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.. _paralleltask:
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==========================
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The IPython task interface
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==========================
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The task interface to the controller presents the engines as a fault tolerant,
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dynamic load-balanced system or workers. Unlike the multiengine interface, in
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the task interface, the user have no direct access to individual engines. In
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some ways, this interface is simpler, but in other ways it is more powerful.
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Best of all the user can use both of these interfaces running at the same time
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to take advantage or both of their strengths. When the user can break up the
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user's work into segments that do not depend on previous execution, the task
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interface is ideal. But it also has more power and flexibility, allowing the
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user to guide the distribution of jobs, without having to assign tasks to
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engines explicitly.
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Starting the IPython controller and engines
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===========================================
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To follow along with this tutorial, you will need to start the IPython
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controller and four IPython engines. The simplest way of doing this is to use
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the :command:`ipcluster` command::
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$ ipcluster local -n 4
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For more detailed information about starting the controller and engines, see
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our :ref:`introduction <ip1par>` to using IPython for parallel computing.
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Creating a ``TaskClient`` instance
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=========================================
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The first step is to import the IPython :mod:`IPython.kernel.client` module
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and then create a :class:`TaskClient` instance:
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.. sourcecode:: ipython
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In [1]: from IPython.kernel import client
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In [2]: tc = client.TaskClient()
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This form assumes that the :file:`ipcontroller-tc.furl` is in the
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:file:`~./ipython/security` directory on the client's host. If not, the
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location of the FURL file must be given as an argument to the
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constructor:
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.. sourcecode:: ipython
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In [2]: mec = client.TaskClient('/path/to/my/ipcontroller-tc.furl')
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Quick and easy parallelism
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==========================
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In many cases, you simply want to apply a Python function to a sequence of
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objects, but *in parallel*. Like the multiengine interface, the task interface
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provides two simple ways of accomplishing this: a parallel version of
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:func:`map` and ``@parallel`` function decorator. However, the verions in the
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task interface have one important difference: they are dynamically load
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balanced. Thus, if the execution time per item varies significantly, you
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should use the versions in the task interface.
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Parallel map
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------------
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The parallel :meth:`map` in the task interface is similar to that in the
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multiengine interface:
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.. sourcecode:: ipython
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In [63]: serial_result = map(lambda x:x**10, range(32))
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In [64]: parallel_result = tc.map(lambda x:x**10, range(32))
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In [65]: serial_result==parallel_result
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Out[65]: True
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Parallel function decorator
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---------------------------
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Parallel functions are just like normal function, but they can be called on
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sequences and *in parallel*. The multiengine interface provides a decorator
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that turns any Python function into a parallel function:
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.. sourcecode:: ipython
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In [10]: @tc.parallel()
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....: def f(x):
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....: return 10.0*x**4
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....:
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In [11]: f(range(32)) # this is done in parallel
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Out[11]:
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[0.0,10.0,160.0,...]
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More details
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============
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The :class:`TaskClient` has many more powerful features that allow quite a bit
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of flexibility in how tasks are defined and run. The next places to look are
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in the following classes:
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* :class:`IPython.kernel.client.TaskClient`
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* :class:`IPython.kernel.client.StringTask`
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* :class:`IPython.kernel.client.MapTask`
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The following is an overview of how to use these classes together:
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1. Create a :class:`TaskClient`.
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2. Create one or more instances of :class:`StringTask` or :class:`MapTask`
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to define your tasks.
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3. Submit your tasks to using the :meth:`run` method of your
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:class:`TaskClient` instance.
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4. Use :meth:`TaskClient.get_task_result` to get the results of the
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tasks.
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We are in the process of developing more detailed information about the task
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interface. For now, the docstrings of the :class:`TaskClient`,
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:class:`StringTask` and :class:`MapTask` classes should be consulted.
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