I have a very large array (one dim) and need to solve evolution equation (wave-like eq). I I need to calculate integral at each value of this array, to store the resulting array of integral and apply integration again to this array, and so on (in simple words, I apply integral on grid of values, store this new grid, apply integration again and so on).
I used MPI-IO to spread over all nodes: there is a shared .dat file on my disc, each MPI copy reads this file (as a source for integration), performs integration and writes again to this shared file. This procedure repeats again and again. It works fine. The most time consuming part was the integration and file reading-writing was negligible.
Now I moved to 1024 (16x64 CPU) HPC cluster and now I'm facing an opposite problem: a calculation time is NEGLIGIBLE to read-write process!!!
I tried to reduce a number of MPI processes: I use only 16 MPI process (to spread over the nodes) + 64 threads with OpenMP to parallelize my computation inside of each node.
Again, reading and writing processes is the most time consuming part now.
How should I modify my program, in order to utilize the full power of 1024 CPUs with minimal loss?
The important point, is that I cannot move to the next step without completing the entire 1D array.
Instead of reading-writing, I can ask my rank=0 (master rank) to send-receive the entire array to all nodes (MPI_Bcast). So, instead of each node will I/O, only one node will do it.
Thanks in advance!!!