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Maybe I did not understand it right ... all the Parallel class issue :(

But from what I am reading now, I understand that when I use the Parallel I actually mobilize all the threads that exists in the threadPool for some task/mission.

For example:

  var arrayStrings = new string[1000];
  Parallel.ForEach<string>(arrayStrings, someString =>

So the Parallel.ForEach in this case is mobilizing all the threads that exists in the threadPool for the 'DoSomething' task/mission.

But does the call Parallel.ForEach will create any new thread at all?

Its clear that there will be no 1000 new threads. But lets assume that there are 1000 new threads, some case that the threadPool release all the thread that it hold so, in this case ... the Parallel.ForEach will create any new thread?

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Parallel.ForEach - "Executes a foreach (For Each in Visual Basic) operation in which iterations may run in parallel." –  Damien_The_Unbeliever Jun 1 '12 at 12:24

4 Answers 4

up vote 9 down vote accepted

Short answer: Parallel.ForEach() does not “mobilize all the threads”. And any operation that schedules some work on the ThreadPool (which Parallel.ForEach() does) can cause creation of new thread in the pool.

Long answer: To understand this properly, you need to know how three levels of abstraction work: Parallel.ForEach(), TaskScheduler and ThreadPool:

  1. Parallel.ForEach() (and Parallel.For()) schedule their work on a TaskScheduler. If you don't specify a scheduler explicitly, the current one will be used.

    Parallel.ForEach() splits the work between several Tasks. Each Task will process a part of the input sequence, and when it's done, it will request another part if one is available, and so on.

    How many Tasks will Parallel.ForEach() create? As many as the TaskScheduler will let it run. The way this is done is that each Task first enqueues a copy of itself when it starts executing (unless doing so would violate MaxDegreeOfParallelism, if you set it). This way, the actual concurrency level is up to the TaskScheduler.

    Also, the first Task will actually execute on the current thread, if the TaskScheduler supports it (this is done using RunSynchronously()).

  2. The default TaskScheduler simply enqueues each Task to the ThreadPool queue. (Actually, it's more complicated if you start a Task from another Task, but that's not relevant here.) Other TaskSchedulers can do completely different things and some of them (like TaskScheduler.FromCurrentSynchronizationContext()) are completely unsuitable for use with Parallel.ForEach().

  3. The ThreadPool uses quite a complex algorithm to decide exactly how many threads should be running at any given time. But the most important thing here is that scheduling new work item can cause the creating of a new thread (although not necessarily immediately). And because with Parallel.ForEach(), there is always some item queued to be executed, it's completely up to the internal algorithm of ThreadPool to decide the number of threads.

Put together, it's pretty much impossible to decide how many threads will be used by a Parallel.ForEach(), because it depends on many variables. Both extremes are possible: that the loop will run completely synchronously on the current thread and that each item will be run on its own, newly created thread.

But generally, is should be close to optimal efficiency and you probably don't have to worry about all those details.

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Parallel.Foreach does not create new threads, nor does it "mobilize all the threads". It uses a limited number of threads from the threadpool and submits tasks to them for parallel execution. In the current implementation the default is to use one thread per core.

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That's simply not true. If the code inside Parallel.ForEach() blocks or runs for a long time, more threads than the number of cores will be used. –  svick Jun 1 '12 at 13:40

I think you have this the wrong way round. From PATTERNS OF PARALLEL PROGRAMMING you'll see that Parallel.ForEach is just really syntactic sugar.

The Parallel.ForEach is largely boiled down to something like this,

for (int p = 0; p < arrayStrings.Count(); p++)

The ThreadPool takes care of the scheduling. There are some excellent articles around how the ThreadPool's scheduler behaves to some degree if you're interested, but that's nothing to do with TPL.

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new Thread() will always create a new thread, not use one from the threadpool. The code you posted will always create as many threads as there are items in the collection. This in no way represents Parallel.ForEach. –  Allon Guralnek Jun 1 '12 at 12:40
@AllonGuralnek you're correct, updated. –  M Afifi Jun 1 '12 at 12:54
Parallel.ForEach() is not built on top of ThreadPool, it's built on top of TaskScheduler. Also, it's smarter about the code in each Task, so that there isn't one Task per item. Another thing is that your code would not block, but Parallel.ForEach() does. –  svick Jun 1 '12 at 13:45

Parallel does not deal with threads at all - it schedules TASKS to the task framework. THat then has a scheduler and the default scheduler goes to the threadpool. This one will try to find a goo number of threads (better in 4.5 than 4.0) and the Threadpool may slowly spin up new threads.

But that is not a functoin of parallel.foreach ;)

the Parallel.ForEach will create any new thread ???

It never will. As I said - it has 1000 foreach, then it queues 10.000 tasks, Point. THe Task factory scheduler will do what it is programmed to do ((you can replace it). Generally, default - yes, slowly new threads will spring up WITHIN REASON.

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Parallel.ForEach() on a collection of n items will generally not create n Tasks, that might be too inefficient. It partitions the source collection and creates only as many Tasks as the TaskScheduler allows it to run. –  svick Jun 1 '12 at 13:44

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