Based on the LS-Dyna neon_refined_revised TopCrunch benchmark, Scali and Mellanox were able to compare performance of multi-core platforms running the same application. The Scali MPI Connect based-version, running in conjunction with Mellanox 20Gb/s ConnectX interconnect, delivered superior performance, in excess of 30%, on AMD's Quad-Core Opteron when compared to similar benchmarks published on www.topcrunch.org. These performance gains allow customers to complete more jobs per day and increase utilization of high performance computing clusters.

"Scali MPI Connect is able to unleash the true power of our Quad-Core AMD Opteron processor", stated Paul Gilmore, Director, Global Software Alliances, AMD. "AMD's native core design, integrated memory controller, and Balanced Smart Cache provide the required low latency and high bandwidth needed to feed all four cores on the processor. Scali's MPI Connect techniques for communication between cores connected by shared memory, shows excellent results running the most demanding applications."

"Mellanox is excited to work with Scali to provide high performance solution for our mutual customers", stated Gilad Shainer, senior technical marketing manager at Mellanox Technologies. "Mellanox ConnectX 20Gb/s InfiniBand with Scali MPI Connect has proved to provide world class applications performance, multi-core scalability and improved HPC application productivity."

Scali MPI Connect is a fully integrated message passing interface (MPI) solution, designed to enable applications to run at maximum performance through its unique, high performance MPI implementation. With Scali MPI Connect, application developers can take advantage of leading interconnect and multi-core technologies to build high performance clusters. Scali MPI Connect supports a wider range of customer environments while lowering the number of binaries required, and delivers superior application performance.

Scali, Mellanox, and AMD have teamed up to host a joint webinar on September 20, 2007 to further discuss the practical implications of multi-core technology on high performance computing.