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Dear all,
How can I be sure that MPI_Barrier act correctly? What's the method of test for that?
Thank you

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2  
Tests can only prove the presence of bugs, not their absence. –  MSalters Jan 14 '10 at 8:48

3 Answers 3

I think that to be sure that the MPI_Barrier is working correctly you have to write a program which is guaranteed to behave differently for working and non-working barriers.

I don't think that @Neeraj's answer is guaranteed to behave that way. If the barrier is working correctly the processes will all write their first output lines before any writes a second output line. However it is possible that this will happen even in the absence of the barrier (or where the barrier has failed completely if you want to think of it this way). My assertion does not depend on the very short sleep times he suggests (5ms*rank). Even if you suppose that the processes wait (5s*rank) it is possible that the statements would appear in the barrier-imposed order in the absence of the barrier. Unlikely I grant you, but not impossible, especially when you have to consider how the o/s buffers multiple writes to stdout -- you might actually be testing that process not the barrier. Oh you cry even the most inaccurate computer clock will result in process 1 waiting enough less time than process 2 to show the correct working of the barrier. Not if the o/s preemptively grabs processor 1 (on which process 1 is trying to run) for 10s it doesn't.

Dependence on the on-board clocks for synchronisation actually makes the program less deterministic. All the processors have their own clocks, and the hardware doesn't make any guarantees that they all tick at exactly the same rate or with exactly the same tick length.

Nor does that test adequately explore all the failure modes of the barrier. At best it only explores the complete failure; what if the implementation is actually a leaky barrier, so that occasionally a process gets through before the last process has reached the barrier ? Off-by-one errors are incredibly common in programs. Or perhaps the barrier code was written 3 years ago and only has enough memory to record the arrival of, say, 2^12==4096 processes and you've put it on a brand new machine with 2^18 processors; the barrier is more of a weir than a dam.

I haven't thought about this deeply until now, I've never suspected that any of the MPI implementations I've used had faulty barriers, so I don't have a good suggestion about how to thoroughly test a barrier. I'd be inclined to use a parallel debugger and examine the execution of the program through the barrier, but that's not going to provide a guarantee of correct behaviour.

It's an interesting question though.

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i partially agree with you Mark, the sleep solution doesn't guarantee detection of a faulty barrier. Although the probability of detection can increase if the sleep time is increased. Also you should note that the arguments to sleep() are actually in seconds. –  sud03r Jan 14 '10 at 17:37
    
Hmmm, I'm not a C++ programmer so I Googled for a definition of the sleep() function, the first useful hit I got was this msdn.microsoft.com/en-us/library/ms686298(VS.85).aspx. They look like milliseconds to me. I guess sleep() is not part of the C++ language or library standards. But that's not really the point. –  High Performance Mark Jan 14 '10 at 17:55
    
A sleep() call which takes the argument in seconds is in POSIX. See e.g. opengroup.org/onlinepubs/000095399/functions/sleep.html Of course, one should include unistd.h in order to use it. –  janneb Jan 14 '10 at 18:08
    
Thanks for your time. But I should study more about this topic. So let me know if you have any opinions. Kind Regards –  aryan Jan 16 '10 at 9:38
    
@aryan. My opinion is that you should not worry that MPI_Barrier is not working until you have overwhelming evidence to back up your worries. Don't forget that MPI puts in barriers for some other operations too -- don't worry about them either. –  High Performance Mark Jan 16 '10 at 12:48

#include <mpi.h>

int main (int argc , char *argv[])
{
  int rank;

  MPI_Init (&argc, &argv);      /* starts MPI */
  MPI_Comm_rank (MPI_COMM_WORLD, &rank);        /* get current process id */

  sleep(5*rank); // make sure each process waits for different amount of time
  std::cout << "Synchronization point for:" << rank << std::endl ;
  MPI_Barrier(MPI_COMM_WORLD) ;
  std::cout << "After Synchronization, id:" << rank << std::endl ;

  MPI_Finalize();
  return 0;
}
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K&R C in 2010? Wow.. –  janneb Jan 14 '10 at 8:08
    
For a question tagged C++. :( –  MSalters Jan 14 '10 at 8:47
    
i think, it would now work for a question tagged C++ –  sud03r Jan 14 '10 at 10:57
    
Not entirely sure - couldn't std::cout have its own barriers (MPI or otherwise)? –  MSalters Jan 14 '10 at 16:27

Allen Downey in his book The Little Book of Semaphores says this (about a reusable barrier algorithm he presents):

Unfortunately, this solution is typical of most non-trivial synchronization code: it is difficult to be sure that a solution is correct. Often there is a subtle way that a particular path through the program can cause an error.

To make matters worse, testing an implementation of a solution is not much help. The error might occur very rarely because the particular path that causes it might require a spectacularly unlucky combination of circumstances. Such errors are almost impossible to reproduce and debug by conventional means.

The only alternative is to examine the code carefully and “prove” that it is correct. I put “prove” in quotation marks because I don’t mean, necessarily, that you have to write a formal proof (although there are zealots who encourage such lunacy).

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