upgraded its Cray XT3 system from single-core to dual-core AMD Opteron processors and has procured a quad-core XT4 supercomputer for installation in early 2008. This paper provides performance analysis of several representative Department of Defense applications executed on single-core and dual-core AMD Opteron processors. The authors provide a detailed strong-scaling study that focuses on addressing some areas of contention that may lead to increased job run times on applications running on many thousands of processors. The authors intend to use the results of this study as a guide for determining application performance on the quad-core Cray XT4
Dual-core AMD Opteron ™ processors represent the latest significant development in microprocessor te...
Application performance on a high performance, parallel platform depends on a variety of factors, th...
Integrating more cores per chip enables more programs to run simultaneously, and more easily switch ...
Over the past 15 years, microprocessor performance has doubled approximately every 18 months throug...
The historical trend of increasing single CPU performance has given way to roadmap of increasing co...
ABSTRACT: The historical trend of increasing single CPU performance has given way to roadmap of incr...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...
The historical trend of increasing single CPU performancehas given way to roadmap of increasing core...
Oak Ridge National Laboratory recently received delivery of a 5,294 processor Cray XT3. The XT3 is C...
Cray’s third-generation massively parallel processing system. The system uses a single-processor nod...
This paper describes the performance trends in Intel Dual Core Processors and Intel Xenon Quad Core ...
The defence training and simulation industry is increasingly using server CPUs for processing data. ...
International audienceEstimating the potential performance of parallel applicationson the yet-to-be-...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
In this whitepaper we describe the effort we have made to measure performance of applications and sy...
Dual-core AMD Opteron ™ processors represent the latest significant development in microprocessor te...
Application performance on a high performance, parallel platform depends on a variety of factors, th...
Integrating more cores per chip enables more programs to run simultaneously, and more easily switch ...
Over the past 15 years, microprocessor performance has doubled approximately every 18 months throug...
The historical trend of increasing single CPU performance has given way to roadmap of increasing co...
ABSTRACT: The historical trend of increasing single CPU performance has given way to roadmap of incr...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...
The historical trend of increasing single CPU performancehas given way to roadmap of increasing core...
Oak Ridge National Laboratory recently received delivery of a 5,294 processor Cray XT3. The XT3 is C...
Cray’s third-generation massively parallel processing system. The system uses a single-processor nod...
This paper describes the performance trends in Intel Dual Core Processors and Intel Xenon Quad Core ...
The defence training and simulation industry is increasingly using server CPUs for processing data. ...
International audienceEstimating the potential performance of parallel applicationson the yet-to-be-...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
In this whitepaper we describe the effort we have made to measure performance of applications and sy...
Dual-core AMD Opteron ™ processors represent the latest significant development in microprocessor te...
Application performance on a high performance, parallel platform depends on a variety of factors, th...
Integrating more cores per chip enables more programs to run simultaneously, and more easily switch ...