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parallel_connections.txt
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/ docs / source / development / parallel_connections.txt
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==============================================
Connection Diagrams of The IPython ZMQ Cluster
==============================================
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r3556 This is a quick summary and illustration of the connections involved in the ZeroMQ based
IPython cluster for parallel computing.
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All Connections
===============
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r3600 The IPython cluster consists of a Controller, and one or more each of clients and engines.
The goal of the Controller is to manage and monitor the connections and communications
between the clients and the engines. The Controller is no longer a single process entity,
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r4062 but rather a collection of processes - specifically one Hub, and 4 (or more) Schedulers.
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r3556 It is important for security/practicality reasons that all connections be inbound to the
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r3600 controller processes. The arrows in the figures indicate the direction of the
connection.
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.. figure:: figs/allconnections.png
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r3600 :width: 432px
:alt: IPython cluster connections
:align: center
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r3600 All the connections involved in connecting one client to one engine.
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r6140 The Controller consists of 1-5 processes. Central to the cluster is the **Hub**, which monitors
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r3658 engine state, execution traffic, and handles registration and notification. The Hub includes a
Heartbeat Monitor for keeping track of engines that are alive. Outside the Hub are 4
**Schedulers**. These devices are very small pure-C MonitoredQueue processes (or optionally
threads) that relay messages very fast, but also send a copy of each message along a side socket
to the Hub. The MUX queue and Control queue are MonitoredQueue ØMQ devices which relay
explicitly addressed messages from clients to engines, and their replies back up. The Balanced
queue performs load-balancing destination-agnostic scheduling. It may be a MonitoredQueue
device, but may also be a Python Scheduler that behaves externally in an identical fashion to MQ
devices, but with additional internal logic. stdout/err are also propagated from the Engines to
the clients via a PUB/SUB MonitoredQueue.
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Registration
------------
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r3658 .. figure:: figs/queryfade.png
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r3600 :width: 432px
:alt: IPython Registration connections
:align: center
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r4725 Engines and Clients only need to know where the Query ``ROUTER`` is located to start
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r3658 connecting.
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r3556 Once a controller is launched, the only information needed for connecting clients and/or
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r4725 engines is the IP/port of the Hub's ``ROUTER`` socket called the Registrar. This socket
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r3600 handles connections from both clients and engines, and replies with the remaining
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r3658 information necessary to establish the remaining connections. Clients use this same socket for
querying the Hub for state information.
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Heartbeat
---------
.. figure:: figs/hbfade.png
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r3600 :width: 432px
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r3658 :alt: IPython Heartbeat connections
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r3600 :align: center
The heartbeat sockets.
The heartbeat process has been described elsewhere. To summarize: the Heartbeat Monitor
publishes a distinct message periodically via a ``PUB`` socket. Each engine has a
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r4725 ``zmq.FORWARDER`` device with a ``SUB`` socket for input, and ``DEALER`` socket for output.
The ``SUB`` socket is connected to the ``PUB`` socket labeled *ping*, and the ``DEALER`` is
connected to the ``ROUTER`` labeled *pong*. This results in the same message being relayed
back to the Heartbeat Monitor with the addition of the ``DEALER`` prefix. The Heartbeat
Monitor receives all the replies via an ``ROUTER`` socket, and identifies which hearts are
still beating by the ``zmq.IDENTITY`` prefix of the ``DEALER`` sockets, which information
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r3600 the Hub uses to notify clients of any changes in the available engines.
Schedulers
----------
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.. figure:: figs/queuefade.png
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r3556 :width: 432px
:alt: IPython Queue connections
:align: center
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r3658 Control message scheduler on the left, execution (apply) schedulers on the right.
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r3600 The controller has at least three Schedulers. These devices are primarily for
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r3658 relaying messages between clients and engines, but the Hub needs to see those
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r3600 messages for its own purposes. Since no Python code may exist between the two sockets in a
queue, all messages sent through these queues (both directions) are also sent via a
``PUB`` socket to a monitor, which allows the Hub to monitor queue traffic without
interfering with it.
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r4725 For tasks, the engine need not be specified. Messages sent to the ``ROUTER`` socket from the
client side are assigned to an engine via ZMQ's ``DEALER`` round-robin load balancing.
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r3556 Engine replies are directed to specific clients via the IDENTITY of the client, which is
received as a prefix at the Engine.
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r4725 For Multiplexing, ``ROUTER`` is used for both in and output sockets in the device. Clients must
specify the destination by the ``zmq.IDENTITY`` of the ``ROUTER`` socket connected to
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r3556 the downstream end of the device.
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r4725 At the Kernel level, both of these ``ROUTER`` sockets are treated in the same way as the ``REP``
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r3556 socket in the serial version (except using ZMQStreams instead of explicit sockets).
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r3600
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r3658 Execution can be done in a load-balanced (engine-agnostic) or multiplexed (engine-specified)
manner. The sockets on the Client and Engine are the same for these two actions, but the
scheduler used determines the actual behavior. This routing is done via the ``zmq.IDENTITY`` of
the upstream sockets in each MonitoredQueue.
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r3600 IOPub
-----
.. figure:: figs/iopubfade.png
:width: 432px
:alt: IOPub connections
:align: center
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r3658 stdout/err are published via a ``PUB/SUB`` MonitoredQueue
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r3600
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r3658 On the kernels, stdout/stderr are captured and published via a ``PUB`` socket. These ``PUB``
sockets all connect to a ``SUB`` socket input of a MonitoredQueue, which subscribes to all
messages. They are then republished via another ``PUB`` socket, which can be
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r3600 subscribed by the clients.
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r2790 Client connections
------------------
.. figure:: figs/queryfade.png
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r3600 :width: 432px
:alt: IPython client query connections
:align: center
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r4725 Clients connect to an ``ROUTER`` socket to query the hub.
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r3600
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r4725 The hub's registrar ``ROUTER`` socket also listens for queries from clients as to queue status,
and control instructions. Clients connect to this socket via an ``DEALER`` during registration.
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.. figure:: figs/notiffade.png
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r3600 :width: 432px
:alt: IPython Registration connections
:align: center
Engine registration events are published via a ``PUB`` socket.
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r3600 The Hub publishes all registration/unregistration events via a ``PUB`` socket. This
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r3556 allows clients to stay up to date with what engines are available by subscribing to the
feed with a ``SUB`` socket. Other processes could selectively subscribe to just
registration or unregistration events.
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