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I have a embarrassingly parallel problem that I want to execute on multiple processors. I had supposed that boost::thread would automatically send new threads to new processors, but all of them are executing on the same core as the parent process. Is it possible to get each thread to run on a different processor, or do I need something like MPI?

My suspicion is that boost::thread is simply not a multi-processor tool, that I'm asking it to do something it's not designed for.

EDIT: my question boils down to this: Why do all the threads execute on one processor? Is there a way to get boost::thread to send threads to different processors?

Here's the relevant sample of my code:

size_t lim=1000;
std::deque<int> vals(lim);
std::deque<boost::thread *> threads;
int i=0; 
std::deque<int>::iterator it = vals.begin();
for (; it!=sigma.end(); it++, i++) {
  threads.push_back(new boost::thread(doWork, it, i));
  while (threads.size() >= maxConcurrentThreads) {
    threads.front()->join();
    delete threads.front();
    threads.pop_front();
  }
}
while(threads.size()) {
  threads.front()->join();
  threads.pop_front();
}

As should be clear, doWork does some calculation using the parameter i and stores the result in vals. My idea was that setting maxConncurrentThreads to be equal to the number of cores available, and then each thread would use the core that was idle. I just need someone to confirm that boost::thread cannot be made to work in this way.

(I'd guess that there's a better way to limit the number of concurrent threads than using a queue; feel free to scold me for that as well.)


Here's the doWork function:

void doWork(std::deque<int>::iterator it, int i) {
  int ret=0;
  int size = 1000; // originally 1000, later changed to 10,000,000
  for (int j=i; j<i+size; j++) {
    ret+=j;
  }
  *it=ret;
  return;
}

EDIT: As Martin James suggested, the problem was that the doWork function was initially only 1000 int additions. With such a small job, scheduling the thread took longer than executing the thread, so only one processor was in use. Making the job longer (adding 10,000,000 ints) yielded the desired behavior. The point being: boost::thread will use multiple cores by default, but if your threads do less work than scheduling the thread then you won't see any benefit from multithreading.

Thanks to everyone for aiding my understanding in this.

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1  
Right, multiple threading and multiprocessing are quite different concepts, and boost::thread supports the former. –  juanchopanza Apr 25 '12 at 16:06
    
Sounds like MPI to me... welcome to my world ! –  Scottymac Apr 25 '12 at 16:21
2  
I don't think that has anything to do with MPI, he is only mixing the words multiprocessor and multicore system. –  bamboon Apr 25 '12 at 16:25
    
@juanchopanza I understand you to be saying that boost::thread cannot be made to send each thread to a different core. Is that right? –  flies Apr 25 '12 at 16:37
1  
Usually, you can tell if something like this is working by listening. If I load up my box with 8 100% CPU threads, the CPU fan revs up within a couple of seconds. –  Martin James Apr 25 '12 at 18:48
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1 Answer 1

up vote 5 down vote accepted

You are always joining the first thread in the queue. If this thread is taking a long time it might be the only thread left. I guess what you want is to start a new thread once any thread has completed.

I don't know why you only get an effective concurrency level of only one though.

After having looked at the doWork function I think that it is doing so little work that it is taking less work than starting a thread in the first place. Try running it with more work (1000x).

share|improve this answer
    
did you mix deque with queue? –  bamboon Apr 25 '12 at 16:17
    
The code starts to join only if threads.size() >= maxConcurrentThreads. –  megabyte1024 Apr 25 '12 at 16:21
    
@megabyte1024 that doesn't matter because if the first thread in the deque takes much longer than the others, all the others will finish before the first one and the only one running at a time is the first one. –  bamboon Apr 25 '12 at 16:22
2  
Actually, my recommendation is to use a thread-pool. It will handle all of this for you. stackoverflow.com/questions/4084777/… –  usr Apr 25 '12 at 16:26
2  
Adding 1000 numbers together? That thread is probably done by the time you get to creating the second thread, so the second thread may well run on the same core because that core has the process context already set. Do some heavier work! –  Martin James Apr 25 '12 at 16:42
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