I'm working on parallelizing a software which simulates transport and flow process in the unsaturated soil zone. The software consists of a VB.NET user interface, and a FORTRAN DLL kernel to do the calculations. I parallelized the software by using the package MPI.NET in the VB.NET part. When the program is started with a number of processes, all of them but the master process go into a wait function, while the master process takes care of the interaction of the software with the user. When all the data required for the simulation is entered, the master process enters the FORTRAN DLL, and calls the other processes. These jump to the starting point of the function in the DLL, and together all the processes solve a linear system of equations for about 10-20 times (the original partial differential equation is nonlinear, therefore these iterations in order to gain accuracy in the solution). When the solution is computed, all the processes go back to VB.NET, This is done for all the timesteps of the simulation. When all steps are computed, the master process continues with the user interaction, while the other processes go back into the wait function, until they are called again by the master process. The thing is that this program runs much slower than the original, sequential version of it. Now there might be a number of reasons for this. I used the PETSc library in the FORTRAN DLL to solve the system of equations, and I think I have configured it quite well. My question is if at some point in the architecture I described there could be a point or two which could cause a significant slowdown if not handled correctly. I'm not sure f.e. if the subsequent calls of DLL function can cost a lot of time. My system is a Intel Xeon 3470 processor with 8GB RAM. The systems I tried to solve had up to 120.000 unknowns, which I know is at the very lower bound of what should be calculated in parallel, but at least with the 120.000 matrix I would have expected a better performance than I did measure.

Thanks in advance for your thoughts, Martin