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A large number of tasks which differ only in some parameter can be conveniently submitted as a ''job array,'' also known as a ''task array'' or an ''array job''. The individual tasks in the array are distinguished by an environment variable, <code>$SLURM_ARRAY_TASK_ID</code>, which Slurm sets to different values according to the range you supply with the --array parameter.
<!--T:1-->
<i>Parent page: [[Running jobs]]</i>
 
<!--T:2-->
If your work consists of a large number of tasks which differ only in some parameter, you can conveniently submit many tasks at once using a <i>job array,</i> also known as a <i>task array</i> or an <i>array job</i>. The individual tasks in the array are distinguished by an environment variable, <code>$SLURM_ARRAY_TASK_ID</code>, which Slurm sets to a different value for each task. You set the range of values with the <code>--array</code> parameter.
 
See [https://slurm.schedmd.com/job_array.html Job Array Support] for more details.
   
   
  sbatch --array=0-7 ...      # $SLURM_ARRAY_TASK_ID will take values from 0 to 7 inclusive
== Examples of the --array parameter == <!--T:3-->
  sbatch --array=1,3,5,7 ...  # $SLURM_ARRAY_TASK_ID will take the listed values
 
  sbatch --array=1-7:2 ...    # Step-size of 2, does the same as the previous example
  <!--T:4-->
  sbatch --array=1-100%10 ... # Allow no more than 10 of the jobs to run simultaneously
sbatch --array=0-7       # $SLURM_ARRAY_TASK_ID takes values from 0 to 7 inclusive
  sbatch --array=1,3,5,7   # $SLURM_ARRAY_TASK_ID takes the listed values
  sbatch --array=1-7:2     # Step size of 2, same as the previous example
  sbatch --array=1-100%10 # Allows no more than 10 of the jobs to run simultaneously
 
== A simple example == <!--T:5-->


See [https://slurm.schedmd.com/job_array.html Job Array Support] at SchedMD.com for detailed documentation.
<!--T:6-->
{{File
|name=simple_array.sh
|language=bash
|contents=
#!/bin/bash
#SBATCH --array=1-10
#SBATCH --time=3:00:00
program_x <input.$SLURM_ARRAY_TASK_ID
program_y $SLURM_ARRAY_TASK_ID some_arg another_arg
}}


== A simple example ==
<!--T:7-->
This job will be scheduled as ten independent tasks. Each task has a separate time limit of 3 hours, and each may start at a different time on a different host.


$ sbatch --array=1-10 runme
<!--T:8-->
Submitted batch job 54321
The script references <code>$SLURM_ARRAY_TASK_ID</code> to select an input file (named <i>program_x</i> in our example), or to set a command-line argument for the application (as in <i>program_y</i>).


Job 54321 will be scheduled as 10 independent tasks which may start at different times on different hosts. The individual tasks are differentiated by the value of an environment variable $SLURM_ARRAY_TASK_ID. The script can reference $SLURM_ARRAY_TASK_ID to select an input file, for example, or to set a command-line argument for the application code:
<!--T:9-->
Using a job array instead of a large number of separate serial jobs has advantages for you and other users. A waiting job array only produces one line of output in squeue, making it easier for you to read its output. The scheduler does not have to analyze job requirements for each task in the array separately, so it can run more efficiently too.


my_app <input.$SLURM_ARRAY_TASK_ID
<!--T:10-->
my_app $SLURM_ARRAY_TASK_ID some_arg another_arg
Note that, other than the initial job-submission step with <code>sbatch</code>, the load on the scheduler is the same for an array job as for the equivalent number of non-array jobs. The cost of dispatching each array task is the same as dispatching a non-array job. You should not use a job array to submit tasks with very short run times, e.g. much less than an hour. Tasks with run times of only a few minutes should be grouped into longer jobs using [[META: A package for job farming|META]], [[GLOST]], [[GNU Parallel]], or a shell loop inside a job.


