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I am using zeromq to solve a problem which involves several hundred (potentially thousands) clients request tasks to be carried out. Each client would request for a specific task to be carried out, and the result(s), when completed, whould be returned back to the client that issued that request.

These are the actors that I have identified so far, in the pattern I have come up with:

  • Client: this is the actor that requests a unit of work (or 'job') to be carried out
  • Controller: this is the actor that loadbalances the 'jobs' accross available engines
  • Engine: this is the actor that receives a job request from the controller and publishes the result back to the client.

I still haven't yet worked out how the engine gets the mesage back to the client. I am guessing that one way for this to be implemented using zeromq would be:

PUSH job messages on one socket to Controller SUBscribe to completed results on PUBlished by Engine, on another socket

PULL job messages from client on one socket PUBlish job messages to engines on another socket (clearly, this will be a forwarding device)

SUBscribe to job messages on one socket PUBlish result to another socket

It would be most helpful if someone provide a skeleton/snippet which will show the outline of how this pattern may be implemented, using the zeromq framework.

The code snippet can be in C, C++, PHP, Python or C#


After reading up on Task Farms (as suggested by akappa). I think this problem can indeed be modelled by a Task Farm. I have modified my original actors accordingly (and changed the title too).

It would still be very useful if someone who is familiar with zeromq, can sketch out a skeleton that would show how I can use the core components to build such a framework.

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The only thing jumping out at me, is that it seems client and worker is the same thing. They both request a unit of work, do it and reply back when it is done. –  CodeReaper Oct 18 '11 at 15:07
@CodeReaper: Not exactly - perhaps my original question was not well formed. I have updated the question after akappa pointed me in the right direction. –  Homunculus Reticulli Oct 18 '11 at 16:45

2 Answers 2

up vote 5 down vote accepted

There are a variety of approaches to this, and IPython.parallel includes two such implementations with ZeroMQ - one simple and pure-zmq, and another that is more elaborate, with the Controller implemented in Python.

We split the Controller into two actors:

  1. Hub - an out-of-the-way process that sees all traffic, and keeps track of the state of the cluster, pushing results to a database, etc., notifying clients about engine connect/disconnect, etc.
  2. Scheduler - at its core, a simple ROUTER-DEALER device that forwards requests from the client(s) to the engines, and the replies back up.

Looking at just the task-farming part of our topology:

  • Scheduler is a 0MQ Queue device, with a ROUTER and DEALER socket, both of which bind.
  • Clients have DEALER sockets, connected to the Scheduler's ROUTER
  • Engines have ROUTER sockets connected to the Scheduler's DEALER

Which makes use of these two properties:

  • DEALERS LRU load-balance requests across peers
  • ROUTERs use identity prefixes to send replies back to the peer that made a particular request.

A toy load-balanced task farm with pyzmq, which routes replies back up to the requesting client: https://gist.github.com/1358832

An alternative, where the results go somewhere, but not back up to the requesting client, is the Ventilator-Sink pattern in the 0MQ Guide.

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+1 for the code. I just downloaded it! –  Homunculus Reticulli Nov 27 '12 at 9:17

This is a classical master/slave parallel pattern (also known as "Farm" or "Task Farm").

There are billion ways to implement it. Here there is a way to implement it using MPI, maybe it can be inspirational to you for implementing it in zeromq.

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+1 for identifying the pattern that models this problem. I have looked at the link you provided and am studying the code. In the event that no one is able to come up with a snippet/outline that shows how to use zeromq to implement this pattern, I will accept your answer by default. –  Homunculus Reticulli Oct 18 '11 at 16:46

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