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Dear all,
I want to use MPI (MPICH2) on windows. I write this command:


And I expect it blocks all Processors until all group members have called it. But it is not happen. I add a schematic of my code:

int a;  
if(myrank == RootProc)  
   a = 4;  
cout << "My Rank = " << myrank << "\ta = " << a << endl;  

(With 2 processor:) Root processor (0) acts correctly, but processor with rank 1 doesn't know the a variable, so it display -858993460 instead of 4.

Can any one help me?

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3 Answers 3

up vote 6 down vote accepted

You're only assigning a in process 0. MPI doesn't share memory, so if you want the a in process 1 to get the value of 4, you need to call MPI_Send from process 0 and MPI_Recv from process 1.

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Thanks. It's true, but I have another question. As I know barrier blocks the caller until all group members have called it, but I tested and saw that process 1 pass this function (by writing a sentence, cout) and root process (0) is before the barrier. What's the problem? Thanks –  aryan Jan 13 '10 at 21:35
You can't trust the order of output statements from different processes. If you're unsure, make sure your clocks are sync and output time() before and after the barrier. –  eduffy Jan 14 '10 at 1:57
Don't expect clocks on different processors to be in such close synchronisation that the times they report allow you to correctly sequence output statements. The MPI_Barrier synchronises processes, not clocks. –  High Performance Mark Jan 14 '10 at 2:31
So, how can I ensure that MPI_Barrier act correctly? –  aryan Jan 14 '10 at 6:50
Until you've done a lot of MPI programming, like a couple of year's solid practice, I don't think you should even let it cross your mind that the MPI_Barrier is not working correctly. All the MPI libraries I have ever used were written in organisations with high reputations for product quality. If you think there is something wrong with a barrier, it is overwhelmingly more likely that you have made a mistake (in thinking or in coding) than that the barrier itself is faulty. –  High Performance Mark Jan 14 '10 at 19:22

Variable a is not initialized - it is possible that is why it displays that number. In MPI, variable a is duplicated between the processes - so there are two values for a, one of which is uninitialized. You want to write:

int a = 4;
if (myrank == RootProc)

Or, alternatively, do an MPI_send in the Root (id 0), and an MPI_recv in the slave (id 1) so the value in the root is also set in the slave.

Note: that code triggers a small alarm in my head, so I need to check something and I'll edit this with more info. Until then though, the uninitialized value is most certainly a problem for you. Ok I've checked the facts - your code was not properly indented and I missed the missing {}. The barrier looks fine now, although the snippet you posted does not do too much, and is not a very good example of a barrier because the slave enters it directly, whereas the root will set the value of the variable to 4 and then enter it. To test that it actually works, you probably want some sort of a sleep mechanism in one of the processes - that will yield (hope it's the correct term) the other process as well, preventing it from printing the cout until the sleep is over.

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Blocking is not enough, you have to send data to other processes (memory in not shared between processes).

To share data across ALL processes use:

int MPI_Bcast(void* buffer, int count, MPI_Datatype datatype, int root, MPI_Comm comm )

so in your case:

MPI_Bcast(&a, 1, MPI_INT, 0, MPI_COMM_WORLD);

here you send one integer pointed by &a form process 0 to all other. //MPI_Bcast is sender for root process and receiver for non-root processes

You can also send some data to specyfic process by:

int MPI_Send( void *buf, int count, MPI_Datatype datatype, int dest, 
              int tag, MPI_Comm comm )

and then receive by:

int MPI_Recv(void* buf, int count, MPI_Datatype datatype, int source, int tag, MPI_Comm comm, MPI_Status *status)
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