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No pain and gain!-experiences withMentat on a biological application

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3 Author(s)
Grimshaw, A.S. ; Virginia Univ., Charlottesville, VA, USA ; West, E.A. ; Pearson, W.R.

Throughout much of the parallel processing community there is the sense that writing software for distributed memory parallel processors is subject to a `no pain-no gain' rule: that in order to reap the benefits of parallel computation one must first suffer the pain of converting the application to run on a parallel machine. The authors believe this is the result of inadequate programming tools and not a problem inherent to parallel processing. They show that one can parallelize real scientific applications and obtain good performance with little effort if the right tools are used. Their vehicle for this demonstration is a six-thousand line DNA and protein sequence comparison application that they have implemented in Mentat, an object-oriented parallel processing system for both parallel and distributed architectures. They briefly describe the application and present performance information for both the Mentat version and a hand-coded parallel version of the application

Published in:

High-Performance Distributed Computing, 1992. (HPDC-1), Proceedings of the First International Symposium on

Date of Conference:

9-11 Sep 1992