Press Release 841 Published by

A press release from Corsair:

Corsair Announces Immediate Adoption of Enhanced Performance Profiles (EPP)

-- A new open memory standard jointly developed by Corsair and NVIDIA, Corsair redefines the fundamental design of memory to elevate performance benefits --

Fremont, CA (May 15, 2006) - Corsair(r) Memory, Inc., the worldwide leader in design and manufacture of high performance memory, today announced immediate adoption of Enhanced Performance Profiles (EPP). Jointly developed by Corsair and NVIDIA(r) as a new open memory standard, Enhanced Performance Profiles elevate memory performance by taking full advantage of the additional memory parameters that are now added to the unused portion of the JEDEC standard Serial Presence Detect (SPD). As a new open standard, immediate adoption by motherboard manufacturers and other memory manufacturers is expected.



"Corsair is excited to be the first one to introduce memory modules based on EPP. We believe this feature adds overclocking convenience and performance advantages to all users," said John Beekley, VP of Applications Engineering at Corsair Memory. "With the introduction of EPP, we have essentially made overclocking a high-confidence endeavor for novice enthusiasts and at the same time have made our actual overclocked testing specifications available on-module," continued Beekley.

Traditional SPD values include only a basic set of JEDEC standard memory specifications. The new Enhanced Performance Profiles include many more critical specification values omitted from the standard SPD, such as command rate and memory voltage. This allows EPP memory modules to perform at their optimal profile as specified by the memory manufacturer, providing users with tested and approved overclocked performance while maintaining JEDEC compatibility.

To take full advantage of the Enhanced Performance Profiles, motherboards designed with a special BIOS can recognize the presence of EPP settings. Once these settings are enabled, the system boots directly into the memory's specified settings and takes immediate advantage of the increased performance.

EPP-based memory modules from Corsair support performance profiles that are based upon both high frequency and low latency optimization. Enhanced Performance Profiles brings simplified overclocking success for entry level enthusiasts, and access to more advanced memory specifications and a higher recovery point for hard-core overclockers.

"By working closely with Corsair on this new exciting technology initiative, we have exposed underlying performance settings that have up to this point only been used by the most ardent overclockers," said Drew Henry, general manager of MCP business at NVIDIA. "NVIDIA and Corsair engineers are all PC enthusiasts at the core, and we look forward to having our combined customers-PC enthusiasts-take advantage of this new technology pairing."

The first products from Corsair with the new Enhanced Performance Profiles will be the SLI-certified TWIN2X2048-6400C4 and the TWIN2X2048-8500C5. These two gigabyte module pairs, running at 800MHz and 1066MHz respectively, are fully optimized to work with new motherboards based on the upcoming NVIDIA nForce(r) 590 SLI(tm) media and communications processor (MCP), all of which will be available later this month. EPP is expected to be available on all upcoming XMS DDR2 products from Corsair.

For more information on the Enhanced Performance Profiles and the TWIN2X2048-6400C4, and TWIN2X2048-8500C5 SLI-Ready memory modules, please visit www.corsairmemory.com

About Corsair Memory

Corsair Memory, a member of JEDEC, has been a leader in the design and manufacture of high speed modules since 1994. We have earned our reputation as being the first to market with leading-edge products supporting new computing platforms and technologies. Corsair supplies memory for applications ranging from mission-critical servers to ultra-high performance gaming systems. The performance and reliability of Corsair memory products makes them ideal for memory intensive computing.