Solution Provider Accounts October 2007
Contents Updates since September 2007 Roadmaps & Longevity Core Roadmap New Desktop Model Numbers Model Roadmap & Longevity Model Compare Points Schedules Infrastructure Processor Features While in presentation mode, click on the title to hyperlink to that topic. Note: Removing pages may affect the accuracy of the hyperlinks. 2 October 2007
Desktop Division Roadmap Updates since September 2007 Additions NEW! Added Athlon X2 5400+ dual core product for Q1 08 What s Changed Phenom triple-core products have changed from 7-series to 8-series family Phenom triple- and quad-core product TDPs have changed from 89W to 95W 65W Brisbane Athlon X2 5600+ launch has moved from mid-q4 07 to Q1 08 3 October 2007
Processor Roadmap 4 October 2007
New Desktop Model Number Structure Based on customer feedback, AMD is revising its new Desktop model number structure for even greater simplicity! Going forward, Desktop models will be comprised of the Desktop Brand and model number only* BRAND / MODEL SERIES AMD Phenom FX-82 (FX Enthusiast family) AMD Phenom 9500 Brand AMD Phenom Processors AMD Athlon Processors AMD Sempron Processors AMD Phenom 9500 (Quad-core family) AMD Phenom 8600 (Triple-core family) AMD Athlon 6250 (Dual-core family) Series Indicates major benefit steps Increases with feature enhancements within a family AMD Athlon LE-1640 (Single-core) AMD Sempron LE-1300 (Single-core) * Some in-market products may retain their current model number structure 5 October 2007
PERFORMANCE AMD Phenom FX and AMD Athlon 64 FX Multi-Core Processors DESKTOP 4Q07 1Q08 AMD Phenom FX-82 >2.6GHz, 2MB L2*, 2MB Shared L3 DDR2-800 4000 HT 3.0 Bus TDP tbd AMD Athlon 64 FX-74 3.0GHz, 2MB L2* DDR2-800 2000 HT 2.0 Bus 125W Dual-Core DSDC * indicates the total dedicated L2 cache for the processor = "Agena FX" quad-core,, Pkg AM2+ = "Windsor FX" dual-core, 90nm SOI, Pkg 1207 6 October 2007 schedule change Last Order Final Shipments
MAINSTREAM AMD Phenom Quad and Triple-Core Processors DESKTOP 4Q07 1Q08 AMD Phenom 9700 2.6GHz, 4000 HT 3.0 Bus, DDR2-800 125W - Quad-Core AMD Phenom 9600 2.4GHz, 3600 HT 3.0 Bus, DDR2-800 95W - Quad-Core AMD Phenom 9500 2.2GHz, 3600 HT 3.0 Bus, DDR2-800 95W - Quad-Core AMD Phenom 8700 2.5GHz, 3600 HT 3.0 Bus, DDR2-800 AMD Phenom 8600 2.3GHz, 3200 HT 3.0 Bus, DDR2-800 95W 95W Phenom triple-core family is now the 8-series * indicates the total dedicated L2 cache for the processor = "Agena" quad-core, DDR2,, 2MB Dedicated L2, 2MB Shared L3, Pkg AM2+ = Toliman triple-core, DDR2,, 1.5MB Dedicated L2, 2MB Shared L3, Pkg AM2+ schedule change Last Order Final Shipments 7 October 2007
