High-performance computational chemistry: Hartree-Fock electronic structure calculations on massively parallel processors

Jeffrey L. Tilson; Mike Minkoff; Albert F. Wagner; Ron Shepard; Paul Sutton; Robert J. Harrison; Ricky A. Kendall; Adrian T. Wong

doi:10.1177/109434209901300401

High-performance computational chemistry: Hartree-Fock electronic structure calculations on massively parallel processors

Jeffrey L. Tilson
, Mike Minkoff
, Albert F. Wagner
, Ron Shepard
, Paul Sutton
, Robert J. Harrison
, Ricky A. Kendall
, Adrian T. Wong

Applied Mathematics and Statistics

Stony Brook University

Argonne National Laboratory
Environmental Molecular Sciences Laboratory

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

The parallel performance of the NWChem version 1.2α parallel direct-SCF code has been characterized on five massively parallel supercomputers (IBM SP, Kendall Square KSR-2, CRAY T3D and T3E, and Intel Touchstone DELTA) using single-point energy calculations on seven molecules of varying size (up to 389 atoms) and composition (first-row atoms, halogens, and transition metals). The authors compare the performance using both replicated-data and distributed-data algorithms and the original McMurchie-Davidson and recently incorporated TEXAS integrals packages.

Original language	English
Pages (from-to)	291-302
Number of pages	12
Journal	International Journal of High Performance Computing Applications
Volume	13
Issue number	4
DOIs	https://doi.org/10.1177/109434209901300401
State	Published - 1999

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Tilson, J. L., Minkoff, M., Wagner, A. F., Shepard, R., Sutton, P., Harrison, R. J., Kendall, R. A., & Wong, A. T. (1999). High-performance computational chemistry: Hartree-Fock electronic structure calculations on massively parallel processors. International Journal of High Performance Computing Applications, 13(4), 291-302. https://doi.org/10.1177/109434209901300401

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abstract = "The parallel performance of the NWChem version 1.2α parallel direct-SCF code has been characterized on five massively parallel supercomputers (IBM SP, Kendall Square KSR-2, CRAY T3D and T3E, and Intel Touchstone DELTA) using single-point energy calculations on seven molecules of varying size (up to 389 atoms) and composition (first-row atoms, halogens, and transition metals). The authors compare the performance using both replicated-data and distributed-data algorithms and the original McMurchie-Davidson and recently incorporated TEXAS integrals packages.",

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AU - Tilson, Jeffrey L.

AU - Minkoff, Mike

AU - Wagner, Albert F.

AU - Shepard, Ron

AU - Sutton, Paul

AU - Harrison, Robert J.

AU - Kendall, Ricky A.

AU - Wong, Adrian T.

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AB - The parallel performance of the NWChem version 1.2α parallel direct-SCF code has been characterized on five massively parallel supercomputers (IBM SP, Kendall Square KSR-2, CRAY T3D and T3E, and Intel Touchstone DELTA) using single-point energy calculations on seven molecules of varying size (up to 389 atoms) and composition (first-row atoms, halogens, and transition metals). The authors compare the performance using both replicated-data and distributed-data algorithms and the original McMurchie-Davidson and recently incorporated TEXAS integrals packages.

UR - https://www.scopus.com/pages/publications/0033349953

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JO - International Journal of High Performance Computing Applications

JF - International Journal of High Performance Computing Applications

IS - 4

ER -

High-performance computational chemistry: Hartree-Fock electronic structure calculations on massively parallel processors

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