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AMD Opteron 4000 Series Platform Press Presentation

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AMD Opteron 4000 Series Platform Press Presentation

  1. 1. The AMD Opteron™ 4000 Series Platform:Power Efficiency, Value and Flexibility<br />
  2. 2. Part Two of AMD’s Customer-Focused Server Strategy<br />Focused on markets not adequately addressed today<br />Primary: Cloud, hyperscale data centers<br />Secondary: SMB<br />World’s lowest power-per-core server processor¹<br />Unprecedented platform flexibility<br />Exceptional value<br />Extreme power efficiency for 1 and 2P platforms with full server features<br />Delivers consistency and scalability<br />1 As of June 8, 2010, AMD Opteron™ processor Models 4162 EE /4164 EE have the lowest known power per core of any server processor, at 5.83W (35W/6 = 5.83W/core). Intel’s L5609 is 10W/core (40W/4 cores). See http://www.intel.com/p/en_US/products/server/processor/xeon5000/specifications. <br />
  3. 3. AMD Opteron™ 4000 Series PlatformsNon-traditional/Custom Designs for 1 & 2P Cloud, Hyperscale Installations<br />Performance-per-watt and<br />Expandability for<br />2P/4P<br />AMD Opteron™6000 Series Platform <br />Standard Platforms<br />Traditional Rack/Tower/Blade<br />AMD Opteron™4000 Series Platform <br />Custom, purpose-driven Twins/ Container/”Skinless” Scale Out<br />Highly Energy Efficient and Cost-optimized for 1P/2P<br />
  4. 4. Meeting Cloud and Hyperscale Customers’ Needs<br />Help with Density Challenge<br />Platform designed to maximize efficiency in non-traditional data center configurations<br />Energy Efficiency<br />The lowest available power-per-core processor¹<br />Low User Response Time<br />DDR-3 and HyperTransport™ technology for low latency <br />Scalability For Future Expansion<br />1P & 2P platforms<br />Upgradeable to “Bulldozer” technology planned for 2011<br />Consistent, Yet Flexible Platforms<br />Consistency with AMD Opteron™ 6000 Series Platform for 2 and 4P <br />1 As of June 8, 2010, AMD Opteron™ processor Models 4162 EE /4164 EE have the lowest known power per core of any server processor, at 5.83W (35W/6 = 5.83W/core). Intel’s L5609 is 10W/core (40W/4 cores). See http://www.intel.com/p/en_US/products/server/processor/xeon5000/specifications. <br />
  5. 5. Cloud Server Decision Criteria¹<br />Traditional Server Workloads<br />Cloud Server Workloads<br />Less Important<br />More Important<br />Raw Performance<br />Core Scalability<br />Memory Scalability<br />Power Efficiency<br />Density<br />Cost<br />1 Based on internal AMD estimates of customer decision making criteria. <br />
  6. 6. The First True Cloud Server Platform<br />AMD Opteron™ 4000 Series Platform<br />Low power, custom-ready, and optimized for cloud<br />Traditional Server Platforms<br />Focus primarily on app performance and often “shoehorn” lower power processor choices into a higher power platform<br />Ultra Low Power Platforms<br />May help lower power consumption but often reduce scalability, remove key server features<br />
  7. 7. AMD Opteron™ 4100 Series ProcessorProduct Specifications<br />Direct Connect Architecture 2.0<br />AMD Virtualization (AMD-V™ ) Technology<br /><ul><li>Full suite of AMD V virtualization features including IOMMU and extended migration capability</li></ul>AMD-P<br /><ul><li>Full suite of AMD-P power management features</li></ul>HyperTransportTM3.0 Technology (HT3) Links <br /><ul><li>Two x16 links @ up to 6.4GT/s per link</li></ul>Memory<br /><ul><li>Integrated DDR3 memory controller – With DDR3-1333 support up to 21.3 GB/s  memory bandwidth per CPU for Socket C32
