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If I have 2 CPUs and schedule 1000 tasks for the fork / join framework to work on, will the tasks be executed in a maximum of 2 at a time, or will more tasks be executed in parallel on the same CPU? (say, maybe one task is waiting for I/O, in which case the CPU would become idle and another thread could run)

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If you have 2 cpus and 1 hard drive you might want to have 3 tasks or more. Its unlikely that 1000 is an optimal choice. –  Peter Lawrey Jul 6 '12 at 21:17
    
I have an unknown number of CPUs, and the I/O is just an example. It could be anything that makes CPU time available, and if it is I/O, it can also be the network for example. –  rid Jul 6 '12 at 21:26

4 Answers 4

If you do not include any restriction yourself, none will be applied and Java will fork as many threads as it can (maybe all 1000 depending on system restrictions). This is not ideal. If you're doing a computation which is likely to have some IO time but not be IO bound even at large amounts of concurrent processing, you might be able to justify running one more thread then the available number of CPUs. Running all 1000 at once would not be wise.

If I have 2 CPUs and schedule 1000 tasks for the fork / join framework to work on, will the tasks be executed in a maximum of 2 at a time, or will more tasks be executed in parallel on the same CPU?

If you have a dual core CPU, you can only actually execute 2 threads at once.

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So does the framework adjust automatically to what resources might become available and automatically run less or more tasks in parallel? For example, if 2 tasks are simply waiting for something, does it automatically run some other two tasks during this time? –  rid Jul 6 '12 at 21:29
    
If you fork 1000 times, it will try (and probably fail) to create 1000 threads. Also, thread creation is expensive, consider doing something lighter weight, like using a thread pool of a fixed size, and a work unit pool consisting of Runnables. Whether the current thread keeps running when a new one is created or whether the new one starts is environment specific. However, it's safe to assume that trying to create 1000 threads at once is a bad idea. –  Wug Jul 6 '12 at 22:05
    
Thank you, but this doesn't answer the question. –  rid Jul 6 '12 at 22:13
    
I edited my answer. –  Wug Jul 7 '12 at 0:27

According to the ForkJoin documentation:

A ForkJoinPool is constructed with a given target parallelism level; by default, equal to the number of available processors. The pool attempts to maintain enough active (or available) threads by dynamically adding, suspending, or resuming internal worker threads, even if some tasks are stalled waiting to join others. However, no such adjustments are guaranteed in the face of blocked IO or other unmanaged synchronization.

So it will probably run them two at a time on your 2 CPUs, possibly four at a time if the CPUs are hyperthreaded (I'm not certain). If you aren't happy with the default level of parallelism, you can specify a requested level of parallelism by calling the ForkJoinPool constructor that takes the level of parallelism as a parameter.

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You can't supply it with a target larger than the number of available CPUs. This is however very close to the answer I was looking for. But I don't see an explicit statement saying if the pool will run new threads if one thread is stalling. "The pool attempts to maintain enough active (or available) threads by dynamically adding, suspending, or resuming internal worker threads" <- I wonder if by "enough" they mean the target level (so if the target is 2, and 1 is stalling, spawn a new one to run until the stalling one resumes). –  rid Jul 6 '12 at 22:19
    
Ah, the docs only say the parallelism can't be set to a value greater than the "implementation limit". I didn't realize that was just the same as the default of the number of processors. As for how it deals with blocking threads, that's not clear, but I think the ForkJoinPool.ManagedBlocker class has something to do with it. I'm not sure. I would also point out that the source code is available in the JDK, although it's rather convoluted. Good luck. –  David Conrad Jul 7 '12 at 21:30
    
Well, if the docs don't explicitly say anything, then it's up to whatever implementation will run the code. Apparently, the reference implementation does nothing to automatically schedule new work while the CPU is idle. –  rid Jul 7 '12 at 22:35

Is hyperthreading enabled on the cpu? If so you may run 2+ processes at the same time.

Hyper-threading works by duplicating certain sections of the processor—those that store the architectural state—but not duplicating the main execution resources. This allows a hyper-threading processor to appear as two "logical" processors to the host operating system, allowing the operating system to schedule two threads or processes simultaneously.

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This doesn't answer the question either. The question is what happens if one of the running thread is blocked waiting for something. In that case, does the framework spawn a new one to work while the blocking one waits, or does nothing? –  rid Jul 6 '12 at 22:21
up vote 0 down vote accepted

I made a test to verify this:

import java.util.concurrent.*;

public class Test {
    private static class TestAction extends RecursiveAction {
        private int i;

        public TestAction(int i) {
            this.i = i;
        }

        protected void compute() {
            if (i == 0) {
                invokeAll(new TestAction(1), new TestAction(2), new TestAction(3),
                          new TestAction(4), new TestAction(5), new TestAction(6));
                return;   
            }             
            System.out.println(i + " start");
            try { Thread.sleep(2000); } catch (Exception e) { }
            System.out.println(i + " end"); 
        }   
    }       

    public static void main(String[] args) {
        new ForkJoinPool().invoke(new TestAction(0));
    }   
}       

The results of that running with the reference Oracle implementation is:

1 start
6 start <- wait 2 seconds
1 end
2 start
6 end
5 start <- wait 2 seconds
2 end
3 start
5 end
4 start <- wait 2 seconds
4 end
3 end

The same behavior is consistent on both Linux and Mac OS X.

So the answer to the question is: yes, the tasks will be executed on exactly the number of CPUs specified by the parallelism parameter (or the total available CPUs by default). If CPU time becomes available and the tasks simply block waiting for something, then the framework will do nothing automatically to run other tasks.

Since the documentation I've seen so far is pretty vague about what exactly the framework is supposed to do if the CPU is free, this could be an implementation detail.

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