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.. _parallel_process:
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===========================================
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Starting the IPython controller and engines
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===========================================
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To use IPython for parallel computing, you need to start one instance of
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the controller and one or more instances of the engine. The controller
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and each engine can run on different machines or on the same machine.
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Because of this, there are many different possibilities.
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Broadly speaking, there are two ways of going about starting a controller and engines:
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* In an automated manner using the :command:`ipcluster` command.
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* In a more manual way using the :command:`ipcontroller` and
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:command:`ipengine` commands.
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This document describes both of these methods. We recommend that new users
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start with the :command:`ipcluster` command as it simplifies many common usage
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cases.
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General considerations
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======================
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Before delving into the details about how you can start a controller and
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engines using the various methods, we outline some of the general issues that
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come up when starting the controller and engines. These things come up no
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matter which method you use to start your IPython cluster.
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Let's say that you want to start the controller on ``host0`` and engines on
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hosts ``host1``-``hostn``. The following steps are then required:
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1. Start the controller on ``host0`` by running :command:`ipcontroller` on
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``host0``.
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2. Move the JSON file (:file:`ipcontroller-engine.json`) created by the
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controller from ``host0`` to hosts ``host1``-``hostn``.
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3. Start the engines on hosts ``host1``-``hostn`` by running
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:command:`ipengine`. This command has to be told where the JSON file
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(:file:`ipcontroller-engine.json`) is located.
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At this point, the controller and engines will be connected. By default, the JSON files
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created by the controller are put into the :file:`~/.ipython/cluster_default/security`
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directory. If the engines share a filesystem with the controller, step 2 can be skipped as
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the engines will automatically look at that location.
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The final step required to actually use the running controller from a client is to move
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the JSON file :file:`ipcontroller-client.json` from ``host0`` to any host where clients
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will be run. If these file are put into the :file:`~/.ipython/cluster_default/security`
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directory of the client's host, they will be found automatically. Otherwise, the full path
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to them has to be passed to the client's constructor.
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Using :command:`ipcluster`
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===========================
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The :command:`ipcluster` command provides a simple way of starting a
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controller and engines in the following situations:
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1. When the controller and engines are all run on localhost. This is useful
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for testing or running on a multicore computer.
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2. When engines are started using the :command:`mpiexec` command that comes
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with most MPI [MPI]_ implementations
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3. When engines are started using the PBS [PBS]_ batch system
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(or other `qsub` systems, such as SGE).
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4. When the controller is started on localhost and the engines are started on
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remote nodes using :command:`ssh`.
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5. When engines are started using the Windows HPC Server batch system.
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.. note::
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Currently :command:`ipcluster` requires that the
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:file:`~/.ipython/profile_<name>/security` directory live on a shared filesystem that is
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seen by both the controller and engines. If you don't have a shared file
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system you will need to use :command:`ipcontroller` and
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:command:`ipengine` directly.
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Under the hood, :command:`ipcluster` just uses :command:`ipcontroller`
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and :command:`ipengine` to perform the steps described above.
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The simplest way to use ipcluster requires no configuration, and will
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launch a controller and a number of engines on the local machine. For instance,
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to start one controller and 4 engines on localhost, just do::
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$ ipcluster start n=4
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To see other command line options, do::
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$ ipcluster -h
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Configuring an IPython cluster
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==============================
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Cluster configurations are stored as `profiles`. You can create a new profile with::
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$ ipython profile create --cluster profile=myprofile
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This will create the directory :file:`IPYTHONDIR/cluster_myprofile`, and populate it
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with the default configuration files for the three IPython cluster commands. Once
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you edit those files, you can continue to call ipcluster/ipcontroller/ipengine
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with no arguments beyond ``p=myprofile``, and any configuration will be maintained.
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There is no limit to the number of profiles you can have, so you can maintain a profile for each
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of your common use cases. The default profile will be used whenever the
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profile argument is not specified, so edit :file:`IPYTHONDIR/cluster_default/*_config.py` to
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represent your most common use case.
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The configuration files are loaded with commented-out settings and explanations,
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which should cover most of the available possibilities.
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Using various batch systems with :command:`ipcluster`
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------------------------------------------------------
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:command:`ipcluster` has a notion of Launchers that can start controllers
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and engines with various remote execution schemes. Currently supported
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models include :command:`ssh`, :command`mpiexec`, PBS-style (Torque, SGE),
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and Windows HPC Server.
