Abstract

We address the task of systematically designing efficient programs for parallel machines. Our approach starts with a sequential algorithm and proceeds by expressing it in terms of standard, pre-implemented parallel components called skeletons. We demonstrate the skeleton-based design process using a tridiagonal system solver as our example application. We develop a cost-optimal parallel version of our application and implement it in message passing interface (MPI). The performance of our solution is demonstrated experimentally on a Cray T3E machine.

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