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Follow UsSANTA CLARA, USA: Built using an entirely new transistor formula that alleviates the wasteful electricity leaks that threaten the pace of future computer innovation, Intel Corp. has unveiled 16 server and high-end PC processors.
Besides increasing computer performance and saving energy use, these processors also eliminate eco-unfriendly lead and, in 2008, halogen materials.
Called the biggest transistor advancements in 40 years by Intel co-founder Gordon Moore, the processors are the first to use Intel’s Hafnium-based high-k metal gate (Hi-k) formula for the hundreds of millions of transistors inside these processors. These Intel Core 2 Extreme and Xeon processors are also the first to be manufactured on the company’s 45nm manufacturing process, further boosting performance and lowering power consumption.
Combining these two advancements with new processor features enables Intel to continue delivering faster and more energy-efficient processors that are better for the environment. The breakthroughs clear the path for Intel to design products that are 25 percent smaller than previous versions and, thus, more cost-effective, as well as the ability next year to pursue new ultra mobile and consumer electronics “system on chip” (SoC) opportunities.
"The intellects, physics and designs that went into solving one of the industry’s most daunting challenges are awe-inspiring and I congratulate the Intel teams for this breakthrough achievement," said Paul Otellini, Intel president and CEO. "Best yet, this feat, coupled with our industry-leading architectures, means faster and sleeker computers, longer battery life and better energy efficiency. Our objective is to bring consumers a new class of computers delivering a full Internet experience in ever-smaller, more portable form factors."
The new 45nm (a nanometer is 1 billionth of a meter) processors boast nearly twice the transistor density of previous chips built on the company’s 65nm technology -– that is up to 820 million transistors for quad-core processors, each using Intel’s new formula.
New high-end desktop processor
The Intel Core 2 Extreme QX9650 quad core processor, the world’s first 45nm Hi-k desktop processor, delivers more of the adrenaline that hardcore gamers and media enthusiasts demand. Enhancements such as a larger L2 cache and support for new Intel SSE4 media instructions help bring desktop performance to “extreme” new levels.
Family of 45nm server processors; world-record speed
New to the Intel line-up of server processors are 15 server dual-core and quad-core 45nm Hi-k Intel Xeon processors. The 12 new quad-core chips boast clock speeds ranging from 2GHz up to 3.20GHz, with front side bus speeds (FSB) up to 1600MHz, and cache sizes of 12MB. The three new dual-core chips feature clock speeds of up to 3.40GHz, an FSB of up to 1600MHz, and cache sizes of 6MB.
The 45nm Hi-k Intel Xeon processors are compatible with server platforms using the Intel 5000 chipset family. In addition, Intel is launching three platform solutions to support 45nm processors, including:
* The Intel 5400 chipset-based platform (previously codenamed “Stoakley”) that is optimized for high-bandwidth applications such as high-performance computing (HPC).
* The Intel 5100 Memory Controller Hub chipset and Intel ICH-9R I/O controller (previously codenamed “Cranberry Lake”). These are cost-optimized solutions that support either one or two processors and also provide reduced power consumption using native DDR2 memory.
* The Intel 3200 chipset-based platform (previously codenamed “Garlow”) that is specifically designed for single-processor entry servers.
The move from 65nm to 45nm involves more than just a shrink of current chip designs. The processors include such additional features as new Intel Streaming SIMD Extensions 4 (SSE4), which are 47 new instructions that speed up workloads including video encoding for high-definition and photo manipulation, as well as key HPC and enterprise applications. Software vendors supporting the new SSE4 instruction set include Adobe, Microsoft and Symantec.