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I understand that the new TPL (Task Parallel Library) has implemented the Parallel.ForEach() such that it works with "expressed parallelism." Meaning, it does not guarantee that your delegates will run in multiple threads, but rather it checks to see if the host platform has multiple cores, and if true, only then does it distribute the work across the cores (essentially 1 thread per core).

If the host system does not have multiple cores (getting harder and harder to find such a computer) then it will run your code sequenceally like a "regular" foreach loop would. Pretty cool stuff, frankly.

Normally I would do something like the following to place my long running operation on a background thread from the ThreadPool:

ThreadPool.QueueUserWorkItem( new WaitCallback(targetMethod), new Object2PassIn() );

In a situation whereby the host computer only has a single core does the TPL's Parallel.ForEach() automatically place the invocation on a background thread? Or, should I manaully invoke any TPL calls from a background thead so that if I am executing from a single core computer at least that logic will be off of the GUI's dispatching thread?

My concern is if I leave the TPL in charge of all this I want to ensure if it determines it's a single core box that it still marshalls the code that's inside of the Parallel.ForEach() loop on to a background thread like I would have done, so as to not block my GUI.

Thanks for any thoughts or advice you may have ...

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Just a quick follow up on this: TPL Rocks! Can't get over just how much faster I'm able to make various apps with just a few small adjustments using TPL calls versus the "standard" fare. I'm watching processing times on various items cut by upwards of 80%. MS really knocked it out of the park on this one - great job guys. – BonanzaDriver Jan 6 '11 at 1:52
up vote 18 down vote accepted

Your assumptions are incorrect.
Parallel.For is, always, a blocking call.

Even if the computer has multiple cores, it will still wait for all of the threads to finish before returning.

If you don't want to freeze the UI, you will always need to explicitly call the ThreadPool.

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Cool - thanks SLaks – BonanzaDriver Jan 5 '11 at 2:32
Could always stick it into a Task, and use a continuation to wait for it's completion, and then notify the UI. – Claus Jørgensen Jan 5 '11 at 2:52

Through my experience with Parallel.ForEach and Parallel.For loops, I have noticed that the order can be out of order, something you might want to consider before you implement.

Such as a basic for loop will produce:

Product 1 Product 2 Product 3 Product 4

And the Parallel loop can produce, but not always:

Product 3 Product 1 Product 2 Product 4

Just keep that in mind lads.

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I think if you have exact requirements about instance/thread count, you need to do it yourself. I get the impression that the Parallel.ForEach type of calls are for declaratively getting cores involved. I don't know for certain, but I have a sneaky suspicion that it would be a bad choice for something that does blocking i/o (as an example).

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From the documentation I have read so far it was originally conceived for "processor bound" problem sets. But, this isn't to rule out using it for IO. In fact, what got me to take a serious look at the TPL is the fact that I have an app that performs approximately 7,800 web queries ... I have a dual quad core processor box (3.0 GHz Xeons) that is running 24GB of RAM on Windows 7 Ultimate 64-bit edition ... and those take ~25 to 28 minutes to complete. There's some additional processing of the download HTML, but you get my point. I changed this to a TPL call and it took < 5 minutes. – BonanzaDriver Jan 5 '11 at 2:39

Good question. I would assume that it will still spawn a thread even there is only a single core.

I would have to run a test on a single core machine. Since I don't have one, I will use virtual machine and set the it environment CPU to 1 and see how many thread the the Parallel ForEach will spawn.

You may want to read the following:

Does Parallel limit the Number of Active Threads

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