OCZ Technology Announces the World’s First High-Density 2GHz Solution, Offering 4GB of High-Performance Memory for Ultra High-End Desktops
Sunnyvale, Calif.—May 5, 2008—OCZ Technology Group, Inc., a worldwide leader in innovative, ultra-high performance and high reliability memory, today premiered the world’s first PC3-16000 4GB (2x2048MB) DDR3 kits to provide even greater performance and productivity on the latest DDR3 platforms. Designed to offer the earliest adopting enthusiasts the advantages of high-density memory coupled with the highest speeds available, the OCZ PC3-16000 4GB kits make use of the unbeatable overclocking capabilities of the latest platforms and takes DDR3 to unimaginable performance levels.
“It is no myth that higher memory densities make it harder to push higher clock frequencies,” commented Dr. Michael Schuette, VP of Technology Development at OCZ Technology. “OCZ Technology pulled off this seemingly impossible task with the release of the world’s fastest high-density memory solution. The new OCZ DDR3 PC3-16000 Platinum Edition kits combine two 2GB modules for 4GB system density running at 9-9-9 latencies and a record-breaking 2GHz data rate. All of this is achieved at only 1.9V which falls well within the voltage tolerances of any DDR3 memory controller currently on the market.”
As part of the renowned OCZ Platinum series, these new high-density 2GHz DDR3 dual channel kits are ideal for computer enthusiasts and professionals utilizing high-bandwidth video, music, and graphics applications, along with gamers experiencing the latest PC titles that make use of DirectX® 10 at the highest settings. Among the latest high-density DDR3 offerings, OCZ will also add a 4GB kit option to the popular PC3-14400 Platinum Series as well, for users taking advantage of 1800MHz speeds on the latest motherboards. Without sacrificing the industry-leading overclocking capabilities of the OCZ Platinum line, you can have the ultimate balance of speed and latency at the highest possible densities your system demands.