Building fast, reliable, and adaptive software for computational science
Date
2008
Authors
Rendell, Alistair
Antony, Joseph
Armstrong, Warren
Janes, Pete
Yang, Rui
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Institute of Physics Publishing
Abstract
Building fast, reliable, and adaptive software is a constant challenge for computational science, especially given recent developments in computer architecture. This paper outlines some of our efforts to address these three issues in the context of computational chemistry. First, a simple linear performance that can be used to model and predict the performance of Hartree-Fock calculations is discussed. Second, the use of interval arithmetic to assess the numerical reliability of the sort of integrals used in electronic structure methods is presented. Third, use of dynamic code modification as part of a framework to support adaptive software is outlined.
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Journal of Physics: Conference Series
Type
Journal article
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2037-12-31
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