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.. note::
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The Launchers and configuration are designed in such a way that advanced
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users can subclass and configure them to fit their own system that we
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have not yet supported (such as Condor)
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Using :command:`ipcluster` in mpiexec/mpirun mode
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--------------------------------------------------
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The mpiexec/mpirun mode is useful if you:
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1. Have MPI installed.
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2. Your systems are configured to use the :command:`mpiexec` or
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:command:`mpirun` commands to start MPI processes.
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If these are satisfied, you can create a new profile::
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$ ipython profile create --cluster profile=mpi
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and edit the file :file:`IPYTHONDIR/cluster_mpi/ipcluster_config.py`.
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There, instruct ipcluster to use the MPIExec launchers by adding the lines:
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.. sourcecode:: python
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c.IPClusterEnginesApp.engine_launcher = 'IPython.parallel.apps.launcher.MPIExecEngineSetLauncher'
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If the default MPI configuration is correct, then you can now start your cluster, with::
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$ ipcluster start n=4 profile=mpi
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This does the following:
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1. Starts the IPython controller on current host.
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2. Uses :command:`mpiexec` to start 4 engines.
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If you have a reason to also start the Controller with mpi, you can specify:
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.. sourcecode:: python
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c.IPClusterStartApp.controller_launcher = 'IPython.parallel.apps.launcher.MPIExecControllerLauncher'
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.. note::
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The Controller *will not* be in the same MPI universe as the engines, so there is not
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much reason to do this unless sysadmins demand it.
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On newer MPI implementations (such as OpenMPI), this will work even if you
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don't make any calls to MPI or call :func:`MPI_Init`. However, older MPI
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implementations actually require each process to call :func:`MPI_Init` upon
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starting. The easiest way of having this done is to install the mpi4py
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[mpi4py]_ package and then specify the ``c.MPI.use`` option in :file:`ipengine_config.py`:
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.. sourcecode:: python
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c.MPI.use = 'mpi4py'
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Unfortunately, even this won't work for some MPI implementations. If you are
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having problems with this, you will likely have to use a custom Python
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executable that itself calls :func:`MPI_Init` at the appropriate time.
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Fortunately, mpi4py comes with such a custom Python executable that is easy to
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install and use. However, this custom Python executable approach will not work
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with :command:`ipcluster` currently.
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More details on using MPI with IPython can be found :ref:`here <parallelmpi>`.
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Using :command:`ipcluster` in PBS mode
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---------------------------------------
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The PBS mode uses the Portable Batch System [PBS]_ to start the engines.
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As usual, we will start by creating a fresh profile::
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$ ipython profile create --cluster profile=pbs
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And in :file:`ipcluster_config.py`, we will select the PBS launchers for the controller
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and engines:
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.. sourcecode:: python
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c.Global.controller_launcher = 'IPython.parallel.apps.launcher.PBSControllerLauncher'
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c.Global.engine_launcher = 'IPython.parallel.apps.launcher.PBSEngineSetLauncher'
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IPython does provide simple default batch templates for PBS and SGE, but you may need
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to specify your own. Here is a sample PBS script template:
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.. sourcecode:: bash
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#PBS -N ipython
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#PBS -j oe
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#PBS -l walltime=00:10:00
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#PBS -l nodes={n/4}:ppn=4
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#PBS -q {queue}
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cd $PBS_O_WORKDIR
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export PATH=$HOME/usr/local/bin
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export PYTHONPATH=$HOME/usr/local/lib/python2.7/site-packages
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/usr/local/bin/mpiexec -n {n} ipengine profile_dir={profile_dir}
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There are a few important points about this template:
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1. This template will be rendered at runtime using IPython's :class:`EvalFormatter`.
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This is simply a subclass of :class:`string.Formatter` that allows simple expressions
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on keys.
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2. Instead of putting in the actual number of engines, use the notation
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``{n}`` to indicate the number of engines to be started. You can also use
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expressions like ``{n/4}`` in the template to indicate the number of nodes.
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There will always be ``{n}`` and ``{profile_dir}`` variables passed to the formatter.
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These allow the batch system to know how many engines, and where the configuration
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files reside. The same is true for the batch queue, with the template variable
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``{queue}``.
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3. Any options to :command:`ipengine` can be given in the batch script
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template, or in :file:`ipengine_config.py`.
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4. Depending on the configuration of you system, you may have to set
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environment variables in the script template.