MAINSTREAM AMD Athlon Dual-Core Processors DESKTOP 4Q07 1Q08 AMD Athlon64 X2 6400+ 3.2GHz, 2MB L2* DDR2-800 125W (Disti Only) AMD Athlon 64 X2 6000+ 3.0GHz, 2MB L2* DDR2-800 89W 125W AMD Athlon 64 X2 5600+ DDR2-800 65W 89W, 2.8GHz, 2MB Dedicated*L2 AMD Athlon 64 X2 5400+ 2.8GHz, 1MB L2* DDR2-800 AMD Athlon 64 X2 5200+ 2.7GHz, 1MB L2* DDR2-800 65W 65W New X2 5400+ Brisbane model * indicates the total dedicated L2 cache for the processor = Kuma dual-core, DDR2,, Pkg AM2+, 3200 HT 3.0 Bus = "Brisbane" dual-core, DDR2,, Pkg AM2, 2000 HT 2.0 Bus = "Windsor" dual-core, DDR2, 90nm SOI, Pkg AM2, 2000 HT 2.0 Bus 8 October 2007 Last Order Final Shipments schedule change
MAINSTREAM AMD Athlon Dual-Core Processors DESKTOP AMD Athlon 64 X2 5000+ 2.6GHz, 1MB L2* DDR2-800 4Q07 65W 1Q08 AMD Athlon 64 X2 4800+ 2.5GHz, 1MB L2* DDR2-800 65W AMD Athlon 64 X2 4400+ 2.3GHz, 1MB L2* DR2-800 65W AMD Athlon 64 X2 4200+ 2.2GHz, 1MB L2* DDR2-800 65W 65W AMD Athlon 64 X2 4000+ 2.1GHz, 1MB L2* DDR2-800 65W * indicates the total dedicated L2 cache for the processor = "Brisbane" dual-core, DDR2,, Pkg AM2, 2000 HT 2.0 Bus = "Windsor" dual-core, DDR2, 90nm SOI, Pkg AM2, 2000 HT 2.0 Bus 9 October 2007 Last Order Final Shipments schedule change
MAINSTREAM 45W Energy Efficient Dual-Core Processors DESKTOP 4Q07 1Q08 AMD Athlon X2 BE-2400 2.3GHz, 1MB L2*, DDR2-800 45W AMD Athlon X2 BE-2350 2.1GHz, 1MB L2*, DDR2-800 45W AMD Athlon X2 BE-2300 1.9GHz, 1MB L2*, DDR2-800 45W * indicates the total dedicated L2 cache for the processor = "Brisbane" dual-core, DDR2,, Pkg AM2, 2000 HT 2.0 Bus schedule change 10 October 2007 Last Order Final Shipments
VALUE AMD Athlon Single-Core Processors DESKTOP AMD Athlon 1640 2.7GHz, 512KB L2 Pkg AM2, 2000 HT 2.0 Bus 4Q07 1Q08 45W (OEM) AMD Athlon LE-1640 2.6GHz, 1MB L2 Pkg AM2, 2000 HT 2.0 Bus 45W (Disti only) AMD Athlon LE-1620 2.4GHz, 1MB L2 Pkg AM2, 2000 HT 2.0 Bus AMD Athlon LE-1600 2.2GHz, 1MB L2 Pkg AM2, 2000 HT 2.0 Bus AMD Athlon 64 4000+ 2.6GHz, 512KB L2 Pkg AM2, 2000 HT 2.0 Bus AMD Athlon 64 3800+ 2.4GHz, 512KB L2 Pkg AM2, 2000 HT 2.0 Bus AMD Athlon 64 3500+ 2.2GHz, 512KB L2 Pkg AM2, 2000 HT 2.0 Bus 45W (Disti only) 45W (Disti only) 62W 62W 62W 11 = Lima" single-core, DDR2, = "Orleans" single-core, DDR2, 90nm SOI October 2007 schedule change Last Order Final Shipments
VALUE AMD Sempron Single-Core Processors DESKTOP AMD Sempron LE-1300 2.3GHz, 512KB L2 Pkg AM2, 1600 HT 1.0 Bus AMD Sempron LE-1250 2.2GHz, 512KB L2 Pkg AM2, 1600 HT 1.0 Bus AMD Sempron LE-1200 2.1GHz, 512KB L2 Pkg AM2, 1600 HT 1.0 Bus 4Q07 45W 45W 1Q08 45W AMD Sempron LE-1150 2.0GHz, 256KB L2 Pkg AM2, 1600 HT 1.0 Bus 45W AMD Sempron LE-1100 1.9GHz, 256KB L2 Pkg AM2, 1600 HT 1.0 Bus AMD Sempron 3800+ 2.2GHz, 256KB L2 Pkg AM2, 1600 HT 1.0 Bus AMD Sempron 3600+ 2.0GHz, 256KB L2 Pkg AM2, 1600 HT 1.0 Bus AMD Sempron 3400+ 1.8GHz, 256KB L2 Pkg AM2, 1600 HT 1.0 Bus 45W 62W 62W 62W "Brisbane" 12 = Sparta single-core, DDR2, = Manila" single-core, DDR2, 90nm SOI October 2007 schedule change Last Order Final Shipments
