parallel_intro.txt
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============================ | ||||
Overview and getting started | ||||
============================ | ||||
Introduction | ||||
============ | ||||
This section gives an overview of IPython's sophisticated and powerful | ||||
architecture for parallel and distributed computing. This architecture | ||||
abstracts out parallelism in a very general way, which enables IPython to | ||||
support many different styles of parallelism including: | ||||
* Single program, multiple data (SPMD) parallelism. | ||||
* Multiple program, multiple data (MPMD) parallelism. | ||||
* Message passing using MPI. | ||||
* Task farming. | ||||
* Data parallel. | ||||
* Combinations of these approaches. | ||||
* Custom user defined approaches. | ||||
Most importantly, IPython enables all types of parallel applications to | ||||
be developed, executed, debugged and monitored *interactively*. Hence, | ||||
the ``I`` in IPython. The following are some example usage cases for IPython: | ||||
* Quickly parallelize algorithms that are embarrassingly parallel | ||||
using a number of simple approaches. Many simple things can be | ||||
parallelized interactively in one or two lines of code. | ||||
* Steer traditional MPI applications on a supercomputer from an | ||||
IPython session on your laptop. | ||||
* Analyze and visualize large datasets (that could be remote and/or | ||||
distributed) interactively using IPython and tools like | ||||
matplotlib/TVTK. | ||||
* Develop, test and debug new parallel algorithms | ||||
(that may use MPI) interactively. | ||||
* Tie together multiple MPI jobs running on different systems into | ||||
one giant distributed and parallel system. | ||||
* Start a parallel job on your cluster and then have a remote | ||||
collaborator connect to it and pull back data into their | ||||
local IPython session for plotting and analysis. | ||||
* Run a set of tasks on a set of CPUs using dynamic load balancing. | ||||
Architecture overview | ||||
===================== | ||||
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r3591 | The IPython architecture consists of four components: | ||
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* The IPython engine. | ||||
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r3618 | * The IPython hub. | ||
* The IPython schedulers. | ||||
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r3591 | * The controller client. | ||
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r3666 | These components live in the :mod:`IPython.parallel` package and are | ||
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r3586 | installed with IPython. They do, however, have additional dependencies | ||
that must be installed. For more information, see our | ||||
:ref:`installation documentation <install_index>`. | ||||
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r3591 | .. TODO: include zmq in install_index | ||
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--------------- | ||||
The IPython engine is a Python instance that takes Python commands over a | ||||
network connection. Eventually, the IPython engine will be a full IPython | ||||
interpreter, but for now, it is a regular Python interpreter. The engine | ||||
can also handle incoming and outgoing Python objects sent over a network | ||||
connection. When multiple engines are started, parallel and distributed | ||||
computing becomes possible. An important feature of an IPython engine is | ||||
that it blocks while user code is being executed. Read on for how the | ||||
IPython controller solves this problem to expose a clean asynchronous API | ||||
to the user. | ||||
IPython controller | ||||
------------------ | ||||
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r3618 | The IPython controller processes provide an interface for working with a set of engines. | ||
At a general level, the controller is a collection of processes to which IPython engines | ||||
and clients can connect. The controller is composed of a :class:`Hub` and a collection of | ||||
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r3600 | :class:`Schedulers`. These Schedulers are typically run in separate processes but on the | ||
same machine as the Hub, but can be run anywhere from local threads or on remote machines. | ||||
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The controller also provides a single point of contact for users who wish to | ||||
utilize the engines connected to the controller. There are different ways of | ||||
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r3591 | working with a controller. In IPython, all of these models are implemented via | ||
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r3664 | the client's :meth:`.View.apply` method, with various arguments, or | ||
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r3591 | constructing :class:`.View` objects to represent subsets of engines. The two | ||
primary models for interacting with engines are: | ||||
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* A **LoadBalanced** interface, where the Scheduler is trusted with assigning work to | ||||
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r3591 | Advanced users can readily extend the View models to enable other | ||
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.. note:: | ||||
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simultaneously. This opens the door for lots of interesting things. | ||||
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******* | ||||
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r3618 | The center of an IPython cluster is the Hub. This is the process that keeps | ||
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r3600 | track of engine connections, schedulers, clients, as well as all task requests and | ||
results. The primary role of the Hub is to facilitate queries of the cluster state, and | ||||
minimize the necessary information required to establish the many connections involved in | ||||
connecting new clients and engines. | ||||
Schedulers | ||||
********** | ||||
All actions that can be performed on the engine go through a Scheduler. While the engines | ||||
themselves block when user code is run, the schedulers hide that from the user to provide | ||||
a fully asynchronous interface to a set of engines. | ||||
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------------------------ | ||||
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r3673 | For each execution model, there is a corresponding :class:`~.parallel.View`. These views | ||
