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AMD's Next-Generation Opteron Processor Family Is Developed

AMD unveils their new Next-Generation AMD Opteron processor family, that features an attractive performance-per-watt and impressive virtualization capabilities. As the only x86 server processor with planned upgradeability to native quad-core within the same thermal design power envelope, Next-Gen AMD Opteron processors enable customers to increase computing capacity without altering datacenter infrastructure. Improving upon what already is recognized as a standard-bearer for energy-conscious microprocessor architecture design, new platforms based on Next-Generation AMD Opteron processors will be offered in record numbers from global original equipment manufacturers.

AMD has also introduced the completion of the design, or tape-out, of its native Quad-Core AMD Opteron processors. Quad-Core AMD Opteron processors represent another concrete example of the benefits from AMD's overarching strategy to introduce new technologies with minimal customer disruption for maximum value. AMD announces their plans to deliver to customers in mid-2007 native Quad-Core AMD Opteron processors that incorporate four processor cores on a single die of silicon. Quad-Core AMD Opteron processors are expected to be electrical-, thermal- and socket-compatible with the freshly unveiled Next-Generation AMD Opteron processors. This long-term approach means AMD customers can benefit from a consistent and common architecture that scales to meet changing needs and escalating demands, and from the ability to select quad-core ready platforms today. The consistency and stability offered by Next-Generation AMD Opteron processors also enhance the potential benefits to OEMs, system-builders and semiconductor companies who elect to innovate on the AMD64 architecture via the AMD Torrenza initiative. Torrenza capitalizes on the Direct Connect Architecture and HyperTransport technology advantages of the AMD64 architecture to enable other processor and hardware providers to innovate within a common ecosystem. The enhanced capabilities and innovation options now available through the extensible system bus via the HTX connector with new AMD Socket F (1207) compatible processors serve as the infrastructural underpinnings for advancing AMD64 as the x86 open innovation platform.

AMD's Next-Generation Opteron processors represent the very latest products based on AMD's Direct Connect Architecture, which is the industry's first architecture to deliver x86-based 32- and 64-bit computing and to reduce traditional front-side bus bottlenecks, offering customers processing core consistency and stability across 1-, 2-, 4- and 8-way systems. Additionally, with only two sockets for SMP planned over a seven-year period, AMD is delivering a growth strategy for its customers who want simplicity, longevity and stability across products and platforms for their datacenters.

The Next-Generation AMD Opteron processors will further define a new standard in performance-per-watt with outstanding PowerNow! capabilities and energy-efficient DDR2 memory support, while maintaining a consistent maximum 95-watt thermal design power envelope. Thanks to the memory capacity offered with AMD's Direct Connect Architecture, customers can have the memory performance they require with DDR2 and avoid the premature use of memory technologies that are not yet at an optimal price-to-performance ratio and that require more power. The power efficiencies delivered by Next-Generation AMD Opteron processors, combined with an ever-increasing number of blades offered by tier-one OEMs, continue to define AMD Opteron processors as powering optimum blade platforms. AMD Opteron processor-based blades make up more than 50 percent of HP's x86 blade server platforms. IBM brought the LS20 AMD Opteron processor-based blade to market in 2nd quarter 2005 and recently expanded its offerings to include the industry's first "snap-in" scalable, 2- to 4-socket blade that allows customers to scale their business in mere seconds - doubling the processing capacity. AMD Opteron processors are at the foundation of Sun's re-entry into the x86 blade server market with its innovative Sun Blade 8000 modular system, which combines the high-performance of rackmount servers in a more power-efficient blade environment.

The combination of AMD Virtualization technology and Direct Connect Architecture provides a balanced approach to enhanced virtualization performance. AMD Virtualization is designed to extend AMD's Direct Connect Architecture by providing additional silicon-based features to allow a hypervisor (the component in a native virtualization scenario that manages the partitioning of the processor) to easily support guest operating systems. The integrated DDR2 memory controller on Next-Generation AMD Opteron processors enhances virtualization and provides efficient isolation of virtual machine memory for improved security and support of virtual users. AMD Virtualization was developed in collaboration with AMD's enterprise-focused OEM partners and ISVs currently shipping commercial virtualization software such as Microsoft, Novell, VMware and Xen.

AMD's announcement marks Sun's continued support of AMD Opteron processors in its Sun Fire and Sun Ultra x64 servers and workstations, including the Sun Fire X2100 M2 server, Sun Fire X2200 M2 server and the Sun Ultra 20 M2 Workstation. Sun has revamped and expanded its entire x64 AMD Opteron processor-based server, workstation and High Performance Computing product lines with AMD's Next-Generation AMD Opteron processors. Sun Microsystems continues to be the only AMD partner who offers a complete solution of hardware and the Solaris 10 Operating System pre-installed on every system shipped, while still offering professional services and software solutions. The Solaris 10 OS sits at the core of many datacenter applications and supports more than 680 x86/x64 platforms.

HP will add Next-Generation AMD Opteron processors to the HP ProLiant DL385 and DL585 rack-optimized servers and the HP ProLiant BL25p, BL45p, BL465c and BL685c server blades as well as future workstations.

IBM is supporting the new processors in the five new System x and BladeCenter servers it now offers for business performance computing - a new compute model that leverages high performance computing capability to more effectively meet general business needs, such as business intelligence, enterprise resource planning and more.

Systems based on Next-Generation AMD Opteron processors are also being announced by a host of other manufacturers, including Egenera, Rackable Systems, Supermicro and others.

Starting with Next-Generation AMD Opteron processors, AMD will move to a 4-digit model number system. The new model numbers will continue to feature a 1, 2 or 8 in the first position to represent the scalability of each processor while adding a 2 in the second position, representing the second socket generation.

Model numbers will be as follows:
- Up to 1P = 12xx. Socket AM2
- Up to 2P = 22xx. Socket F (1207)
- Up to 8P = 82xx. Socket F (1207)

At the moment, 90 percent of the top 100 and more than 55 percent of the top 500 of the Forbes Global 2000 companies or their subsidiaries rely on AMD Opteron processor-based systems. Single- and Dual-Core AMD Opteron processors deliver exceptional performance and performance-per-watt to the market because they are built on AMD64 technology with Direct Connect Architecture, innovated to reduce bottlenecks inherent in traditional front-side bus architectures and enable a more efficient approach to computing.



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