  8. 8. Dual Channel support for DDR3 and LV-DDR3 up to 1333</li></ul>Power Bands<br /><ul><li>32W, 50W and 75W ACP</li></li></ul><li>Designed to Drive Down Power Requirements<br />Advanced Platform Management Link (APML)*<br />C1E Power State<br />AMD <br /> Cool Speed technology<br />Low Voltage DDR-3 DIMM support<br />A sleep state invoked when all processor cores are idle<br />Reduces p-states when a temperature limit is reached<br />Lower memory voltage of 1.35V vs. standard memory at 1.5V<br />PTM - Closely monitors power/cooling <br />RPMI- Remote monitor and control of P-state limits<br />*In APML-enabled platforms <br />
  9. 9. Enabling our Partners to Help Drive Lower Power Budgets<br />Optimized Platforms<br />Data Center Savings<br />(10,000 servers)<br />Up to 8.7<br />kWh / year<br />$992,000<br />Estimated Yearly savings<br />(@ $.11USD/kWh)<br />up to <br />62W savings<br />Chassis Fans<br />Voltage Regulators<br />Power Supply<br />PCI-E<br />BIOS<br />Legacy I/O<br />USB<br />Source: AMD internal measurements and estimates. Information is provided for example purposes only. Any difference in system hardware or software design or configuration may affect actual power consumption. Dollar savings calculations are based on wattage savings estimates held constant over a year period at $0.11 per kWh including power estimated to cool using a 1.60 PUE. <br />
  10. 10. 2 Socket Platform Power Comparison<br />Low Power<br />AMD Opteron™ Processor Model 4100Designed for the Cloud, Hyperscale Data Centers<br /><ul><li>Ultra low power
  11. 11. Energy efficient AMD chipset
  12. 12. Support for low power RDDR3
  13. 13. AMD-P Technology
  14. 14. Platform-level power management support</li></ul>up to 24% lower power<br />Source: AMD internal platform power measurements (as of 06/02/2010) using a java-based workload. Information is provided for informational purposes only. Any difference in system hardware or software design or configuration may affect actual performance. For details and configurations refer to backup slide 21. <br />
  15. 15. Helping Maximize Data Center SpaceOptimized deployment with 5.5 KVA power budget<br />2008<br />2010<br />Server Power Comparison<br />AMD Opteron™ 4100 Series EE processors<br />AMD Opteron™ 2300 Series processors<br />Full rack of servers can fit within 5.5KVA power budget<br />wasted<br />density<br />Up to<br />2.8x more<br />performance<br />19 total servers<br />152 Cores<br />42 total servers<br />504 Cores<br />Source: AMD internal platform power measurements (as of 06/02/2010) using a java-based workload. Information is provided for informational purposes only. Any difference in system hardware or software design or configuration may affect actual performance. For details and configurations refer to backup slide 22. <br />
  16. 16. Outstanding ValueFirst 2P-Capable Server Processor at Sub-$100 Price1<br />Supports up to 2x more servers within the same power budget4<br />56-67% Lower Price²<br />As little as <br />$10 per 42U rack³ per day<br />Low Overall Server Cost<br />Enables simpler design for lower power consumption<br />Fans & Heatsinks<br />Motherboard<br />Power Supply<br />1 AMD Opteron™ processor Model 4122 planned $99 1KU pricing at time of introduction. 2 Based on 1KU published pricing ranges for Xeon 5600 series and planned 1KU pricing for AMD Opteron 2400 Series as of 6/8/2010. 3 Source: AMD internal platform power measurements and estimates using a java-based workload. Assumes 20% load-point and $0.11/KWh. Any difference in system hardware or software design or configuration may affect actual performance. For details and configurations refer to slides 23-24.4 Internal measurement s of Supermicro 2021M-UR with Quad-Core AMD Opteron™ processor Model 2380 processors vs. Tyan 8228 with AMD Opteron™ processors Model 4162 EE running java-based workload @ 100% load-point. Power measurements taken at the wall. Any difference in system hardware or software design or configuration may affect actual performance. For details and configurations refer to backup slide 22. <br />
