IBM Spectrum LSF is the command line job submission system for submitting batch and interactive jobs on DeepSense computing hardware.
- 1 Test code and short computation
- 2 Job Submission
- 3 Advanced Job Submission
- 4 Job Information
- 5 LSF Command Reference
Test code and short computation
DeepSense has two login nodes, login1.deepsense.ca and login2.deepsense.ca . You can access these through SSH with your username and password from any computer on campus. From off campus you’ll need to use the Dalhousie VPN.
The login nodes are intended for testing and compiling code. Please don’t run long or intensive computation on these nodes.
When you have a small example working with your code and are ready to run a real workload, use the LSF queue to submit your jobs to the cluster (https://www.ibm.com/support/knowledgecenter/SSWRJV_10.1.0/lsf_users_guide/batch_jobs_about.html). If you’ve used other queuing systems like slurm or Sun Grid Engine before then LSF will seem very familiar.
To submit a job you use the
bsub command (https://www.ibm.com/support/knowledgecenter/en/SSWRJV_10.1.0/lsf_command_ref/bsub.man_top.1.html).
For example, to submit a shared memory job using 20 processors and 256GB of memory for at most 24 hours you would run:
bsub -oo <output_file> -n 20 -M 256000 -W 24:0 -R “span[hosts=1]” <executable> [options]
For openMP jobs, please make sure that you use
OMP_NUM_THREADS to limit the number of threads your program uses and that you set this variable in your code that will run on the server. LSF sets a variable
$LSB_DJOB_NUMPROC that you can use if you don’t want to hardcode
OMP_NUM_THREADS or set it with your own variable.
The number of requested processors is specified with the option
The resource request
-R "span[hosts=1]" requires that all processors are on the same compute host, i.e. a shared memory job.
LSF can also be used to run compute jobs across multiple hosts such as MPI jobs. Examples will be included here at a later date.
The memory limit
-M is specified in MB by default. You can also specify units, e.g.
The runtime limit
-W hours:minutes specifies the maximum length of time your job is allowed to run.
-W 24:0 requests 24 hours of running time.
Your job will be terminated when the runtime limit is exceeded.
If you do not specify a runtime limit then the default runtime limit of 168 hours (7 days) will be used. The maximum possible runtime limit is currently 30 days and may vary by queue in the future.
If there is a scheduled maintenance window announced then any job with a run time limit that could extend into the maintenance period will be listed as pending and will not run until the maintenance has concluded. Use a shorter run time limit that ends before the maintenance period to avoid this.
To request access to a GPU use the
-gpu - options.
Note the trailing dash, which specifies the default GPU arguments. The following options can be used in place of that dash.
The default GPU arguments are
num=num_gpus is the number of requested GPUs on each host.
mode=shared | exclusive_process specifies the GPU mode.
mps=yes | no use the Nvidia Multi-Process Server (MPS). MPS enables better sharing of GPU resources. If
mode=exclusive_process then mps should be set to yes.
j_exclusive=yes | no Is the GPU exclusive to this job and prevented from being used by other jobs?
By default the
-gpu - option will request one nonexclusive GPU. Please limit your usage of GPU resources to a reasonable number of concurrently used GPUs and use shared GPUs when possible. We may enact limits on GPU use in the feature if necessary.
See the bsub.gpu documentation for more information on submitting GPU jobs.
Input and Output files
If you do not specify an output file with
-o (append) or
-oo (overwrite) then the output will be lost. Note that LSF will prepend submission information to this file. You can use typical linux options like
> output_file2 in which case the file specified with
-oo will just contain any errors and submission information.
You can specify an input file with the
-i option or the typical linux option
Advanced Job Submission
To run the same program multiple time with different input and output files you can use LSF Array Jobs.
An example command in the LSF documentation is given as:
bsub -J "myArray[1-1000]" -i "input.%I" -o "output.%I" myJob
This command uses only one line to submit 1000 jobs running the script myJob with the input file
input.1, input.2, ... input.1000 with the output of each job placed in the files
output.1, output.2, ... output.1000
To run the same program with multiple files, possibly with different options, you can create a job submission script that iterates over the files and submits the jobs.
For example, suppose you have
programA and want to process
input.1, input.2, ... input.N with output in
output.1, output.2, ... output.N, as in the array example.
Create a bash script
do_submit_programA.bash that looks something like:
n=<N> arguments=<nodes, memory, time constraints, etc> for ((i=1; i<=$n; i++)); do bsub -oo log.$i $arguments programA < input.$i > output.$i done
Note that everything in triangle braces here is not real code. For example
N might be read from a command line argument or hardcoded as say 10. The arguments will be something like
-n 1 -M 100MB and any other desired options. You can run multiple types of jobs with complex arguments.
You may wish to create separate directories for the log files, input files, and output files if there are more than a handful of jobs.
If each job requires nontrivial processing (e.g. changing into different directories for each job) then you may want to create a second script that generates the jobfiles and then use a similar kind of submit script.
Some jobs may require user input such as testing code on a gpu system or an interactive analytics program.
bsub -I requests an interactive job that will print its output to your terminal.
bsub -Ip requests an interactive job with a pseudo terminal. For example, this can be used to schedule a console program that takes user input and output.
bsub -Is requests an interactive job with a shell. This can be used to test code on one of the gpu nodes or for more resource intensive development than is allowed on the login nodes.
Note that interactive jobs are still subject to time and memory constraints as typical batch jobs. Please be careful not to interfere with other jobs running on a node and that your interactive job does not attempt to use more resources than you have requested. Please do not leave interactive jobs running for long periods and do not leave interactive jobs idle when you are not using them.
We do not currently treat interactive jobs different than any other jobs. As DeepSense becomes more heavily utilized we may need to limit the number of interactive jobs run by a user, project, or on a given node. We may need to limit the time or other resources used by interactive jobs.
To examine currently running jobs you use the
bjobs command (https://www.ibm.com/support/knowledgecenter/en/SSWRJV_10.1.0/lsf_command_ref/bjobs.man_top.1.html)
bjobs -l or
bjobs -l <jobid> shows additional job information including job status and resource usage.
To examine current and past jobs use the
bhist command (https://www.ibm.com/support/knowledgecenter/en/SSWRJV_10.1.0/lsf_command_ref/bhist.1.html).
The following options will show jobs with the specified status:
-a all -d finished -e exited -p pending -r running -s suspended
You can use options like
-S start_time,end_time and
-C start_time,end_time to find jobs that were submitted or completed between the specified time intervals. These options require using the
As with bjobs, you can use the
-l option for additional information and can also specify a specific known jobid as the last command argument.
To see the available hosts and how busy they are you use the
bhosts command (https://www.ibm.com/support/knowledgecenter/en/SSWRJV_10.1.0/lsf_command_ref/bhosts.1.html)
LSF Command Reference
The complete list of LSF commands with description is available here.