SLURM (Simple Linux Utility for Resource Management) is a job scheduler and resource management system commonly used in high-performance computing (HPC) environments. It allows users to submit and manage jobs on clusters or supercomputers. This guide provides a brief overview of SLURM and covers basic usage examples for sbatch and srun commands, along with common options for requesting resources such as memory, CPUs, and GPUs.

For more information on Slurm please consult the Slurm documentation

SLURM is a flexible and efficient framework for job submission and scheduling in HPC environments, enabling users to run parallel and distributed applications across multiple compute nodes in a coordinated manner. It serves as a job scheduler that queues, allocates, and launches both interactive and batch jobs.

Slurm provides two different types of jobs:

• Interactive Jobs: Access a compute node like you would via ssh
• Batch Jobs: Launch a job in the background

All jobs in the Slurm system are scheduled in a priority queue, meaning that heavy users may need to wait longer for their jobs to be launched. To manage jobs in the system, users can take advantage of several useful Slurm commands, including:

• • srun: Run a real time job, useful for launching interactive jobs
  • sbatch: Queue a batch job to be launched as available
  • scancel: Kill a running slurm job
  • sacct: View the history of your recently run jobs; Did they complete? fail?
  • sinfo: View the resources, nodes, gres on the slurm cluster
  • squeue: View the state of currently running jobs
  • sstat: Resource utilization by a particular job

These commands provide users with powerful tools to manage their jobs on the BABEL cluster and ensure that their work is completed efficiently and effectively. We will discuss these commands in more detail later.

To submit a batch job using sbatch, create a shell script (e.g., job_script.sh) that contains the necessary commands and configurations for your job. Then, use the following command to submit the job:

 $ sbatch job_script.sh

SLURM will assign a unique job ID to your job and enqueue it for execution. You can monitor the status of your job using various SLURM commands like squeue or sacct.

For interactive or non-batch jobs, you can use the srun command. It allows you to execute commands directly on compute nodes. Here’s an example:

 $ srun -n 4 ./my_program

SLURM will assign a unique job ID to your job and enqueue it for execution. You can monitor the status of your job using various SLURM commands like squeue or sacct.

The -n option specifies the number of tasks you want to run. In the example above, we are running the my_program executable on four tasks.

SLURM provides options to request specific resources for your jobs, such as memory, CPUs, and GPUs.

To request a specific amount of memory for your job, use the --mem option with the desired value. For example, to request 8 GB of memory, use:

 $ #SBATCH --mem=8G

SLURM allows you to request a specific number of CPUs for your job. Use the --cpus-per-task option to specify the number of CPUs needed. For example, to request 4 CPUs per task, use:

 $ #SBATCH --cpus-per-task=4

If your job requires GPU resources, you can request them using the --gres option. For example, to request 2 GPUs, use:

 $ #SBATCH --gres=gpu:2

You can also specify the specific GPU type using the --gres option. For example, to request 2 NVIDIA V100 GPUs, use:

 $ #SBATCH --gres=gpu:v100:2

To submit a batch job using SBATCH, you need to create a job script file. Here's an example of a simple SBATCH job script:

#!/bin/bash
#SBATCH --job-name=myjob
#SBATCH --output=myjob.out
#SBATCH --error=myjob.err
#SBATCH --partition=compute
#SBATCH --nodes=1
#SBATCH --ntasks-per-node=1
#SBATCH --cpus-per-task=1
#SBATCH --time=1:00:00

# Your job commands go here
echo "Hello, World!"

In this example, the job script starts with specifying the job name, output file, error file, partition, number of nodes, tasks per node, CPUs per task, and maximum runtime. You can modify these parameters based on your job requirements. The actual commands of your job follow after the SBATCH directives.

To submit the job, use the following command:

sbatch myjob.sh

This command submits the job script file "myjob.sh" to the Slurm scheduler.

If you prefer running jobs directly with SRUN without a batch job script, you can use the following command:

 srun --job-name=myjob --partition=compute --nodes=1 --ntasks-per-node=1 --cpus-per-task=1 --time=1:00:00 echo "Hello, World!"

In this example, the job name, partition, number of nodes, tasks per node, CPUs per task, and maximum runtime are specified as command-line options. The "echo" command is the actual job command that will be executed.

Feel free to modify the parameters and the job command according to your specific needs.

Here are some additional SLURM directives commonly which may make SLURM life more pleasant:

• --output=/home/<username>/path/output_report-%j.out: Specifies the path and filename pattern for the job’s standard output and error logs. %j is a placeholder that will be replaced with the job ID.
• --mail-type=END: Specifies the email notification types for job events. In this case, it is set to receive an email when the job ends.
• --mail-user=<username>@andrew.cmu.edu: Specifies the email address where the job-related emails will be sent.

Here are other useful arguments for srun/sbatch:

• -w, --nodelist: Nodes to run jobs (-x, --exclude is the opposite)
• -t, --time: Time limit (D-HH:MM:SS, 0=infinity) [explained mode below in interactive jobs]
• -o, --output: Output log files. It’s a good idea to flush output frequently to get timely output.

To get a list of available partitions in the cluster, you can use the following command:

sinfo

This command displays information about the partitions, including their names, node counts, and node states. It provides an overview of the available partitions that you can specify in your job submission.

To get a list of all nodes in the cluster, you can use the following command:

scontrol show nodes

This command provides detailed information about each node, including their names, states, CPU and memory information, and any associated partitions.

To get specific information about a particular node, you can use the following command, replacing "node-name" with the actual name of the node:

scontrol show node node-name

This command displays detailed information about the specified node, including its state, CPU and memory information, and any associated partitions.

To get detailed information about a specific partition, you can use the following command, replacing "partition-name" with the actual name of the partition:

scontrol show partition partition-name

This command provides information about the specified partition, including its name, node range, state, and other properties.

By using these commands, you can gather essential information about the partitions and nodes in the Slurm cluster, which can be useful for job submission and understanding the cluster's current status.

For more information on Slurm please consult the Slurm documentation, which provides detailed tutorials and resources for working with Slurm in an HPC environment.

SLURM Job Management

Track and modify your Slurm jobs.

Slurm Job Arrays

Efficiently execute multiple similar jobs with a single job script and varying parameters, simplifying job management and enabling parallel processing

Slurm Submission from Python

Submit and manage SLURM jobs directly from Python scripts.

Happy computing with SLURM!