Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
444338 | Journal of Molecular Graphics and Modelling | 2012 | 5 Pages |
We present the design and implementation of the force decomposition machine (FDM), a cluster of personal computers (PCs) that is tailored to running molecular dynamics (MD) simulations using the distributed diagonal force decomposition (DDFD) parallelization method. The cluster interconnect architecture is optimized for the communication pattern of the DDFD method. Our implementation of the FDM relies on standard commodity components even for networking. Although the cluster is meant for DDFD MD simulations, it remains general enough for other parallel computations. An analysis of several MD simulation runs on both the FDM and a standard PC cluster demonstrates that the FDM's interconnect architecture provides a greater performance compared to a more general cluster interconnect.
► We present a novel cluster topology using multiple network switches. ► The topology is matched to the distributed diagonal force decomposition parallelization method for performance. ► The topology allows expansion and fault resilience in the cluster.