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A tool for scheduling multiple parallelized jobs to a machine. Jobs are scheduled according to a user's priority which depends on the requested hardware resources.

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queueing-tool

A tool for scheduling multiple parallelized jobs to a machine. Jobs are scheduled according to a priority queue. The priority of a job is small if the amount of requested resources/computation time is large and high if the amount of requested resources/computation time is small, respectively. Priority of a job increases with its waiting time.

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(A) INSTALLATION

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Open the file qserver_deamon and set the available resources DEVICE_IDS, THREADS, and MEMORY to values that fit for your machine. Then, install the tool.

(a) Automatic installation: run the script install.sh as root.

(b) Manual installation:

Copy the queue directory to a location of your choice. The queueing tool requires to run the qserver tool that manages all submitted jobs and allocates the requested resources. The server can either be started manually or automatically as a daemon. For the latter case, copy the qserver_daemon script to /etc/init.d/ and invoke

sudo update-rc.d qserver_daemon defaults

to register it for startup during boot. Note that the path to the queue directory and the available resources need to be specified in qserver_daemon at the point marked with TODO. You can now also start/stop the qserver with

/etc/init.d/qserver_daemon start/stop

The queue-commands are located the queue directory. In order to submit jobs, it is required that the following line is added either to your .bashrc (will make the queue tools accessible for your account) or to an empty file in /etc/profiles.d/ (will make the queue tools accessible for all accounts):

export PATH=/your/queue/path/queue:$PATH

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(B) USAGE

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(1) qserver

Either start the server automatically as described above or manually:

qserver [--port PORT] [--gpus GPUS] [--threads THREADS] [--memory MEMORY] [--abort_on_time_limit]

Options:

--port PORT            port to listen on (default: 1234)
--gpus GPUS            comma separated list of available gpu device ids
--threads THREADS      number of available threads/cores
--memory MEMORY        available main memory in mb
--abort_on_time_limit  kill jobs if time limit is exceeded

(2) queue-scripts

The queue uses bash scripts that are organized in blocks. A block is a part of the script that forms an independent job and can be specified as follows:

#block(name=[jobname], threads=[num-threads], memory=[max-memory], subtasks=[num-subtasks], gpus=[num-gpus], hours=[time-limit])

where

  • [name] is the name of the job (default: unknown-job)
  • [threads] is the number of threads to use (default: 1)
  • [memory] is the maximal amount of memory in mb for the job (default: 1024)
  • [subtasks] is the number of subtasks in the block, see below (default: 1)
  • [gpus] is the number of requested GPUs (default: 0)
  • [hours] is the maximal runtime of the job in hours (default: 1)

Each block is scheduled [subtasks] times in parallel, which for instance allows for easy data parallelism. The subtask of the actual job is specified with the $SUBTASK_ID variable and the total number of subtasks is contained in $N_SUBTASKS. Subtask IDs range from 1 to $N_SUBTASKS.

If more than one block is specified in one script, each block is considered to be dependent on it predecessor, i.e. it is not started before all subtasks of the preceding block have finished. Subtasks within a block can run in parallel.

Example:

#block(name=block-1, threads=2, memory=2000, subtasks=10, hours=24)
  echo "process subtask $SUBTASK_ID of $N_SUBTASKS"
  ./processData data-dir/data.part-$SUBTASK_ID
  
#block(name=block-2, threads=10, memory=10000, hours=2)
  ./doSomethingThatRequiresTheResultsFromBlock-1
  ./somethingElse
  echo "processed block-2 after all subtasks of block-1"

The first block has 10 subtasks that all process different data, if possible in parallel. The second block is not started before all subtasks of the first block are finished. Note that all block parameters that are not specified are set to the default values.

In order to submit the above script, save it as your-queue-script.sh and invoke

 qsub your-queue-script.sh [param1] [param2] [...]

Note that the tool will create a q.log folder in the directory you invoked qsub in. In this folder, a file for each job is created, storing some meta information about the job as well as everything written to stdout and stderr.

(2) job status

  • 'r' (running): The requested resources have been allocated and the job runs.
  • 'w' (waiting): The requested resources could not yet be allocated and the job waits for execution.
  • 'h' (hold): The job has to wait for other jobs to be finished before it can start.

(3) queue-commands

qsub (submit a job to the queue)

qsub [options...] script [script params]

Options:

script
    Script (plus its parameters) to be submitted. Script
    parameters must not start with '-'. If they do so,
    pass them with escaped quotation marks and an escaped
    leading space like this: \"\ --foo\".

-l, --local
    Execute the script locally
-b BLOCK, --block BLOCK
    Only submit/execute the specified block
-s BLOCK SUBTASK_ID, --subtask BLOCK SUBTASK_ID
    Arguments for this option are a block name and a
    subtask id. Only submit/execute the subtask id of the
    specified block.
-f FROM_BLOCK, --from_block FROM_BLOCK
    Submit/execute the specified block and all succeeding blocks
--server_ip SERVER_IP
    Ip address of the server (default: localhost)
--server_port SERVER_PORT
    Port of the server (default: 1234)

qstat [-v]

Prints all jobs that are currently submitted. If option -v is set, output is verbose, i.e. requested resources per job are also displayed.

qdel (delete jobs) qdel [options...] job_specifier(s)

jobs
    Jobs to be deleted. Is a space separated list of job names, user names, or jod ids.
    For ids (neither -n nor -u option is set), jobs ranges separated by a '-' are also possible.
--server_ip SERVER_IP
    ip address of the server (default: localhost)
--server_port SERVER_PORT
    port of the server (default: 1234)
-n
    Delete all jobs of the given names. Asterisks can be used as wildcards.
-u
    Delete all jobs of the given users. Asterisks can be used as wildcards.

Example:

qdel 2-5 deletes the jobs with id 2,3,4,5

qdel 1,3,5 deletes the jobs with id 1,3,5

qdel -n job_A deletes all jobs with name job_A

qdel -u user_x deletes all jobs of user user_x

Jobs can only be deleted by their owners or by root.

qinfo

Outputs some information about the current queue status.

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A tool for scheduling multiple parallelized jobs to a machine. Jobs are scheduled according to a user's priority which depends on the requested hardware resources.

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