Approvals: 0/1The Previously approved version (2024/07/05 07:19) is available.
Matlab VSC
Quickstart: Run Matlab Task from command line
Generate a matlab package called test.m
,
add(2,3.4)
and a function add.m
,
function z=add(x,y) z=x+y
Run this from the command line:
module purge module load Matlab/(...Version...) matlab -nodisplay run test.m
More info on MATLAB Programs and batch jobs
For more information in MATLAB programs and batch jobs read here TUCOLAB
Getting Started with Serial and Parallel MATLAB (GUI)
This page provides the steps to configure MATLAB to submit jobs to a cluster, retrieve results, and debug errors.
The guide can be followed either on a GUI node or via JupyterHub.
Configuration
After logging into the cluster, start MATLAB. On the Home tab, click Parallel > Discover Clusters… to discover the profile. The name of the profile is VSC.
Jobs will now default to the cluster rather than submit to the local machine.
Configuring Jobs
Prior to submitting the job, various parameters can be assigned, such as queue, e-mail, walltime, etc. The following is a partial list of parameters. See AdditionalProperties for the complete list. _[Must either specify MemPerCPU for a partial node OR NumNodes for two more nodes.]_
>> % Get a handle to the cluster >> c = parcluster; [REQUIRED] >> % Specify memory per core (default: '3500mb') for a partial node >> c.AdditionalProperties.MemPerCPU = '6gb'; >> % Specify number of nodes for two or more nodes >> c.AdditionalProperties.NumNodes = 3; [OPTIONAL] >> % Specify the account >> c.AdditionalProperties.AccountName = 'account-name'; >> % Specify a constraint >> c.AdditionalProperties.Constraint = 'feature-name'; >> % Request email notification of job status >> c.AdditionalProperties.EmailAddress = 'user-id@tuwien.ac.at'; >> % Specify number of GPUs (default: 0) >> c.AdditionalProperties.GPUsPerNode = 1; >> % Specify the partition >> c.AdditionalProperties.Partition = 'partition-name'; >> % Specify cores per node >> c.AdditionalProperties.ProcsPerNode = 4; >> % Set node exclusivity (default: false) >> c.AdditionalProperties.RequireExclusiveNode = true; >> % Use reservation >> c.AdditionalProperties.Reservation = 'reservation-name'; >> % Specify the wall time (e.g., 1 day, 5 hours, 30 minutes) >> c.AdditionalProperties.WallTime = '1-05:30';
Save changes after modifying AdditionalProperties for the above changes to persist between MATLAB sessions.
>> c.saveProfile
To see the values of the current configuration options, display AdditionalProperties.
>> % To view current properties >> c.AdditionalProperties
Unset a value when no longer needed.
>> % Turn off email notifications >> c.AdditionalProperties.EmailAddress = ''; >> c.saveProfile
Interactive Jobs
To run an interactive pool job on the cluster, continue to use parpool as before.
>> % Get a handle to the cluster >> c = parcluster; >> % Open a pool of 64 workers on the cluster >> pool = c.parpool(64);
Rather than running local on the local machine, the pool can now run across multiple nodes on the cluster.
>> % Run a parfor over 1000 iterations >> parfor idx = 1:1000 a(idx) = rand; end
Delete the pool when it’s no longer needed.
>> % Delete the pool >> pool.delete
Independent Batch Job
Use the batch command to submit asynchronous jobs to the cluster. The batch command will return a job object which is used to access the output of the submitted job. See the MATLAB documentation for more help on batch.
>> % Get a handle to the cluster >> c = parcluster; >> % Submit job to query where MATLAB is running on the cluster >> job = c.batch(@pwd, 1, {}); >> % Query job for state >> job.State >> % If state is finished, fetch the results >> job.fetchOutputs{:} >> % Delete the job after results are no longer needed >> job.delete
To retrieve a list of running or completed jobs, call parcluster to return the cluster object. The cluster object stores an array of jobs that are queued to run, are running, have run, or have failed. Retrieve and view the list of jobs as shown below.
>> c = parcluster; >> jobs = c.Jobs >> >> % Get a handle to the second job in the list >> job2 = c.Jobs(2);
Once the job has been selected, fetch the results as previously done.
fetchOutputs is used to retrieve function output arguments; if calling batch with a script, use load instead. Data that has been written to files on the cluster needs be retrieved directly from the file system (e.g., via sftp).
>> % Fetch all results from the second job in the list >> job2.fetchOutputs{:}
Parallel Batch Job
batch can also submit parallel workflows. Let’s use the following example for a parallel job, which is saved as parallel_example.m.
function [sim_t, A] = parallel_example(iter) if nargin==0 iter = 8; end disp('Start sim') t0 = tic; parfor idx = 1:iter A(idx) = idx; pause(2) idx end sim_t = toc(t0); disp('Sim completed') save RESULTS A end
This time when using the batch command, also specify a MATLAB Pool argument.
>> % Get a handle to the cluster >> c = parcluster; >> % Submit a batch pool job using 4 workers for 16 simulations >> job = c.batch(@parallel_example, 1, {16}, 'Pool',4); >> % View current job status >> job.State >> % Fetch the results after a finished state is retrieved >> job.fetchOutputs{:} ans = 8.8872
The job ran in 8.89 seconds using four workers. Note that these jobs will always request N+1 CPU cores, since one worker is required to manage the batch job and pool of workers. For example, a job that needs eight workers will request nine CPU cores.
Run the same simulation but increase the Pool size. This time, to retrieve the results later, keep track of the job ID.
NOTE: For some applications, there will be a diminishing return when allocating too many workers, as the overhead may exceed computation time.
>> % Get a handle to the cluster >> c = parcluster; >> % Submit a batch pool job using 8 workers for 16 simulations >> job = c.batch(@parallel_example, 1, {16}, 'Pool',8); >> % Get the job ID >> id = job.ID id = 4 >> % Clear job from workspace (as though MATLAB exited) >> clear job
With a handle to the cluster, the findJob method searches for the job with the specified job ID.
>> % Get a handle to the cluster >> c = parcluster; >> % Find the old job >> job = c.findJob('ID', 4); >> % Retrieve the state of the job >> job.State ans = finished >> % Fetch the results >> job.fetchOutputs{:}; ans = 4.7270
The job now runs in 4.73 seconds using eight workers. Run code with different number of workers to determine the ideal number to use.
Alternatively, to retrieve job results via a graphical user interface, use the Job Monitor (Parallel > Monitor Jobs).
Helper Functions
Function | Description |
clusterFeatures | List of cluster features/constraints |
clusterGpuCards | List of cluster GPU cards |
clusterPartitionNames | List of cluster partitions |
willRun | Explain why job is queued |
Debugging
If a serial job produces an error, call the getDebugLog method to view the error log file. When submitting an independent job, specify the task.
>> c.getDebugLog(job.Tasks)
For Pool jobs, only specify the job object.
>> c.getDebugLog(job)
When troubleshooting a job, the cluster admin may request the scheduler ID of the job. This can be derived by calling getTaskSchedulerIDs
>> job.getTaskSchedulerIDs() ans = 25539
External Resources
To learn more about the MATLAB Parallel Computing Toolbox, check out these resources: