32nm32nm WestmereWestmere FamilyFamily ofof ProcessorsProcessors Stephen L. Smith Vice President, Director of Group Operations Digital Enterprise Group Contact: George Alfs (408)765-5707 HighlightsHighlights fromfrom PaulPaul OtelliniOtellini SpeechSpeech TodayToday y Intel is making the largest-ever investment in a single process technology in the U.S. to support advanced manufacturing facilities upgrades. and the move to its next-generation, 32nm chip manufacturing technology. y Intel is investing approximately $7 billion this year and next on 32nm manufacturing technology, bringing our total by the end of next year to approximately $8 billion (for 32nm investment in the U.S.). y This new investment is made against the backdrop of Intel’’s combined capital and R&D investment in the U.S. of more than $50 billion since 2002. y This new multi-billion-$ investment to upgrade facilities in New Mexico, Arizona and Oregon will ensure U.S. state-of-the-art chip technology manufacturing. y – Oregon (D1D, D1C, and AFO) y – New Mexico (Fab 11x ) y – Arizona (Fab 22-32 megafab) All dates, product descriptions, availability, and plans are forecasts and subject to change without notice. TickTick--TockTock DevelopmentDevelopment Model:Model: Sustained Microprocessor Leadership ® ™ Intel® Microarchitecture Future Intel® Intel Core Microarchitecture codename Nehalem Microarchitecture Sandy Merom Penryn Nehalem Westmere Bridge NEW NEW NEW NEW NEW Microarchitecture Process Technology Microarchitecture Process Technology Microarchitecture 65nm 45nm 45nm 32nm 32nm TOCK TICK TOCK TICK TOCK Forecast All dates, product descriptions, availability, and plans are forecasts and subject to change without notice. IntelIntel 32nm32nm ProductionProduction ReadyReady inin 20092009 Today’s News y Intel is demonstrating the first working 32nm based microprocessor, in both mobile and desktop systems y Great 32nm process and product health is enabling Intel to accelerate 32nm product ramp – Westmere mobile and desktop processor production in Q4’’09 – 32nm enables increased performance and power flexibility y Intel® processors based on Westmere will ramp into mobile, desktop, and server segments over time, as the 32nm process ramps All dates, product descriptions, availability, and plans are forecasts and subject to change without notice. WestmereWestmere Westmere: Nehalem migrated to 32nm process Client: brings Nehalem through the mainstream – Increased performance across single and multithread usages (vs. today’’s Intel Core 2 product family) – Enables processors (Codenamed Gulftown) with 6 cores supporting 12 threads on the desktop roadmap – Smaller processor core size – New Multi-Chip Package with graphics integrated in processor Server: extends leadership platforms – Clarkdale*: refresh 1 socket servers – Westmere based refresh for 2 socket servers – Westmere based refresh for 4+ socket servers Further Demonstrating Intel Product and Process Leadership All dates, product descriptions, availability, and plans are forecasts and subject to change without notice. * Client branded product supported for servers TransitioningTransitioning toto MainstreamMainstream 2008 2009+ 4 Cores / 2 Cores / 4 Threads with 8 Threads Integrated Graphics High End Desktop Mainstream nfield Lyn kdale Desktop Clar Thin & Light e sfield ndal Notebook Clark Arra 45 nm High-K 32nm High-K Repartitioned Client Platform Volume Ramp Vehicle All dates, product descriptions, availability, and plans are forecasts and subject to change without notice. Nehalem/WestmereNehalem/Westmere ClientClient RoadmapRoadmap 2009 2010+ X58 Platform 2010 HEDT Platform Intel® Core i7 Extreme Processor (4C/8T) 32nm Gulftown Processor (6C/12T) Desktop Extreme / Intel® Core i7 Processor (4C/8T) High-End Desktop Intel® X58 Express Chipset Intel® X58 Express Chipset Piketon / Kings Creek Platforms Desktop Performance / Lynnfield (4C/8T) Future Intel® Mainstream 32nm Clarkdale (2C/4T) micro- Intel 5 series Chipset architecture codename Sandy Bridge Mobile Calpella Platform Extreme / Clarksfield (4C/8T) Performance / 32nm Arrandale (2C/4T) Mainstream Intel 5 series-M Chipset 32nm Westmere extends NehaNehalemlem through the mainstream All dates, product descriptions, availability, and plans are forecasts and subject to change without notice. IntelIntel® XeonXeon® EnterpriseEnterprise RoadmapRoadmap 2009 2010+ Boxboro-EX Platform* 32nm Westmere Nehalem-EX Processor* Expandable Based Processor 7000 Sequence Boxboro-EX Chipset Tylersburg-EP Platform Future Intel® micro- 32nm Westmere Based Nehalem-EP Processor Processor architecture Efficient Performance Efficient Performance Tylersburg & Dual-IOH Chipsets codename 5000 Sequence Sandy Bridge Foxhollow Platform Lynnfield Processor 32nm Clarkdale Processor** Entry Intel 5 series Chipset 3000 Sequence 32nm Upgrades Across All Intel® Xeon® Segments: Entry (EN), Efficient Performance (EP) & Expandable (EX) All dates, product descriptions, availability, and plans are forecasts and subject to change without notice. * Targeted for production in 2H’09 ** Client branded product supported for servers MainstreamMainstream ClientClient PlatformPlatform RepartitioningRepartitioning Penryn based Westmere based 3-Chip Solution 2-Chip Solution Processor Processor PCIe iGFX IMC DDR 3 Graphics FSB Intel® Flexible PCIe Intel® 4 Series Chipset Display DMI Graphics Interface iGFX MC DDR 2/3 Intel® 5 Series Chipset DisplayDisplay Display ME Display Display DMI Clock Buffer ME ICH I/O Clocks I/OI/O Repartitioning of the Client Platform Greater Performance and Lower Power via Higher Integration FirstFirst 32nm32nm WestmereWestmere ProductsProducts 32nm Westmere processor core 45 nm Penryn processor Core 45nm integrated graphics & integrated memory controller Key Features Intel® Turbo Boost technology Intel® Hyper-Threading technology (2 Cores, 4 threads) Integrated graphics, discrete / switchable graphics support Integrated Memory Controller (IMC) – 2ch DDR3 Not all features are available on every processor line item Westmere:Westmere: AESAES NewNew InstructionsInstructions y Use additional transistor budget to add new capabilities – Similar to adding SSE4.1 in Penryn (45nm tick) y 7 new instructions for accelerating encryption/decryption algorithms – Carryless multiply (PCLMULQDQ) – 6 instructions for AES y Example client usage – Enables full disk encryption Early Intel Analysis shows significant Speedup on Encryption TickTick--TockTock DevelopmentDevelopment Model:Model: SustainedSustained MicroprocessorMicroprocessor LeadershipLeadership ® ™ Intel® Microarchitecture Future Intel® Intel Core Microarchitecture codename Nehalem Microarchitecture Sandy Merom Penryn Nehalem Westmere Bridge NEW NEW NEW NEW NEW Microarchitecture Process Technology Microarchitecture Process Technology Microarchitecture 65nm 45nm 45nm 32nm 32nm Done Done Done On Track On Track TOCK TICK TOCK TICK TOCK Forecast Summary: y 32nm process technology on track for Q4’’09 production readiness y 32nm enables increased performance and power flexibility y Westmere-based processors will span across Desktop, Mobile, and Server All dates, product descriptions, availability, and plans are forecasts and subject to change without notice. BackBack--UpUp NehalemNehalem andand WestmereWestmere DecoderDecoder RingRing Segment Nehalem (45nm) Westmere (32nm) High-End Bloomfield (4C / 8T) Gulftown (6C / 12T) Desktop Mainstream Lynnfield (4C / 8T) Clarkdale (2C / 4T + iGFX) Mobile Clarksfield (4C / 8T) Arrandale (2C / 4T + iGFX) Expandable Future Westmere Based Nehalem-EX (8C / 16T) Scalable Processor (typically 4+ sockets) Server Efficient Future Westmere Based Nehalem-EP (4C / 8T) Performance Processor (typically 2 sockets) Entry (EN) Lynnfield (4C / 8T) Clarkdale (2C / 4T + iGFX)* (typically 1 socket) * Client branded product supported for servers WestmereWestmere FamilyFamily MainstreamMainstream DesktopDesktop // MobileMobile ProcessorProcessor Westmere Family 1 KeyKey Features Features1:: Processor Integrated / Switchable •• IntelIntel microarchitecture microarchitecture co codenamedename Nehalem Nehalem on on 32nm 32nm Discrete Graphics •• Multi-ChipMulti-Chip Package Package (MCP) (MCP) processor processor with: with: nd •• processorprocessor cores cores built built on on 32nm 32nm 2 2nd generationgeneration high-khigh-k metal metal gate gate process process •• integratedintegrated graphics graphics controller controller & & memory memory Intel® DMI controllercontroller built built on on 45nm 45nm high-k high-k metal metal gate gate process process FDI •• Intel®Intel®TurboTurbo Boost Boost technology technology •• Intel®Intel®Hyper-ThreadingHyper-Threading technology technology (2 (2 Cores, Cores, 4 4 threads) threads) •• Intel®Intel® SmartSmart Cache Cache •• IntegratedIntegrated memory memory controller controller (IMC) (IMC) •• Integrated,Integrated, discrete discrete / / switchable switchablegraphicsgraphics support support Intel® 5 series •• AdvancedAdvanced Encryption Encryption Standard Standard (AES) (AES) acceleration acceleration Chipset •• CompatibleCompatible with with the the Intel Intel®® 55 series series chipset chipset based based platformsplatforms due due to to be be released released in in 2H’09 2H’09 Worlds First 32nm Based Processor 1 Intel® FDI: Intel Flexible Not all features are available on every processor line item Display Interface LegalLegal InformationInformation INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH INTEL PRODUCTS. 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