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Lets say a FIFO(one which is thread safe) has items being added to it ( we dont care how)

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Now lets say the items (one by one) should be inserted to another concurrent collection .

The rate of data insertion is dynamic.

I want to do it in the fastest way. ( transfer all the elements from the Fifo to the collection).

But I'm having a conflict :

  • I could use one thread to pull out items from the Fifo and insert them into the collection. but then I wont be using cores / other threads which can help me.

  • I could use several consumer threads to take items from Fifo , but then maybe the internal locking on the Fifo (when reading), and the internal locking on the collection(when writing) will eventually reduce performance.

I mean , there will be a situation where if I have enormousness consumer threads , there will be also enormousness internal locking with the fifo / collection , plus many many context switching

How can I approach this kind of problem the right way? What is the guideline ?

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have you considered using ConcurrentBag<T> ? –  daryal Jan 9 '13 at 7:28
@daryal The Whole question is regarding thread safe collection. –  Royi Namir Jan 9 '13 at 7:30
I do not see how is this question is related to exactly .NET. The problem may attract more users and result in more interesting discussion if all developers working with multithreading would look into it. –  h22 Jan 9 '13 at 7:33
Im talking about concurrent collections from .net framework. maybe it is working in another way in construct to java. or maybe there is another solution in .net which can solve this. the .net tag should be there. –  Royi Namir Jan 9 '13 at 7:35
@Audrius Meškauskas: On the other hand, the C# tag is the most popular, so you're technically reducing the question's potential audience by removing the tag. –  Tudor Jan 9 '13 at 7:35

4 Answers 4

up vote 1 down vote accepted

Multiple threads contending for the same concurrent collection will always be a bottleneck situation. The problem usually gets worse the more threads you have, but the rate of degradation depends on the locking mechanisms. I expect that the new concurrent collections in .NET 4.0 are lock-free, or at least use non-blocking locks, so they should be contention-friendly to a certain degree.

Since the question seems to be open-ended, I suggest that you simply experiment with various numbers of threads and find a balance between the fifo contention and the throughput you want to achieve.

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Not lock free (at least ConcurrentBag/ConcurrentDictionary aren't) they use "intelligent" locking - ConcurrentQueue seems to be using SpinWait to block –  mlorbetske Jan 9 '13 at 7:43
@mlorbetske: As long as they don't use blocking locks they're still rather efficient. And certainly the style of locking depends on the access patterns. Hashtable-like structures will always use different locking than queues, but we're talking about fifo here. –  Tudor Jan 9 '13 at 7:48
100% agree, was just going for the clarification, a lock-free collection would be CAS only or CAS + SpinWait (or some other caller-thread-only blocking mechanism). ConcurrentBag/ConcurrentDictionary still use Monitor for locking but do it only in the cases where required. The alternative to both approaches, of course, being to take collection level locks at any mutation/state inspection - and yes, the concurrent collections in .Net 4 are way better than that. –  mlorbetske Jan 9 '13 at 7:53
Some lock free collections in java have a throughput which improves almost linearly with the number of threads (up to # processors of course). I would expect .net to have something similar. –  assylias Jan 9 '13 at 7:57

If you are doing minimal processing between the collections, use only one thread. If you have multiple destination collections,then you might want to use multiple threads. Or if the data structures at both ends are complex structures with advanced locking , which actually support multithreaded insertion instead of just locking stuff.

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I would consider using Task Parallel Library (TPL) for this.

You could keep a queue and when it has items let the parallel framework do all the heavy lifting for you. No need to handle your own thread pool with all the hairy code managing threads.

Must confess I have not done this myself as of yet, but if I was in your situation I would refresh my TPL skillz and start thinking in terms of Task rather than thread x.

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This could be done by several non interacting threads if we have access to the internals of both collections. For instance, if that stack is a linked list of known size, the two threads could process it from the both ends till they meet, and they could build a new linked list one appending elements to the tail and another to the head.

From the other side, if the stack is also an array, probably nothing can be faster than some analog of memcpy on a single thread.

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