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Java 5 has introduced support for asynchronous task execution by a thread pool in the form of the Executor framework, whose heart is the thread pool implemented by java.util.concurrent.ThreadPoolExecutor. Java 7 has added an alternative thread pool in the form of java.util.concurrent.ForkJoinPool.

Looking at their respective API, ForkJoinPool provides a superset of ThreadPoolExecutor's functionality in standard scenarios (though strictly speaking ThreadPoolExecutor offers more opportunities for tuning than ForkJoinPool). Adding to this the observation that fork/join tasks seem to be faster (possibly due to the work stealing scheduler), need definitely fewer threads (due to the non-blocking join operation), one might get the impression that ThreadPoolExecutor has been superseded by ForkJoinPool.

But is this really correct? All the material I have read seems to sum up to a rather vague distinction between the two types of thread pools:

  • ForkJoinPool is for many, dependent, task-generated, short, hardly ever blocking (i.e. compute-intensive) tasks
  • ThreadPoolExecutor is for few, independent, externally-generated, long, sometimes blocking tasks

Is this distinction correct at all? Can we say anything more specific about this?

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ThreadPool (TP) and ForkJoinPool (FJ) are targeted towards different use cases. The main difference is in the number of queues employed by the different executors which decide what type of problems are better suited to either executor.

The FJ executor has n (aka parallelism level) separate concurrent queues (deques) while the TP executor has only one concurrent queue (these queues/deques maybe custom implementations not following the JDK Collections API). As a result, in scenarios where you have a large number of (usually relatively short running) tasks generated, the FJ executor will perform better as the independent queues will minimize concurrent operations and infrequent steals will help with load balancing. In TP due to the single queue, there will be concurrent operations every time work is dequeued and it will act as a relative bottleneck and limit performance.

In contrast, if there are relatively fewer long-running tasks the single queue in TP is no longer a bottleneck for performance. However, the n-independent queues and relatively frequent work-stealing attempts will now become a bottleneck in FJ as there can be possibly many futile attempts to steal work which add to overhead.

In addition, the work-stealing algorithm in FJ assumes that (older) tasks stolen from the deque will produce enough parallel tasks to reduce the number of steals. E.g. in quicksort or mergesort where older tasks equate to larger arrays, these tasks will generate more tasks and keep the queue non-empty and reduce the number of overall steals. If this is not the case in a given application then the frequent steal attempts again become a bottleneck. This is also noted in the javadoc for ForkJoinPool:

this class provides status check methods (for example getStealCount()) that are intended to aid in developing, tuning, and monitoring fork/join applications.

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I think fork join treats recursive case differently, they should steal newer tasks in recursive cases. –  user Jun 26 '13 at 4:56
    
@user As per "A Java Fork/Join Framework" by Doug Lea: When a worker thread has no local tasks to run, it attempts to take ("steal") a task from another randomly chosen worker, using a FIFO (oldest first) rule. –  shams Sep 27 '13 at 15:04
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Should be added that the "deque" many people talk about is not a known implementation of the Deque interface. It is a an array. See the source code of ForkJoinWorkerThread. He has a package-default accessed field ForkJoinTask<?>[] queue. –  Martin Andersson Dec 3 '13 at 18:14
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Recommended Reading http://gee.cs.oswego.edu/dl/jsr166/dist/docs/ From the docs for ForkJoinPool:

A ForkJoinPool differs from other kinds of ExecutorService mainly by virtue of employing work-stealing: all threads in the pool attempt to find and execute tasks submitted to the pool and/or created by other active tasks (eventually blocking waiting for work if none exist). This enables efficient processing when most tasks spawn other subtasks (as do most ForkJoinTasks), as well as when many small tasks are submitted to the pool from external clients. Especially when setting asyncMode to true in constructors, ForkJoinPools may also be appropriate for use with event-style tasks that are never joined.

The fork join framework is useful for parallel execution while executor service allows for concurrent execution and there is a difference. See this and this.

The fork join framework also allows for work stealing (usage of a Deque).

This article is a good read.

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Perhaps you could say what that difference is. The difference between parallel and concurrent can appear rather technical and some practical examples would be useful. –  Peter Lawrey Feb 14 '12 at 12:32
    
@PeterLawrey I updated the answer to contain some links as references. –  Scorpion Feb 14 '12 at 12:48
    
BTW: What Scorpion quoted from the jsr166 web site is also part of the official JDK 7 documentation, so it seems more appropriate to me to refer people to docs.oracle.com/javase/7/docs/api/java/util/concurrent/… instead. –  Holger Peine Feb 14 '12 at 15:18
    
The article by Brian Goetz on IBM developerWorks was among the material I referred in my OP; it is indeed the best online source about the fork/join framework in Java 7. Still, it does not compare that to the older ThreadPoolExecutor-based framework. –  Holger Peine Feb 14 '12 at 15:30
    
The differentiation between "concurrent" and "parallel" by Jon Harrop in link is clearly written. However, I think that your suggestion "fork/join is for parallel, while ThreadPoolExecutor is for concurrent" is valid, but only one among several aspects of the answer to the OP. When you want to collect the results of some tasks once all of them are finished, instead of using join() you could also do this with ThreadPoolExecutor and e.g. a CountDownLatch. –  Holger Peine Feb 14 '12 at 15:36
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AFAIK, ForkJoinPool works best if you a large piece of work and you want it broken up automatically. ThreadPoolExecutor is a better choice if you know how you want the work broken up. For this reason I tend to use the latter because I have determined how I want the work broken up. As such its not for every one.

Its worth nothing that when it comes to relatively random pieces of business logic a ThreadPoolExecutor will do everything you need, so why make it more complicated than you need.

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Let me (hopefully) clarify your statement a bit: ForkJoinTasks don't break up your work automatically, but you have to program that in your task code. However, FJT helps when you need to wait for the results of such subtasks, since an FJTask can do this without blocking its thread. In contrast to that, as you said, ThreadPoolExecutor suffices when your tasks are independent ("random pieces"). –  Holger Peine Feb 14 '12 at 15:41
    
Business logic tends to be random pieces. –  Peter Lawrey Feb 14 '12 at 15:51
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