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I've finished writing a program that does a long operation (that involves network access, disk access or anything really) in set times every day.

I've thought of several ways to implement concurrency into it in a way that would make use the most of having several cores and realized I usually fall into one of two methods of implementing parallelism:

  • Configurable amount of workers using a concurrent queue for message passing
  • Spawning lots of threads (this is .NET so tasks, and they're managed for me) and waiting for them to end

This got me thinking whether I was overusing those two 'design patterns' and whether there was a better way to implement parallelism into a system?

What other concurrent design patterns are there? What are their best uses? For those that I came up with, what are their best uses?

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closed as not constructive by Gilles, Robert Harvey Aug 20 '12 at 22:15

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2 Answers 2

There's also MapReduce. You can parallelize the computation if you have multiple cores or multiple nodes.

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You can also use the thread-pool available in .net. It's quite good, and it will automatically take care of the tasks you'll queue in.

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I do use the threadpool, this question is more on how to use the threadpool. –  Ziv Aug 22 '12 at 5:18
    
Ok, so thinking about the problem a bit more I think the configurable worker threads are better. One reason for this is that the .Net thread Pool will try to execute concurrently as many tasks as many virtual CPUs the pc has. Because you've mentioned that tasks are going to involve network and IO operations, this will make each thread to go to a sleep thread for a while, so I think its better to spawn more tasks at once than the number of CPUs. About the exact number, this depends on exactly what the operations are doing. –  mkArtak Aug 22 '12 at 7:54

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