Using a job array instead of a large number of separate serial jobs has advantages for you and other users. A waiting job array only produces one line of output in squeue, making it easier for you to read its output. The scheduler does not have to analyze job requirements for each array task separately, so it can run more efficiently too.
== Example: Multiple directories == <!--T:11-->


== Running the same script in multiple directories ==
<!--T:12-->
This example assumes that you have multiple directories, each with the same structure and you want to run the same script in each directory. If the directories can be named with sequential numbers then the example above can be easily adapted. If they are not so systematic, then create a file with the names of the directories, like so:
Suppose you have multiple directories, each with the same structure, and you want to run the same script in each directory. If the directories can be named with sequential numbers then the example above can be easily adapted. If the names are not so systematic, then create a file with the names of the directories, like so:


  $ cat case_list
  <!--T:13-->
$ cat case_list
  pacific2016
  pacific2016
  pacific2017
  pacific2017
Line 31: Line 57:
  atlantic2017
  atlantic2017


<!--T:14-->
There are several ways to select a given line from a file; this example uses <code>sed</code> to do so:
<!--T:15-->
{{File
{{File
|name=directories_array.sh
|name=directories_array.sh
Line 36: Line 66:
|contents=
|contents=
#!/bin/bash
#!/bin/bash
#SBATCH --time=0:15:00
#SBATCH --time=3:00:00
#SBATCH --array=1-4
#SBATCH --array=1-4


echo "Starting task $SLURM_ARRAY_TASK_ID at $(date)"
<!--T:16-->
echo "Starting task $SLURM_ARRAY_TASK_ID"
DIR=$(sed -n "${SLURM_ARRAY_TASK_ID}p" case_list)
DIR=$(sed -n "${SLURM_ARRAY_TASK_ID}p" case_list)
cd $DIR
cd $DIR


<!--T:17-->
# Place the code to execute here
# Place the code to execute here
pwd
pwd
Line 48: Line 80:
}}
}}


The file <code>case_list</code> should not be changed until all the tasks in the array have run, since it will be read each time a new task starts.
<!--T:18-->
Cautions:
* Take care that the number of tasks you request matches the number of entries in the file.
* The file <code>case_list</code> should not be changed until all the tasks in the array have run, since it will be read each time a new task starts.
 
 
== Example: Multiple parameters == <!--T:19-->
 
<!--T:20-->
Suppose you have a Python script doing certain calculations with some parameters defined in a Python list or a NumPy array such as
{{File
|name=my_script.py
|language=python
|contents=
import time
import numpy as np
 
<!--T:21-->
def calculation(x, beta):
    time.sleep(2) #simulate a long run
    return beta * np.linalg.norm(x**2)
 
<!--T:22-->
if __name__ == "__main__":
    x = np.random.rand(100)
    betas = np.linspace(10,36.5,100) #subdivise the interval [10,36.5] with 100 values
    for i in range(len(betas)): #iterate through the beta parameter
        res = calculation(x,betas[i])
        print(res) #show the results on screen
 
<!--T:23-->
# Run with: python my_script.py
}}
 
<!--T:24-->
The above task can be processed in a job array so that each value of the beta parameter can be treated in parallel.
The idea is to pass the <code>$SLURM_ARRAY_TASK_ID</code> to the Python script and get the beta parameter based on its value.
The Python script becomes
{{File
|name=my_script_parallel.py
|language=python
|contents=
import time
import numpy as np
import sys
 
<!--T:25-->
def calculation(x, beta):
    time.sleep(2) #simulate a long run
    return beta * np.linalg.norm(x**2)
 
<!--T:26-->
if __name__ == "__main__":
    x = np.random.rand(100)
    betas = np.linspace(10,36.5,100) #subdivise the interval [10,36.5] with 100 values
   
    i = int(sys.argv[1]) #get the value of the $SLURM_ARRAY_TASK_ID
    res = calculation(x,betas[i])
    print(res) #show the results on screen
 
<!--T:27-->
# Run with: python my_script_parallel.py $SLURM_ARRAY_TASK_ID
}}
The job submission script is (note the array parameters goes from 0 to 99 like the indexes of the NumPy array)
{{File
|name=data_parallel_python.sh
|language=bash
|contents=
#!/bin/bash
#SBATCH --array=0-99
#SBATCH --time=1:00:00
module load scipy-stack
python my_script_parallel.py $SLURM_ARRAY_TASK_ID
}}
 
</translate>

Latest revision as of 20:26, 9 February 2024

Other languages:

Parent page: Running jobs

If your work consists of a large number of tasks which differ only in some parameter, you can conveniently submit many tasks at once using a job array, also known as a task array or an array job. The individual tasks in the array are distinguished by an environment variable, $SLURM_ARRAY_TASK_ID, which Slurm sets to a different value for each task. You set the range of values with the --array parameter.

