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The current setup goes something like this

array
|> Seq.map (fun item -> async { return f item})
|> Async.Parallel
|> Async.RunSynchronously

The problem is, this tends to create too many threads and crash the application periodically.

How to limit the number of threads in this case (to, say, Environment.ProcessorCount)?

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I'm confused by this. I was under the impression that F# used some kind of thread pool with a processor count limitation already. Not true? –  Zan Lynx Sep 17 '10 at 22:46
1  
As Zan mentioned above, I believe Async works with a thread pool that has an upper bound. Are you sure the issue is not within f? –  Paul Sep 17 '10 at 22:58
1  
Then the question becomes, can you set the upper bound on the membership of that thread pool manually? –  Alexander Sep 17 '10 at 23:23
4  
As far as I know, the maximum number is as specified with System.Threading.ThreadPool.SetMaxThreads. I didn't test this assumption, though. (There is only one thread pool per process in .NET.) See msdn.microsoft.com/en-us/library/y5htx827.aspx –  wmeyer Sep 17 '10 at 23:26
1  
what's the stack trace of the crash? –  Mauricio Scheffer Sep 17 '10 at 23:39

3 Answers 3

up vote 3 down vote accepted

If you want to parallelize CPU-intensive calculation that takes an array (or any sequence) as an input, then it may be a better idea to use PSeq module from the F# PowerPack (which is available only on .NET 4.0 though). It provides a parallel versions of many standard Array.xyz functions. For more information, you can also look at F# translation of Parallel Programming with .NET samples.

The code to solve your problem would be a bit simpler than using workflows:

array |> PSeq.map f
      |> PSeq.toArray 

Some differences between the two options are:

  • PSeq is created using Task Parallel Library (TPL) from .NET 4.0, which is optimized for working with a large number of CPU-intensive tasks.
  • Async is implemented in F# libraries and supports asynchronous (non-blocking) operations such as I/O in the concurrently running operations.

In summary, if you need asynchronous operations (e.g. I/O) then Async is the best option. If you have a large number of CPU-intensive tasks, then PSeq may be a better choice (on .NET 4.0)

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We have solved it differently, but this is a good answer. Unfortunately, we can't use .NET 4.0. –  Alexander Sep 30 '10 at 15:07

There are a couple things you might do.

First, since this uses the ThreadPool, you can use ThreadPool.SetMaxThreads.

Second, you could introduce your own throttle along these lines:

let throttle = makeThrottle(8)
array 
|> Seq.map (fun item -> async { do! throttle.Wait()
                                return f item}) 
|> Async.Parallel 
|> Async.RunSynchronously 

makeThrottle() would not be too hard to write, but it would incur a little synchronization overhead. If you are trying to parallelize so many things that you're running out of memory, the throttle overhead is likely to be a non-issue. (Let me know if you need a sample for this kind of code.)

Finally, if this is really crashing things, it smells like you may be doing something wrong. The ThreadPool typically (but not always) does a good job managing itself. But in various circumstances, designing your own throttle may be valuable to your app anyway.

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Here is a working example of how to do this using a Semaphore, in the spirit of Brian's suggestion:

open System

let throttle n fs =
    seq { let n = new Threading.Semaphore(n, n)
          for f in fs ->
              async { let! ok = Async.AwaitWaitHandle(n)
                      let! result = Async.Catch f
                      n.Release() |> ignore
                      return match result with
                             | Choice1Of2 rslt -> rslt
                             | Choice2Of2 exn  -> raise exn
                    }
        }

let f i = async { printfn "start %d" i
                  do! Async.Sleep(2000)
                }
let fs = Seq.init 10 f

fs |> throttle 2 |> Async.Parallel |> Async.RunSynchronously |> ignore
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