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r3664 | allow users to interact with a set of engines through the interface. Here are the two default | ||
views: | ||||
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* The :class:`LoadBalancedView` class for destination-agnostic scheduling. | ||||
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Security | ||||
-------- | ||||
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r3591 | IPython uses ZeroMQ for networking, which has provided many advantages, but | ||
one of the setbacks is its utter lack of security [ZeroMQ]_. By default, no IPython | ||||
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r3618 | connections are encrypted, but open ports only listen on localhost. The only | ||
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r3618 | (`openssh`) and `paramiko` based tunnels for connections. There is a key necessary | ||
to submit requests, but due to the lack of encryption, it does not provide | ||||
significant security if loopback traffic is compromised. | ||||
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In our architecture, the controller is the only process that listens on | ||||
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for secure connections is to designate that the controller listen on | ||||
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r3618 | To connect and authenticate to the controller an engine or client needs | ||
some information that the controller has stored in a JSON file. | ||||
Thus, the JSON files need to be copied to a location where | ||||
the clients and engines can find them. Typically, this is the | ||||
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Once the JSON files are copied over, everything should work fine. | ||||
Currently, there are two JSON files that the controller creates: | ||||
ipcontroller-engine.json | ||||
This JSON file has the information necessary for an engine to connect | ||||
to a controller. | ||||
ipcontroller-client.json | ||||
The client's connection information. This may not differ from the engine's, | ||||
but since the controller may listen on different ports for clients and | ||||
engines, it is stored separately. | ||||
More details of how these JSON files are used are given below. | ||||
A detailed description of the security model and its implementation in IPython | ||||
can be found :ref:`here <parallelsecurity>`. | ||||
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r3591 | .. warning:: | ||
Even at its most secure, the Controller listens on ports on localhost, and | ||||
every time you make a tunnel, you open a localhost port on the connecting | ||||
machine that points to the Controller. If localhost on the Controller's | ||||
machine, or the machine of any client or engine, is untrusted, then your | ||||
Controller is insecure. There is no way around this with ZeroMQ. | ||||
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Getting Started | ||||
=============== | ||||
To use IPython for parallel computing, you need to start one instance of the | ||||
controller and one or more instances of the engine. Initially, it is best to | ||||
simply start a controller and engines on a single host using the | ||||
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r3672 | :command:`ipcluster` command. To start a controller and 4 engines on your | ||
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More details about starting the IPython controller and engines can be found | ||||
:ref:`here <parallel_process>` | ||||
Once you have started the IPython controller and one or more engines, you | ||||
are ready to use the engines to do something useful. To make sure | ||||
everything is working correctly, try the following commands: | ||||
.. sourcecode:: ipython | ||||
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r3666 | In [1]: from IPython.parallel import Client | ||
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r3666 | In [2]: c = Client() | ||
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Out[4]: set([0, 1, 2, 3]) | ||||
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r3664 | In [5]: c[:].apply_sync(lambda : "Hello, World") | ||
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r3618 | Out[5]: [ 'Hello, World', 'Hello, World', 'Hello, World', 'Hello, World' ] | ||
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r3670 | When a client is created with no arguments, the client tries to find the corresponding JSON file | ||
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r3672 | in the local `~/.ipython/cluster_default/security` directory. Or if you specified a profile, | ||
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r3670 | you can use that with the Client. This should cover most cases: | ||
.. sourcecode:: ipython | ||||
In [2]: c = Client(profile='myprofile') | ||||
If you have put the JSON file in a different location or it has a different name, create the | ||||
client like this: | ||||
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.. sourcecode:: ipython | ||||
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r3666 | In [2]: c = Client('/path/to/my/ipcontroller-client.json') | ||
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r3618 | Remember, a client needs to be able to see the Hub's ports to connect. So if they are on a | ||
different machine, you may need to use an ssh server to tunnel access to that machine, | ||||
then you would connect to it with: | ||||
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r3591 | .. sourcecode:: ipython | ||
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r3666 | In [2]: c = Client(sshserver='myhub.example.com') | ||
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r3600 | Where 'myhub.example.com' is the url or IP address of the machine on | ||
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r3664 | which the Hub process is running (or another machine that has direct access to the Hub's ports). | ||
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r3670 | The SSH server may already be specified in ipcontroller-client.json, if the controller was | ||
instructed at its launch time. | ||||
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r3618 | You are now ready to learn more about the :ref:`Direct | ||
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r3664 | <parallel_multiengine>` and :ref:`LoadBalanced <parallel_task>` interfaces to the | ||
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r3591 | .. [ZeroMQ] ZeroMQ. http://www.zeromq.org | ||