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I have an application where pthread_join is being the bottleneck. I need help to resolve this problem.

void *calc_corr(void *t) {
         begin = clock();
         // do work
         end = clock();
         duration = (double) (1000*((double)end - (double)begin)/CLOCKS_PER_SEC);
         cout << "Time is "<<duration<<"\t"<<h<<endl;

int main() {
         start_t = clock();

         for (ii=0; ii<16; ii++) 
            pthread_create(&threads.p[ii], NULL, &calc_corr, (void *)ii);

         for (i=0; i<16; i++) 
            pthread_join(threads.p[15-i], NULL);

         stop_t = clock();

         duration2 = (double) (1000*((double)stop_t - (double)start_t)/CLOCKS_PER_SEC);
         cout << "\n Time is "<<duration2<<"\t"<<endl;

         return 0;

The time printed in the thread function is in the range of 40ms - 60ms where as the time printed in the main function is in the 650ms - 670ms. The irony is, my serial code runs in 650ms - 670ms time. what can I do to reduce the time taken by pthread_join?

Thanks in advance!

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16 * 40ms = 640ms. I doubt this is a coincidence. How many cores do you have? –  ildjarn Jan 31 '12 at 22:30
print out all the begin and end's clocked in calc_corr, and see what the difference between the very first time clocked on begin and the very last clocked on end. My bet is that you will find that most of the time is spent waiting on at least one or more threads. –  Arelius Jan 31 '12 at 22:31
I have 8 cores and I am binding 2 threads per core using pthread_setaffinity_np. –  akhil28288 Jan 31 '12 at 22:32
How many cores do you have? ... and how many of them can be used? Did you verify that the different threads aren't effectively running serialized? That is, you might want to print the start/end times of the different threads, too. It may also be worth collecting the threads in the same order they are started given that the thread started first had more chance of doing work than the others. –  Dietmar Kühl Jan 31 '12 at 22:32
Your main time calculation is also paying overhead for 16 threads to do their cout printing. You should have no printing done within your timestamps –  TJD Jan 31 '12 at 22:34
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2 Answers 2

up vote 10 down vote accepted

On Linux, clock() measures the combined CPU time. It does not measure the wall time.

This is explains why you get ~640 ms = 16 * 40ms. (as pointed out in the comments)

To measure wall time, you should be using something like:

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Or clock_gettime(CLOCK_REALTIME, ...) for nanosecond resolution. –  John Zwinck Jan 31 '12 at 22:33
Thanks, added that to answer. –  Mysticial Jan 31 '12 at 22:35
thanks. I will try this. –  akhil28288 Jan 31 '12 at 22:36
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By creating some threads you are adding an overhead to your system: Creation time, scheduling time. Creating a thread require allocating the stack, etc; scheduling means more context switching. Also, pthread_join suspends execution of the calling thread until the target thread terminates. Which means you want for thread 1 to finish, when he does you are rescheduled as quick as possible but not instantly, then you wait for thread 2, etc...

Now your computer has few cores, like one or 2, and you are creating 16 threads. At best 2 threads of your program will run at the same time and just by adding their clock measurements you have something around 400 ms.

Again It depends on lot of things, so I quickly flown over what is happening.

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