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The controller template should be similar, but simpler:
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.. sourcecode:: bash
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#PBS -N ipython
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#PBS -j oe
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#PBS -l walltime=00:10:00
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#PBS -l nodes=1:ppn=4
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#PBS -q {queue}
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cd $PBS_O_WORKDIR
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export PATH=$HOME/usr/local/bin
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export PYTHONPATH=$HOME/usr/local/lib/python2.7/site-packages
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ipcontroller profile_dir={profile_dir}
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Once you have created these scripts, save them with names like
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:file:`pbs.engine.template`. Now you can load them into the :file:`ipcluster_config` with:
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.. sourcecode:: python
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c.PBSEngineSetLauncher.batch_template_file = "pbs.engine.template"
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c.PBSControllerLauncher.batch_template_file = "pbs.controller.template"
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Alternately, you can just define the templates as strings inside :file:`ipcluster_config`.
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Whether you are using your own templates or our defaults, the extra configurables available are
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the number of engines to launch (``{n}``, and the batch system queue to which the jobs are to be
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submitted (``{queue}``)). These are configurables, and can be specified in
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:file:`ipcluster_config`:
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.. sourcecode:: python
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c.PBSLauncher.queue = 'veryshort.q'
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c.IPClusterEnginesApp.n = 64
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Note that assuming you are running PBS on a multi-node cluster, the Controller's default behavior
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of listening only on localhost is likely too restrictive. In this case, also assuming the
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nodes are safely behind a firewall, you can simply instruct the Controller to listen for
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connections on all its interfaces, by adding in :file:`ipcontroller_config`:
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.. sourcecode:: python
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c.RegistrationFactory.ip = '*'
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You can now run the cluster with::
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$ ipcluster start profile=pbs n=128
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Additional configuration options can be found in the PBS section of :file:`ipcluster_config`.
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.. note::
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Due to the flexibility of configuration, the PBS launchers work with simple changes
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to the template for other :command:`qsub`-using systems, such as Sun Grid Engine,
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and with further configuration in similar batch systems like Condor.
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Using :command:`ipcluster` in SSH mode
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---------------------------------------
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The SSH mode uses :command:`ssh` to execute :command:`ipengine` on remote
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nodes and :command:`ipcontroller` can be run remotely as well, or on localhost.
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.. note::
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When using this mode it highly recommended that you have set up SSH keys
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and are using ssh-agent [SSH]_ for password-less logins.
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As usual, we start by creating a clean profile::
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$ ipython profile create --cluster profile=ssh
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To use this mode, select the SSH launchers in :file:`ipcluster_config.py`:
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.. sourcecode:: python
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c.Global.engine_launcher = 'IPython.parallel.apps.launcher.SSHEngineSetLauncher'
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# and if the Controller is also to be remote:
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c.Global.controller_launcher = 'IPython.parallel.apps.launcher.SSHControllerLauncher'
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The controller's remote location and configuration can be specified:
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.. sourcecode:: python
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# Set the user and hostname for the controller
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# c.SSHControllerLauncher.hostname = 'controller.example.com'
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# c.SSHControllerLauncher.user = os.environ.get('USER','username')
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# Set the arguments to be passed to ipcontroller
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# note that remotely launched ipcontroller will not get the contents of
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# the local ipcontroller_config.py unless it resides on the *remote host*
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# in the location specified by the `profile_dir` argument.
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# c.SSHControllerLauncher.program_args = ['--reuse', 'ip=0.0.0.0', 'profile_dir=/path/to/cd']
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.. note::
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SSH mode does not do any file movement, so you will need to distribute configuration
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files manually. To aid in this, the `reuse_files` flag defaults to True for ssh-launched
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Controllers, so you will only need to do this once, unless you override this flag back
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to False.
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Engines are specified in a dictionary, by hostname and the number of engines to be run
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on that host.
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.. sourcecode:: python
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c.SSHEngineSetLauncher.engines = { 'host1.example.com' : 2,
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'host2.example.com' : 5,
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'host3.example.com' : (1, ['profile_dir=/home/different/location']),
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'host4.example.com' : 8 }
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* The `engines` dict, where the keys are the host we want to run engines on and
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the value is the number of engines to run on that host.
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* on host3, the value is a tuple, where the number of engines is first, and the arguments
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to be passed to :command:`ipengine` are the second element.
