I'm using the new forkjoin framework of jdk 7. I got a task, which has to be performed multiple times with different parameters.

This task extends RecursiveTask. there are more than 100 tasks to perform, which can performed concurrently. the tasks are independent, so there should be no need for any synchronisation. Therefore I created at first the needed tasks and passed them to forkjoin thread pool. but the application becomes slower, than running it without any parallelism.

My first thought was, that i create to much threads.. Thats why i tried to recycle the threads to reduce object creation overhead, but this has no effect on the performance. for recycling im using the reinitialize() method. Also with recycling the performance is slower than running it without any parallelism.

The operations performed in the tasks are not trivial, the duration of running threads are from 5 to 150 ms. The application runs on a dualcore machine and im using ubuntu and oracle jdk 7.

  • Have you built a simple program, that simply forks a task and waits for it to complete, with the thread doing zero work, to get a sense of the context switching times? Do you know what those times are? – Ira Baxter Aug 4 '12 at 15:19
  • ... you'll note with 2 processors your speedup is at most 2x. You sure you need 100 independent tasks? – Ira Baxter Aug 4 '12 at 15:21
  • i will try out your first comment :) As said, im not using anymore 100 independent threads. I created a fixed amount of threads, which are objects that extends RecursiveTask<T> as shown in many examples, e.g. 2. Afterwards i setup the parameters of those objects and passing them to pool, to run concurrently. Afterwards i resetup the parameters, as long as elements are available, for which the tasks has to be performed. – lunatikz Aug 4 '12 at 15:29
  • Is a duration of 5 to 150 ms not enough, to use threads ? – lunatikz Aug 4 '12 at 15:37
  • What matters with parallelism is the amount of work you can, compared to the overhead to manage it. If forking costs 50 milliseconds , and you have 50 milliseconds of work to do, you have only 50% efficiency. With two CPUs you could at best hope to break even compared to one CPU. So, knowing your overhead matters. I don't know that Java forks take this long (no experience at all), and that seems like an uneasonably high number to me. Hence the suggestion to measure it. – Ira Baxter Aug 4 '12 at 16:04

Edward Harned of CoopSoft has found numerous problems with the Fork/Join design implemented in Java.

In particular, "work-stealing" suffers high contention & is inefficient at spreading work around multiple processors. Recursive decomposition is also not particularly efficient.

If your tasks are not recursive -- you say there are 100, and they can be performed concurrently -- then a simpler approach using ThreadPoolExecutor may likely be more efficient.

See:

  • 1
    Here is another good article, which gives a more balanced view IMO: moi.vonos.net/java/forkjoin . Some rules of thumb with FJPs seem to be: 1. Avoid using the common pool since the JVM/libraries might be using that. 2. Avoid blocking in a thread, since FJP is fixed size (CPU-bound tasks only) 3. Set thresholds for switching to serial from recursive, otherwise you might blow up the stack since every join() runs the new task in the same thread. So I think FJP is best for CPU-bound divide-and-merge with shallow depth but large branching (i.e. many tasks) – bhh1988 May 27 at 6:44

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