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I have created an application which uses the pipeline pattern to do some processing. However, I noticed that when the pipeline is run multiple times in a row it tends to get slower and slower.

This is also the case when no actual processing is done in the pipeline stages - so I am curious if maybe my pipeline implementation has a problem.

This is a simple test program which repoduces the effect:

#include <iostream>
#include <boost/thread.hpp>

class Pipeline {

    void processStage(int i) {

        return;
    }


public:

    void run() {


        boost::thread_group threads;

        for (int i=0; i< 8; ++i) {

            threads.add_thread(new boost::thread(&Pipeline::processStage, this, i));
        }

        threads.join_all();
    }
};



int main() {


    Pipeline pipeline;

    int n=2000;
    for (int i=0;i<n; ++i) {

            pipeline.run();

            if (((i+1)*100)/n > (i*100)/n) 
                std::cout << "\r" << ((i+1)*100)/n << " %";
    }

}

In my understanding the threads are created in run() and at the end of run() they are terminated. So the state of the program at the beginning of the outer loop in the main program should always be the same...

But what I observe is an increating slowdown when processing this loop.

I know that it would be more efficient to keep the pipeline threads alive thoughout the whole program - but I need to know if there is a problem with my pipeline implementation.

Thanks! Constantin

share|improve this question
    
looks correct to me, must be some other side effect – Inverse Jun 7 '11 at 13:06
1  
It seems to me all this code benchmarks is how quickly your OS can create and destroy threads. How is this useful? – ildjarn Jun 7 '11 at 14:47
    
@ildjam: This code is not useful by intention - it is the minimal code to reproduce the described effect. – Constantin Jun 8 '11 at 6:25
    
Its the number of time your loop is executed.. nearly like 2000 * 8 times – user90150 Jun 8 '11 at 16:24

I do not know the exact reason for the slowdown in run(), but when I use the code obove and insert a little sleep (500ms) at the end of the loop in main() then the slowdown of run() is gone. So the system seems to need some "recover time" until it is able to create new threads.

share|improve this answer

Since you do new boost::thread() did you try to clean them up? If you run on windows, see the Task Manager about the number of threads opened by the process and if required close the thread handles. I suspect, The number of threads created by the system is keep increasing..

share|improve this answer
2  
The boost::thread_group destructor will delete all thread objects in the group, so this won't be the problem. – Anthony Williams Jun 7 '11 at 13:36

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