1000); garr = gpuArray(carr);

will copy variable carr to the GPU wit name garr.

In the example above the 1000x1000 matrix needs to be copied from the client workspace to the GPU. There is a significant overhead involved in doing this.

To create the variables directly on the GPU, Matlab provides a number of convenience functions. For example:

garr=gpuArray.ones(1000)

This will create a 1000x1000 matrix directly on the GPU consisting of all ones.

To copy data back to the client workspace Matlab provides the gather operation.

carr2 = gather(garr)

This will copy the array garr on the GPU back to variable carr2 in the client workspace.

The next example performs a matrix multiplication on the client, a matrix multiplication on the GPU, and prints out elapsed times for both. The actual cpu-gpu matrix multiplication code can be written as:

ag = gpuArray.rand(1000); bg = ag*ag; c = gather(bg);

# Running (parallel) Matlab Scripts on HPRC compute nodes

**NOTE:** Due to the new 2-factor authentication mechanism, this method does not work at the moment. We will update this wiki page when this is fixed.

For detailed information how to submit Matlab codes remotely, click here

## Submit Matlab Scripts Remotely or Locally From the Matlab Command Line

**NOTE:** Due to the new 2-factor authentication mechanism, remote submission method does not work at the moment. We will update this wiki page when this is fixed.

Instead of using the App you can also call Matlab functions (developed by HPRC) directly to run your Matlab script on HPRC compute nodes. There are two steps involved in submitting your Matlab script:

- Define the properties for your Matlab script (e.g. #workers). HPRC created a class named
**TAMUClusterProperties**for this - Submit the Matlab script to run on HPRC compute nodes. HPRC created a function named
**tamu_run_batch**for this.

For example, suppose you have a script named *mysimulation.m*, you want to use 4 workers and estimate it will need less than 7 hours of computing time:

>> tp=TAMUClusterProperties(); >> tp.workers(4); >> tp.walltime('07:00'); >> myjob=tamu_run_batch(tp,'mysimulation.m');

**NOTE:** **TAMUClusterProperties** will use all default values for any of the properties that have not been set explicitly.

In case you want to submit your Matlab script remotely from your local Matlab GUI, you also have to specify the HPRC cluster name you want to run on and your username. For example, suppose you have a script that uses Matlab GPU functions and you want to run it on terra:

>> tp=TAMUClusterProperties(); >> tp.gpu(1); >> tp.hostname('terra.tamu.edu'); >> tp.user('<USERNAME>'); >> myjob=tamu_run_batch(tp,'mysimulation.m');

To see all available methods on objects of type **TAMUClusterProperties** you can use the Matlab **help** or **doc** functions: E.g.

>> help TAMUClusterProperties/doc

To see help page for **tamu_run_batch**, use:

>> help tamu_run_batch tamu_run_batch runs Matlab script on worker(s). j = TAMU_RUN_BATH(tp,'script') runs the script script.m on the worker(s) using the TAMUClusterProperties object tp. Returns j, a handle to the job object that runs the script.

**tamu_run_batch** returns a variable of type **Job**. See the section *"Retrieve results and information from Submitted Job"* how to get results and information from the submitted job.