  17. 17. Partner Platforms<br />Channel Infrastructure<br />HP Custom Solutions (2H10)<br />Including power-optimized motherboards and barebones platforms<br />Acer’s power-optimized twins and SMB platforms (2H10)<br />Dell DCS customized cloud platforms<br />
  18. 18. Additional New AMD Server Platform Options<br />AMD Opteron™ 4100 Series Processors for Embedded Solutions<br />For very low-power commercial embedded applications<br />Telecommunications<br />Network <br />Storage<br />Security Appliances<br />NEBS-friendly<br />Supporting highly customized, long-term designs<br />Industry-standard 5+2 years longevity for long-term, stable designs<br />Complete embedded platforms include low power AMD chipsets and graphics<br />Enterprise-class x86 can speed design and time to market <br />Scalable embedded roadmap allows for minor design updates with significant efficiency and performance improvements<br />
  19. 19. Summary: The AMD Opteron™ 4000 Series Platform<br />Focused on markets not adequately addressed today<br />Primary: Cloud, hyperscale data centers<br />Secondary: SMB<br />World’s lowest power-per-core server processor¹<br />Unprecedented platform flexibility<br />Exceptional value<br />Extreme power efficiency for 1 and 2P platforms with full server features<br />Delivers consistency, and scalability<br />1 As of June 8, 2010, AMD Opteron™ processor Models 4162 EE /4164 EE have the lowest known power per core of any server processor, at 5.83W (35W/6 = 5.83W/core). Intel’s L5609 is 10W/core (40W/4 cores). See http://www.intel.com/p/en_US/products/server/processor/xeon5000/specifications. <br />
  20. 20. Back-up <br />
  21. 21. Pricing Strategy Delivers Superior Advantage over Competition<br />Servers<br />AMD Previous<br />Competitive<br />AMD 2010 Pricing<br />AMD 8000/2000Series<br />Intel Xeon <br />AMD 6000/4000 Series<br />$3600+<br />$856<br />4P+<br />Enterprise<br />$2,649<br />$523<br />4P+<br />4P<br />$1663<br />$177<br />2P & 4P+<br />Scalable<br />$1386<br />$266<br />$1165<br />$174<br />6000<br />Series<br />2P + 4P<br />2P& 4P<br />Basic<br />2P<br />$698<br />$99<br />$589<br />$167<br />2P<br />4000<br /> Series<br />1P + 2P<br />1P<br />1P & 2P<br />Entry<br />$269<br />$112<br />1P<br />1P & 2P<br />Value/Ultra Value<br />Source: Current pricing is published on AMD.com and Intel.com for 1KU as of June 8, 2010; new AMD platform pricing is expected 1KU price at launch<br />
  22. 22. AMD Server Platform Strategy<br />2011<br />2010<br />4P/8P Platforms<br />~5% of Market*<br />Performance-per-watt and <br />Expandability<br />“Magny-Cours”<br />8 and 12 cores<br />“Interlagos”<br />12 and 16 cores<br />AMD Opteron™6000 Series Platform<br />(codenamed ”Maranello”)<br /><ul><li>2/4 socket; 4 memory channels
  23. 23. Highly scalable without compromising value</li></ul>2P Platforms<br />~75% of Market*<br />AMD SR5600 Series <br />Chipset/G34 & C32<br />Sockets<br />“Bulldozer”<br />Core<br />“Bulldozer”<br />Core<br />Platform Consistencyand Commonality<br />Highly Energy Efficient and Cost Optimized<br />AMD Opteron™4000 Series Platform<br />(codenamed “San Marino”and “Adelaide”)<br />“Valencia”<br />6 and 8 cores<br />“Lisbon”<br />4 and 6 cores<br />1P Platforms <br />~20% of Market*<br /><ul><li>1/2 socket; 2 memory channels
  24. 24. New levels of value and power efficiency</li></ul>*AMD internal estimates of total server market as of Q309<br />