See Job Array Support for more details.

Examples of the --array parameter

sbatch --array=0-7       # $SLURM_ARRAY_TASK_ID takes values from 0 to 7 inclusive
sbatch --array=1,3,5,7   # $SLURM_ARRAY_TASK_ID takes the listed values
sbatch --array=1-7:2     # Step size of 2, same as the previous example
sbatch --array=1-100%10  # Allows no more than 10 of the jobs to run simultaneously

A simple example

File : simple_array.sh

#!/bin/bash
#SBATCH --array=1-10
#SBATCH --time=3:00:00
program_x <input.$SLURM_ARRAY_TASK_ID
program_y $SLURM_ARRAY_TASK_ID some_arg another_arg


This job will be scheduled as ten independent tasks. Each task has a separate time limit of 3 hours, and each may start at a different time on a different host.

The script references $SLURM_ARRAY_TASK_ID to select an input file (named program_x in our example), or to set a command-line argument for the application (as in program_y).

Using a job array instead of a large number of separate serial jobs has advantages for you and other users. A waiting job array only produces one line of output in squeue, making it easier for you to read its output. The scheduler does not have to analyze job requirements for each task in the array separately, so it can run more efficiently too.

Note that, other than the initial job-submission step with sbatch, the load on the scheduler is the same for an array job as for the equivalent number of non-array jobs. The cost of dispatching each array task is the same as dispatching a non-array job. You should not use a job array to submit tasks with very short run times, e.g. much less than an hour. Tasks with run times of only a few minutes should be grouped into longer jobs using META, GLOST, GNU Parallel, or a shell loop inside a job.

Example: Multiple directories

Suppose you have multiple directories, each with the same structure, and you want to run the same script in each directory. If the directories can be named with sequential numbers then the example above can be easily adapted. If the names are not so systematic, then create a file with the names of the directories, like so: 

$ cat case_list
pacific2016
pacific2017
atlantic2016
atlantic2017

There are several ways to select a given line from a file; this example uses sed to do so:


File : directories_array.sh

#!/bin/bash
#SBATCH --time=3:00:00
#SBATCH --array=1-4

echo "Starting task $SLURM_ARRAY_TASK_ID"
DIR=$(sed -n "${SLURM_ARRAY_TASK_ID}p" case_list)
cd $DIR

# Place the code to execute here
pwd
ls


Cautions:

  • Take care that the number of tasks you request matches the number of entries in the file.
  • The file case_list should not be changed until all the tasks in the array have run, since it will be read each time a new task starts.


Example: Multiple parameters

Suppose you have a Python script doing certain calculations with some parameters defined in a Python list or a NumPy array such as

File : my_script.py

import time
import numpy as np

def calculation(x, beta):
    time.sleep(2) #simulate a long run
    return beta * np.linalg.norm(x**2)

if __name__ == "__main__":
    x = np.random.rand(100)
    betas = np.linspace(10,36.5,100) #subdivise the interval [10,36.5] with 100 values
    for i in range(len(betas)): #iterate through the beta parameter
        res = calculation(x,betas[i])
        print(res) #show the results on screen

# Run with: python my_script.py


The above task can be processed in a job array so that each value of the beta parameter can be treated in parallel. The idea is to pass the $SLURM_ARRAY_TASK_ID to the Python script and get the beta parameter based on its value. The Python script becomes

File : my_script_parallel.py

import time
import numpy as np
import sys

def calculation(x, beta):
    time.sleep(2) #simulate a long run
    return beta * np.linalg.norm(x**2)

if __name__ == "__main__":
    x = np.random.rand(100)
    betas = np.linspace(10,36.5,100) #subdivise the interval [10,36.5] with 100 values
    
    i = int(sys.argv[1]) #get the value of the $SLURM_ARRAY_TASK_ID
    res = calculation(x,betas[i])
    print(res) #show the results on screen

# Run with: python my_script_parallel.py $SLURM_ARRAY_TASK_ID


The job submission script is (note the array parameters goes from 0 to 99 like the indexes of the NumPy array)

File : data_parallel_python.sh

#!/bin/bash
#SBATCH --array=0-99
#SBATCH --time=1:00:00
module load scipy-stack
python my_script_parallel.py $SLURM_ARRAY_TASK_ID


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