I have to solve a huge linear equation for multiple right sides (Let's say 20 to 200). The Matrix is stored in a sparse format and distributed over multiple MPI nodes (Let's say 16 to 64). I run a CG solver on the rank 0 node. It's not possible to solve the linear equation directly, because the system matrix would be dense (Sys = A^T * S * A).

The basic Matrix-Vector multiplication is implemented as:

```
broadcast x
y = A_part * x
reduce y
```

While the collective operations are reasonably fast (OpenMPI seems to use a binary tree like communication pattern + Infiniband), it still accounts for a quite large part of the runtime. For performance reasons we already calculate 8 right sides per iteration (Basicly SpM * DenseMatrix, just to be complete).

I'm trying to come up with a good scheme to hide the communication latency, but I did not have a good idea yet. I also try to refrain from doing 1:n communication, although I did not yet measure if scaling would be a problem.

Any suggestions are welcome!