This 146-processor system will allow Ohio researchers to study everything from quark-antiquark attraction and radiation transfer in astrophysical outflows to simulations of photosynthesis components and matter in the early universe.
This cluster is an example of higher education working with the information technology industry to place one of the most powerful supercomputers in Ohio, said Al Stutz, OSC high performance computing director. The new system will provide a six-to-tenfold performance increase for Ohio’s academic researchers.
The Itanium-based Silicon Graphics 750 system with 292GB memory, 428GFLOPS peak performance for double-precision computations and 856GFLOPS peak performance for single-precision computations, follows the PentiumĀ® III XeonTM cluster that was operative at OSC for the past 18 months. The old system will be divided into smaller clusters and cascaded to faculty as part of the Cluster Ohio Project grants awarded last month.
Doug Johnson, OSC systems developer said, This Itanium cluster system, running the Linux operating system, will provide our users access to an exciting new architecture, giving them premium supercomputing technology for a wide variety of applications.
This system is the first Itanium processor-based cluster installed by SGI.TM
SGI has collaborated with OSC for the past several years on cluster computing projects, said Jan Silverman, senior vice president of marketing, SGI. SGI is thrilled with the potential scientific advancements that OSC will be able to make with one of the world’s largest Itanium clusters. SGI is dedicated to enabling new innovations for our technical customers, and OSC’s strides in understanding fundamental areas ranging from subatomic particles to the big bang are a perfect example.