  25. 25. All pricing based on planned 1KU prices at launch. *ACP stands for Average CPU Power. See www.amd.com/acp. †Using HyperTransport™ technology. <br />Power and Performance Bands – AMD Opteron 4100 Series Processors<br />
  26. 26. Designed To Easily Integrate<br />Consistent Images and Software<br />Same Features Across Power Bands<br />Same Die, Chipset and Memory enable:<br />No artificially limited features<br />Same API<br />Same BIOS Code<br />Same Drivers<br />Easier To Buy<br />No tradeoffs of performance & core functionality<br />Easier To Qualify<br />Full consistency across the entire processor stack<br />Easier To Manage<br />Seamlessly move virtual machines, easily migrate software between systems<br />
  27. 27. Configuration Information (Designed for the Cloud, “Istanbul” vs. “Lisbon”)<br />Six-Core AMD Opteron™ processor Model 2419 EE-based platform<br />AMD Opteron™ processor Model 4164 EE-based platform<br />Processor: 2x AMD Opteron™ processor Model 2419 EE<br />System: Tyan 8228, 128GB MMCRE28G5MXP-0VB SATA SSD<br />Memory: 4x 4GB 1. 5v RDDR3 1066 DIMMs<br />Power Supply: 3Y Power Technology YM-2415C<br />Processor: 2x AMD Opteron™ processor Model 4164 EE<br />System: Tyan 8228, 128GB MMCRE28G5MXP-0VB SATA SSD<br />Memory: 4x 4GB 1. 5v RDDR3 1066 DIMMs<br />Power Supply: 3Y Power Technology YM-2415C<br />Workload:<br />Server-side java business operations<br />Microsoft® Windows Server® 2008 R2 Enterprise E(100% load point) Edition (64-bit) / IBM J9 VM (build 2.4, J2RE 1.6.0 IBM J9 2.4 Windows Server 2008 amd64-64 jvmwa6460sr5ifx-20090612_37149 (JIT enabled, AOT enabled)<br />Balanced Profile Enabled<br />Power Measurement:<br />Yokogawa Electric International Pte. Ltd. Model WT210<br />Power data captured every 1 second over duration of workload <br />Thermal Environment:<br />Digi International Inc. Model Watchport/H temperature sensor <br />Power data captured at an ambient temperature of 20C<br />
  28. 28. Configuration Information (5.5 KVA Power Budget Comparison)<br />Quad-Core AMD Opteron™ processor Model 2380-based platform<br />AMD Opteron™ processor Model 4164 EE-based platform<br />Processor: 2x AMD Opteron™ processor Model 2380<br />System: Supermicro 2021M-UR+, 500GB WD5000ABPS<br />Memory: 8x 2GB RDDR2 667 DIMMs<br />Power Supply: 700W (Ablecom PWS-702A-1R)<br />Operating System: Novell SUSE Linux Enterprise Server 10) SP2 (64-bit, kernel 2.6.16.60-0.21) / Oracle JRockit(R) (build P27.5.0-5-97156-1.6.0_03-20080403-1523-linux-x86_64, compiled mode)<br />Performance per server: 308,089 server-side Java business operations <br />Processor: 2x AMD Opteron™ processor Model 4164 EE<br />System: ZT Systems 1253Ra Datacenter Server SATA SSD<br />Memory: 4x 4GB 2Rx4 PC3L-10600R-09-10-E1-D2 DIMMs<br />Power Supply: Emacs V1E-5250V<br />Operating System:<br />Microsoft® Windows Server® 2008 R2 Enterprise E(100% load point)Edition (64-bit) / IBM J9 VM (build 2.4, J2RE 1.6.0 IBM J9 2.4 Windows Server 2008 amd64-64 jvmwa6460sr5ifx-20090612_37149 (JIT enabled, AOT enabled)<br />Performance per server= 409,496 server-side java business operations<br />Workload:<br />Server-side java business operations<br />Balanced Profile Enabled<br />Power Measurement:<br />Yokogawa Electric International Pte. Ltd. Model WT210<br />Power data captured every 1 second over duration of workload <br />Thermal Environment:<br />Digi International Inc. Model Watchport/H temperature sensor <br />Power data captured at an ambient temperature of 20C<br />
