Philadelphia / Rennes / Seattle / Baltimore / New York / Washington / DC / Berlin / London / /
Company
Johns Hopkins University Press / Elsevier Inc. / Oxford University Press / AMD / IBM / Pergamon Press / Oak Ridge National Laboratory / Top20 Systems / Pearson / Imperial College Press / Intel / John Wiley & Sons / /
Country
France / United States / /
Currency
pence / /
Facility
University of Manchester / University of Tennessee Abstract / Piotr Luszczek§ Ridge National Laboratory / University of Tennessee / Oak Ridge National Laboratory / Prentice Hall / Rice University / /
IndustryTerm
performance computing / parallel algorithms / software misconfiguration / shared memory multicore systems / dual-processor / parallel applications / row swapping algorithm / interconnect network / Self-adapting software / parallel computing influence / linear equations software / computing / software libraries / large dense linear systems / final solution / boundary integral solution / important tool / dense linear systems / stealth technology / large dense systems / linear algebra algorithms / /
MarketIndex
HPCC / HPL / HPC Challenge / LINPACK / /
OperatingSystem
Cross-platform / Linux / /
Organization
Core2 Duo / The Johns Hopkins University / Piotr Luszczek§ Ridge National Laboratory / Rice University / Society for Industrial and Applied Mathematics / IEEE Computer Society Washington / University of Manchester / Oxford University / University of Tennessee Abstract / University of Tennessee / Knoxville / /
Person
R. Clint Whaley / Jonathan Weinberg / Javier Cuenca / James W. Demmel / Erich Strohmaier / L. Suzan Blackford / Iain S. Duff / Kenneth J. Roche / Fred G. Gustavson / S. Hammarling / Leo T. Yang / Greg Wilson / Danny C. Sorensen / Alan Edelman / Adolfy Hoisie / Frank Mueller / Sven Hammarling / Zizhong Chen / Robert W. Numerich / Gene H. Golub / Patrick Worley / Warren Smith / Xiasong Ma / Henk A. van der Vorst / Suzan L. Blackford / Ken Stanley / A. Karp / A. Greenbaum / Andy Oram / A. McKenney / Andy Cleary / Emmanuel Jeannot / Julien Langou / Antoine Petitet / J. Choi / J. Du Croz / Allan Snavely / Domingo Gim´enez / Progress / Michael O. McCracken / Valerie Taylor / Luis-Pedro Garc´ıa / Susan Ostrouchov / Jack J. Dongarra / Kenneth Roche / David W. Walker / Piotr Luszczek / Harvey J. Wasserman / Ian Foster / Jeremy Kepner / Darren J. Kerbyson / Greg Henry / / /
1 Reducing the time to tune parallel dense linear algebra routines with partial execution and performance modelling ∗ Oak