Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have an upper triangular matrix and the result vector b. My program need to solve the linear system:

Ax = b

using the pipeline method. And one of the constraints is that the number of process is smaller than the number of the equations (let's say it can be from 2 to numberOfEquations-1).

I don't have the code right now, I'm thinking about the pseudo code..

My Idea was that one of the processes will create the random upper triangular matrix (A) the vector b. lets say this is the random matrix:

1  2  3   4   5   6
0  1  7   8   9   10
0  0  1   12  13  14
0  0  0   1   16  17
0  0  0   0   1   18
0  0  0   0   0   1

and the vector b is [10 5 8 9 10 5] and I have a smaller amount of processes than the number of equations (lets say 2 processes)

so what I thought is that some process will send to each process line from the matrix and the relevant number from vector b.

so the last line of the matrix and the last number in vector b will be send to process[numProcs-1] (here i mean to the last process (process 1) ) than he compute the X and sends the result to process 0.

Now process 0 need to compute the 5 line of the matrix and here i'm stuck.. I have the X that was computed by process 1, but how can the process can send to himself the next line of the matrix and the relevant number from vector b that need to be computed?

Is it possible? I don't think it's right to send to "myself"

share|improve this question
up vote 4 down vote accepted

Yes, MPI allows a process to send data to itself but one has to be extra careful about possible deadlocks when blocking operations are used. In that case one usually pairs a non-blocking send with blocking receive or vice versa, or one uses calls like MPI_Sendrecv. Sending a message to self usually ends up with the message simply being memory-copied from the source buffer to the destination one with no networking or other heavy machinery involved.

And no, communicating with self is not necessary a bad thing. The most obvious benefit is that it makes the code more symmetric as it removes/reduces the special logic needed to handle self-interaction. Sending to/receiving from self also happens in most collective communication calls. For example, MPI_Scatter also sends part of the data to the root process. To prevent some send-to-self cases that unnecessarily replicate data and decrease performance, MPI allows in-place mode (MPI_IN_PLACE) for most communication-related collectives.

share|improve this answer
thanks, MPI_Scatter sounds good, so when i send for each process the relevant line, the process whill compute, than send the result to process who need the result to compute his problem.. and after that when I have the whole X vector, I need to call MPI_Gather? – Elior Nov 5 '13 at 13:04
MPI_Scatter and MPI_Gather only work with static work distribution, i.e. when each process works on a well known in advance set of tasks. If that is your case, then go for scatter/gather. Otherwise, if each process randomly "grabs" some work items, then go for the master-worker approach (there are many questions about master-worker here on Stack Overflow - just use the search). – Hristo Iliev Nov 5 '13 at 15:42

Is it possible? I don't think it's right to send to "myself"

Sure, it is possible to communicate with oneself. There is even a communicator for it: MPI_COMM_SELF. Talking to yourself is not too uncommon. Your setup sounds like you would rather use MPI collectives. Have a look at MPI_Scatter and MPI_Gather and see if they don't provide you with the functionality, you are looking for.

share|improve this answer
thanks MPI_Scatter sounds good idea for this problem – Elior Nov 5 '13 at 13:02

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.