WEA05 Keynote Talk: High-Performance Algorithm Engineering for Large-Scale Graph Problems and Computational Biology

Abstract

Many large-scale optimization problems rely on graph theoretic solutions; yet high-performance computing has traditionally focused on regular applications with high degrees of locality. We describe our novel methodology for designing and implementing irregular parallel algorithms that attain significant performance on high-end computer systems. Our results for several fundamental graph theory problems are the first ever to achieve parallel speedups. Specifically, we have demonstrated for the first time that significant parallel speedups are attainable for arbitrary instances of a variety of graph problems and are developing a library of fundamental routines for discrete optimization (especially in computational biology) on shared-memory systems. Phylogenies derived from gene order data may prove crucial in answering some fundamental questions in biomolecular evolution. High-performance algorithm engineering offers a battery of tools that can reduce, sometimes spectacularly, the running time of existing approaches. We discuss one such such application, GRAPPA, that demonstrated over a billion-fold speedup in running time (on a variety of real and simulated datasets), by combining low-level algorithmic improvements, cache-aware programming, careful performance tuning, and massive parallelism. We show how these techniques are directly applicable to a large variety of problems in computational biology.

Date
May 11, 2005 8:30 AM — 9:30 AM
Location
Santorini Island, Greece
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David A. Bader
Distinguished Professor and Director of the Institute for Data Science

David A. Bader is a Distinguished Professor in the Department of Computer Science at New Jersey Institute of Technology.