Team Group introduced two new DDR3 memory module series; a 2133MHz module with 9-11-9-27 1T timings and 1.65V available in 4GB and 8GB dual-channel kits, as well as a 1600MHz module with 6-8-8-24 timings and a voltage of 1.65V, available in dual-channel 4GB and 6GB kits.
With the launch of Intel’s new generation high performance Sandy Bridge platform, Team Group Inc. announces its two exquisitely designed over-clocking masterpieces, Xtreem LV DDR3 2133 9-11-9-27 and Xtreem LV DDR3 1600 6-8-8-24, targeting at overclockers who look for high performance. Designed with focus on their compatibilities with the Sandy Bridge platform, both Xtreem LV DDR3 2133 9-11-9-27 and Xtreem LV DDR3 1600 6-8-8-24 use specially selected original particles manufactured under new production process, and pass 24 hours of strict burn-in testing to bring to consumers an exceptional usage experience. In addition, Team Group’s Xtreem series memory modules are all completely compatible with the Intel XMP technology, and superior in high-performance and low-timing to fully release the potential of every computer!
Xtreem LV DDR3 2133 9-11-9-27-1T challenges Power User’s over-clocking techniques
Xtreem LV DDR3 2133 9-11-9-27 features 256*8 particles, 4GB/8GB dual-channel packaging with a maximum transfer bandwidth up to 17GB/sec. With its 1T Command rate, Xtreem LV DDR3 2133 9-11-9-27 allows overclocking fanatics easily conquering the challenging P67 platform and advancing their techniques!
Xtreem LV DDR3 1600 6-8-8-24 enjoys natural and smooth
Compared to DDR3 2133’s high frequency, Xtreem LV DDR3 1600 6-8-8-24 is characterized with low latency to guarantee a stable performance on the overclocking platform. With 4GB/6GB dual-channel and triple-channel packaging, Xtreem LV DDR3 1600 6-8-8-24 is embedded with built-in XMP parameters, and only requires 1.65V to operate. Such high cost and performance ratio makes it not only a good value product that overclocking enthusiasts can’t afford to miss, but also the best device for building a high performance platform.