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For engines without explicitly specified arguments, the default arguments are set in
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a single location:
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.. sourcecode:: python
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c.SSHEngineSetLauncher.engine_args = ['profile_dir=/path/to/cluster_ssh']
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Current limitations of the SSH mode of :command:`ipcluster` are:
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* Untested on Windows. Would require a working :command:`ssh` on Windows.
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Also, we are using shell scripts to setup and execute commands on remote
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hosts.
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* No file movement -
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Using the :command:`ipcontroller` and :command:`ipengine` commands
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====================================================================
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It is also possible to use the :command:`ipcontroller` and :command:`ipengine`
|
|
|
commands to start your controller and engines. This approach gives you full
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control over all aspects of the startup process.
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|
Starting the controller and engine on your local machine
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|
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--------------------------------------------------------
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To use :command:`ipcontroller` and :command:`ipengine` to start things on your
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local machine, do the following.
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First start the controller::
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$ ipcontroller
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Next, start however many instances of the engine you want using (repeatedly)
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the command::
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$ ipengine
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The engines should start and automatically connect to the controller using the
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JSON files in :file:`~/.ipython/cluster_default/security`. You are now ready to use the
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controller and engines from IPython.
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.. warning::
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The order of the above operations may be important. You *must*
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start the controller before the engines, unless you are reusing connection
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information (via `-r`), in which case ordering is not important.
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.. note::
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On some platforms (OS X), to put the controller and engine into the
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background you may need to give these commands in the form ``(ipcontroller
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&)`` and ``(ipengine &)`` (with the parentheses) for them to work
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properly.
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|
Starting the controller and engines on different hosts
|
|
|
------------------------------------------------------
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When the controller and engines are running on different hosts, things are
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slightly more complicated, but the underlying ideas are the same:
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1. Start the controller on a host using :command:`ipcontroller`.
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2. Copy :file:`ipcontroller-engine.json` from :file:`~/.ipython/profile_<name>/security` on
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the controller's host to the host where the engines will run.
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|
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3. Use :command:`ipengine` on the engine's hosts to start the engines.
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The only thing you have to be careful of is to tell :command:`ipengine` where
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the :file:`ipcontroller-engine.json` file is located. There are two ways you
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can do this:
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* Put :file:`ipcontroller-engine.json` in the :file:`~/.ipython/profile_<name>/security`
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directory on the engine's host, where it will be found automatically.
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* Call :command:`ipengine` with the ``--file=full_path_to_the_file``
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flag.
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The ``--file`` flag works like this::
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$ ipengine --file=/path/to/my/ipcontroller-engine.json
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.. note::
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If the controller's and engine's hosts all have a shared file system
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(:file:`~/.ipython/profile_<name>/security` is the same on all of them), then things
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will just work!
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Make JSON files persistent
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|
--------------------------
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At fist glance it may seem that that managing the JSON files is a bit
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annoying. Going back to the house and key analogy, copying the JSON around
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each time you start the controller is like having to make a new key every time
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you want to unlock the door and enter your house. As with your house, you want
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to be able to create the key (or JSON file) once, and then simply use it at
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any point in the future.
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To do this, the only thing you have to do is specify the `--reuse` flag, so that
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the connection information in the JSON files remains accurate::
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$ ipcontroller --reuse
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Then, just copy the JSON files over the first time and you are set. You can
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start and stop the controller and engines any many times as you want in the
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future, just make sure to tell the controller to reuse the file.
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.. note::
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You may ask the question: what ports does the controller listen on if you
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don't tell is to use specific ones? The default is to use high random port
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|
numbers. We do this for two reasons: i) to increase security through
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|
obscurity and ii) to multiple controllers on a given host to start and
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|
automatically use different ports.
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Log files
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|
---------
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|
All of the components of IPython have log files associated with them.
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|
These log files can be extremely useful in debugging problems with
|
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|
IPython and can be found in the directory :file:`~/.ipython/profile_<name>/log`.
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Sending the log files to us will often help us to debug any problems.
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|
Configuring `ipcontroller`
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|
---------------------------
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Ports and addresses
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|
*******************
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Database Backend
|
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|
****************
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.. seealso::
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Configuring `ipengine`
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|
-----------------------
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.. note::
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TODO
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.. [PBS] Portable Batch System. http://www.openpbs.org/
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.. [SSH] SSH-Agent http://en.wikipedia.org/wiki/ssh-agent
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