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r1678 ==========================
The IPython task interface
==========================
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r2197 The task interface to the controller presents the engines as a fault tolerant,
dynamic load-balanced system or workers. Unlike the multiengine interface, in
the task interface, the user have no direct access to individual engines. In
some ways, this interface is simpler, but in other ways it is more powerful.
Best of all the user can use both of these interfaces running at the same time
to take advantage or both of their strengths. When the user can break up the
user's work into segments that do not depend on previous execution, the task
interface is ideal. But it also has more power and flexibility, allowing the
user to guide the distribution of jobs, without having to assign tasks to
engines explicitly.
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Starting the IPython controller and engines
===========================================
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r1678 To follow along with this tutorial, you will need to start the IPython
controller and four IPython engines. The simplest way of doing this is to use
the :command:`ipcluster` command::
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r1788 $ ipcluster local -n 4
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r1678 For more detailed information about starting the controller and engines, see
our :ref:`introduction <ip1par>` to using IPython for parallel computing.
Creating a ``TaskClient`` instance
=========================================
The first step is to import the IPython :mod:`IPython.kernel.client` module
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r1788 and then create a :class:`TaskClient` instance:
.. sourcecode:: ipython
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In [1]: from IPython.kernel import client
In [2]: tc = client.TaskClient()
This form assumes that the :file:`ipcontroller-tc.furl` is in the
:file:`~./ipython/security` directory on the client's host. If not, the
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constructor:
.. sourcecode:: ipython
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r1788 In [2]: mec = client.TaskClient('/path/to/my/ipcontroller-tc.furl')
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Quick and easy parallelism
==========================
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r2197 In many cases, you simply want to apply a Python function to a sequence of
objects, but *in parallel*. Like the multiengine interface, the task interface
provides two simple ways of accomplishing this: a parallel version of
:func:`map` and ``@parallel`` function decorator. However, the verions in the
task interface have one important difference: they are dynamically load
balanced. Thus, if the execution time per item varies significantly, you
should use the versions in the task interface.
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Parallel map
------------
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r2197 The parallel :meth:`map` in the task interface is similar to that in the
multiengine interface:
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.. sourcecode:: ipython
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In [63]: serial_result = map(lambda x:x**10, range(32))
In [64]: parallel_result = tc.map(lambda x:x**10, range(32))
In [65]: serial_result==parallel_result
Out[65]: True
Parallel function decorator
---------------------------
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r2197 Parallel functions are just like normal function, but they can be called on
sequences and *in parallel*. The multiengine interface provides a decorator
that turns any Python function into a parallel function:
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.. sourcecode:: ipython
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r1678 In [10]: @tc.parallel()
....: def f(x):
....: return 10.0*x**4
....:
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r1678 In [11]: f(range(32)) # this is done in parallel
Out[11]:
[0.0,10.0,160.0,...]
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r1678 More details
============
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r2197 The :class:`TaskClient` has many more powerful features that allow quite a bit
of flexibility in how tasks are defined and run. The next places to look are
in the following classes:
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r1678 * :class:`IPython.kernel.client.TaskClient`
* :class:`IPython.kernel.client.StringTask`
* :class:`IPython.kernel.client.MapTask`
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r1678 The following is an overview of how to use these classes together:
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2. Create one or more instances of :class:`StringTask` or :class:`MapTask`
to define your tasks.
3. Submit your tasks to using the :meth:`run` method of your
:class:`TaskClient` instance.
4. Use :meth:`TaskClient.get_task_result` to get the results of the
tasks.
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r2197 We are in the process of developing more detailed information about the task
interface. For now, the docstrings of the :class:`TaskClient`,
:class:`StringTask` and :class:`MapTask` classes should be consulted.
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