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As already stated in the title I have a large number of threads (probably much higher than 100) that are rather saving a program state than running. I want only few of them (enough to use all physical processors) to really run concurrent and the rest should wait until one of the running is blocked. When this happens a new one should be running.

Is it possible to achieve this with pthreads for example with the pthread scheduling functions? How would you do this?



EDIT More Information: Each thread fetches a job from the taskpool on its own and goes on to a certain point. I need 100 threads to gather at that certain point of program execution that cannot be calculated in parallel. When the calculation is done the threads should be awakened and go on. To make this efficient I have to avoid the scheduler from wasting time on switching between 100 threads instead of 4.

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You should probably explain why you need 100s of threads instead of 4 threads which execute as a thread pool. –  Zan Lynx Jul 11 '11 at 16:53
I had to include it into a framework without changing its structure. I could have programmed it for only 4 threads but that would have changed the whole framework. So the only solution I found was having that much threads that pass the framework the usual way and are halted at the gathering point. –  Nobody Jul 11 '11 at 16:55
Are you aware of Python's Global Interpreter Lock? It prevents more than one thread at a time from concurrently accesssing Python objects, regardless of the number of physical processors or cores in your computer. This occurs at a level below your threads and semaphores. –  sizzzzlerz Jul 11 '11 at 16:58
As I use c++ I don't see where Python is coming in. –  Nobody Jul 11 '11 at 16:59
Oops, my mistake. I should read the tags before typing. –  sizzzzlerz Jul 11 '11 at 17:18

4 Answers 4

up vote 2 down vote accepted

Just use a semaphore with initial count of 4?

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I need the full 100 to reach a point to trigger execution. Maybe I get you wrong, could you explain a little more? I already use semaphores but in other problem fields. –  Nobody Jul 11 '11 at 16:42
Sometimes it is that simple. My thoughts sometimes go to complex when I do not find a quick solution. –  Nobody Jul 11 '11 at 16:50

You could always launch 4 at a time, assigning them to a thread group, then waiting with a join all on the thread group. But I think more information is needed to develop a really useful answer.

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  • Initialize a global variable to the number of threads to run concurrently.
  • When a thread wants to do work it obtains a slot. Using a mutex and condition variable, it waits until slots_available > 1. It then decrements slots_available releases the mutex and proceeds with its work.
  • When a thread has completed its work, it releases the slot by locking the mutex and incrementing slots_available. It signals all threads waiting on the condition variable so they can wake and see if slots_available > 1.
  • See https://computing.llnl.gov/tutorials/pthreads/#Mutexes for specific pthread library calls to use for the above.
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Sounds to me like simulating a semaphore? –  Nobody Jul 11 '11 at 20:21
Agreed, but note that pthreads does not provide a semaphore implementation, but it does provide mutexes and condition variables. –  Dennis Ruck Jul 25 '11 at 16:28

I don't know how to do this with pthread functions, but I do have an idea:

I would implement this by adding some intelligence to the threadpool/taskpool to count the number of active threads and only make 4 - number of active threads available at any one time. This could be done by having an idle queue, a ready queue, and an active queue (or just active count). Tasks would grab from the ready queue, and the threadpool would only migrate tasks from the idle queue to the ready queue conditionally.

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