  29. 29. Configuration Information (“Lisbon” Daily Power Cost) <br />AMD Opteron™ processor Model 4162 EE based platform<br />Processor: 2x AMD Opteron™ processor Model 4162 EE (pre-production EVT)<br />System: Tyan 8228 (R02)<br />Memory:4x 4GB 1.5v LV RDDR3 1066 DIMMs<br />Workload:<br />Server-side java business operations (20% load point)<br />Microsoft® Windows Server® 2008 R2 Enterprise Edition (64-bit)<br />Balanced Profile Enabled<br />Power Measurement:<br />Yokogawa Electric International Pte. Ltd. Model WT210<br />Power data captured every 1 second over duration of workload <br />Thermal Environment:<br />Digi International Inc. Model Watchport/H temperature sensor <br />Power data captured at an ambient temperature of ~20C<br />
  30. 30. Calculations for Daily Power Cost Estimates(“Lisbon” Daily Power Cost) <br />Workload & Power:<br />Server-side java<br />20% load point= 87.7W<br />Calculation assumes servers were operating at a constant 20% load point throughout the duration of the day.<br />KWh rate used was $0.11 (US)<br />Number of Servers: 42 <br />KWh: $ 0.11 <br />Percentage of time @20% Load Point: 100% <br />Server Power @ 20% Load Point: 87.7W <br />Estimated Annual Total Server Power Cost @ 20% load per server $84.51 <br />Estimate Daily Total Server Power Cost @ 20% load per server $0.23 <br />Estimated Annual Total Server Power Cost @ 20% load point based on 42 servers : $3,549.32 <br />Estimated Daily Total Server Power Cost @ 20% load point based on 42 servers $9.72 <br />
  31. 31. Forward-Looking Statement<br />This presentation contains forward-looking statements concerning AMD and technology partner product offerings which are made pursuant to the safe harbor provisions of the Private Securities Litigation Reform Act of 1995. Forward-looking statements are commonly identified by words such as "would," "may," "expects," "believes," "plans," "intends," “strategy,” “roadmaps,” "projects" and other terms with similar meaning. Investors are cautioned that the forward-looking statements in this presentation are based on current beliefs, assumptions and expectations, speak only as of the date of this presentation and involve risks and uncertainties that could cause actual results to differ materially from current expectations. With respect to AMD, risks include the possibility that Intel Corporation's pricing, marketing and rebating programs, product bundling, standard setting, new product introductions or other activities targeting AMD's business will prevent attainment of AMD's current plans; customers stop buying AMD’s products or materially reduce their operations or demand for its products; AMD will be unable to develop, launch and ramp new products and technologies in the volumes and mix required by the market and at mature yields on a timely basis; standards promulgated by open standards will be adopted at rates slower than currently projected, demand for computers and, in turn, demand for AMD’s products will be lower than currently expected; there will be unexpected variations in market growth and demand for AMD’s products and technologies in light of the product mix that it may have available at any particular time or a decline in demand; and AMD will be unable to maintain the level of investment in research and development that is required to remain competitive. Investors are urged to review in detail the risks and uncertainties in AMD’s Securities and Exchange Commission filings, including but not limited to the Annual Report on Form 10-K for the fiscal year ended December 26, 2009.<br />Trademark Attribution AMD, the AMD Arrow logo, AMD Opteron, and combinations thereof are trademarks of Advanced Micro Devices, Inc.  HyperTransport is a licensed trademark of the HyperTransport Technology Consortium.  Other names are for informational purposes only and may be the trademarks of their respective owners.<br /> <br />©2010 Advanced Micro Devices, Inc. All rights reserved.<br />

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