Synthesis of High-Performance Parallel Programs for a Class of ab Initio Quantum Chemistry Models

Synthesis of High-Performance Parallel Programs for a Class of ab Initio Quantum Chemistry Models

This paper provides an overview of a program synthesis system for a class of quantum chemistry computations. These computations are expressible as a set of tensor contractions and arise in electronic structure modeling. The input to the system is a a high-level specification of the computation, from...

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Veröffentlicht in:Proceedings of the IEEE 2005-02, Vol.93 (2), p.276-292
Hauptverfasser: Baumgartner, G., Krishnamoorthy, S., Krishnan, S., Chi-chung Lam, Qingda Lu, Nooijen, M., Pitzer, R.M., Ramanujam, J., Sadayappan, P., Sibiryakov, A., Auer, A., Bernholdt, D.E., Bibireata, A., Choppella, V., Cociorva, D., Xiaoyang Gao, Harrison, R.J., Hirata, S.
Format: Artikel
Sprache:eng
Schlagworte:
Chemistry
Communication minimization
compiler optimizations
Computation
Computer architecture
Computer science
Concurrent computing
data locality optimization
domain-specific languages
Focusing
high-level programming languages
Laboratories
Mathematical analysis
Mathematical models
memory-constrained optimization
Optimization
Optimizing compilers
Physics computing
Quantum chemistry
Quantum computing
Quantum mechanics
Specifications
Synthesis
Tensile stress
tensor contraction expressions
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Beschreibung
Zusammenfassung:This paper provides an overview of a program synthesis system for a class of quantum chemistry computations. These computations are expressible as a set of tensor contractions and arise in electronic structure modeling. The input to the system is a a high-level specification of the computation, from which the system can synthesize high-performance parallel code tailored to the characteristics of the target architecture. Several components of the synthesis system are described, focusing on performance optimization issues that they address.
ISSN:0018-9219
1558-2256
DOI:10.1109/JPROC.2004.840311