Difference between revisions of "SC13"
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== IDC Award == | == IDC Award == | ||
| − | '''DENVER, November 19, 2013''' -- International Data Corporation (IDC) today announced the sixth round of recipients of the HPC Innovation Excellence Award at the | + | '''DENVER, November 19, 2013''' -- International Data Corporation (IDC) today announced the sixth round of recipients of the HPC Innovation Excellence Award at the SC'13 supercomputer industry conference in Denver, Colorado, USA. Prior winners were announced at the ISC'11, SC'11, ISC'12, SC'12, and ISC'13 supercomputing conferences. |
*[http://www.idc.com/getdoc.jsp?containerId=prUS24451613 IDC Awards Press Release] | *[http://www.idc.com/getdoc.jsp?containerId=prUS24451613 IDC Awards Press Release] | ||
| − | "Southern California Earthquake Center (U.S.) SCEC has built a special simulation platform, CyberShake, which uses the time-reversal physics of seismic reciprocity to reduce the computational cost by 1000x. Additionally, the production time for a complete regional CyberShake model at seismic frequencies up to 0.5 Hz has been reduced by 10x, and four new hazard models have been run on NCSA Blue Waters and TACC Stampede. SCEC researchers have developed highly parallel, highly efficient CUDA-optimized wave propagation code, called AWP-ODC-GPU, that achieved a sustained performance of 2.8 Petaflops on ORNL Titan. LEAD: Southern California Earthquake Center Community Modeling Environment Collaboration." | + | "The Southern California Earthquake Center (U.S.) SCEC has built a special simulation platform, CyberShake, which uses the time-reversal physics of seismic reciprocity to reduce the computational cost by 1000x. Additionally, the production time for a complete regional CyberShake model at seismic frequencies up to 0.5 Hz has been reduced by 10x, and four new hazard models have been run on NCSA Blue Waters and TACC Stampede. SCEC researchers have developed highly parallel, highly efficient CUDA-optimized wave propagation code, called AWP-ODC-GPU, that achieved a sustained performance of 2.8 Petaflops on ORNL Titan. LEAD: Southern California Earthquake Center Community Modeling Environment Collaboration." |
== Inversion Discussions with OLCF == | == Inversion Discussions with OLCF == | ||
Revision as of 00:19, 26 November 2013
Contents
Paper Presentations
Cui, Y., Poyraz, E., Olsen, K. B., Zhou, J., Withers, K., Callaghan, S., Larkin, J., Guest, C. C., Choi, D. J., Chourasia, A., Shi, Z., Day, S. M., Maechling, P. J., Jordan, T. H., (2013) Physics-Based Seismic Hazard Analysis on Petascale Heterogeneous Supercomputers, SC13, November 18-22, 2013, Denver, Colorado
Poster Presentations
USC Exhibit Presentations
Birds of a Feather Session on Workflows
Visualization Examples
IDC Award
DENVER, November 19, 2013 -- International Data Corporation (IDC) today announced the sixth round of recipients of the HPC Innovation Excellence Award at the SC'13 supercomputer industry conference in Denver, Colorado, USA. Prior winners were announced at the ISC'11, SC'11, ISC'12, SC'12, and ISC'13 supercomputing conferences.
"The Southern California Earthquake Center (U.S.) SCEC has built a special simulation platform, CyberShake, which uses the time-reversal physics of seismic reciprocity to reduce the computational cost by 1000x. Additionally, the production time for a complete regional CyberShake model at seismic frequencies up to 0.5 Hz has been reduced by 10x, and four new hazard models have been run on NCSA Blue Waters and TACC Stampede. SCEC researchers have developed highly parallel, highly efficient CUDA-optimized wave propagation code, called AWP-ODC-GPU, that achieved a sustained performance of 2.8 Petaflops on ORNL Titan. LEAD: Southern California Earthquake Center Community Modeling Environment Collaboration."