Competitive Positioning 13 October 2007
RELATIVE PERFORMANCE RELATIVE PERFORMANCE Processor Line-up Overall Performance Dual-Core Single-Core AMD Competition AMD Competition X2 6400+ X2 6000+ X2 5600+ X2 5200+ X2 5000+ X2 4800+ X2 4400+ X2 4200+ X2 4000+ Core 2 Duo E6750 Core 2 Duo E6700 Core 2 Duo E6550 Core 2 Duo E6600 Core 2 Duo E4500 Core 2 Duo E6420 Core 2 Duo E6400 Core 2 Duo E4400 Core 2 Duo E6320 Core 2 Duo E6300 Core 2 Duo E4300 Pentium E2160 Athlon LE-1640 A64 4000+ Athlon LE-1620 A64 3800+ Athlon LE-1600 A64 3500+ Sempron LE-1300 Sempron LE-1250 Sempron LE-1200 Sempron 3800+ Sempron LE-1150 Sempron 3600+ Sempron LE-1100 Sempron 3400+ Pentium 4 551 Pentium 4 541/641 Celeron D 360 Celeron 4xx Pentium 4 531/631 Celeron 440 Celeron D 355/356 Celeron 430 Celeron D 351/352 Celeron 420 Celeron D 346 Note: Performance tested using AMD's standard benchmark suite of tests. 14 October 2007
RELATIVE PERFORMANCE Processor Line-up Overall Phenom Performance Quad-Core AMD Competition AMD Phenom 9700 AMD Phenom 9600 Core 2 Extreme QX6700 AMD Phenom 9500 Core 2 Quad Q6600 Note: Performance tested using AMD's standard benchmark suite of tests. 15 October 2007
Schedules 16 October 2007
Production Schedule Upcoming AM2+ Processor Launches MODEL TDP CORE PKG DVT SAMPLES PRODUCTION ORDER AVAILABILITY AMD Phenom FX quad-core processors FX-82 TBD "Agena FX" AM2+ 4Q 2007 1Q 2008 1Q 2008 AMD Phenom quad core processors 9700 125W "Agena" AM2+ Nov 2007 Dec 2007 Dec 2007 9600 95W "Agena" AM2+ Nov 2007 Nov 2007 Nov 2007 9500 95W "Agena" AM2+ Nov 2007 Nov 2007 Nov 2007 AMD Phenom triple core processors 8700 95W Toliman" AM2+ Jan 2008 Feb 2008 Feb 2008 8600 95W Toliman" AM2+ Jan 2008 Feb 2008 Feb 2008 17 October 2007
Production Schedule Upcoming AM2 Processor Launches MODEL TDP CORE PKG DVT SAMPLES PRODUCTION ORDER AVAILABILITY AMD Athlon dual-core processors X2 5600+ 65W Brisbane AM2 1Q 2008 1Q 2008 2Q 2008 X2 5400+ 65W Brisbane AM2 Oct 2007 Nov 2007 1Q 2008 X2 4200+ 65W Brisbane AM2 Now Now Now AMD Athlon single-core processors 1640 45W Lima AM2 Nov 2007 Jan 2008 Jan 2008 LE-1640 45W Orleans AM2 Now Jan 2008 Jan 2008 LE-1620 45W Orleans AM2 Now Now Now LE-1600 45W Orleans AM2 Now Now Now AMD Sempron single-core processors LE-1300 45W Sparta" AM2 Now 1Q 2008 1Q 2008 LE-1250 45W Sparta" AM2 Now Now Now LE-1200 45W Sparta" AM2 Now Now Now LE-1100 45W Sparta" AM2 Now Now Now 18 October 2007
Model Numbers 19 October 2007
Desktop Processor Models All Models AMD Phenom FX 4Q07 1Q08 FX-82 (1P) 2Q08 FX-82 (1P) 3Q08 FX-8x (1P) FX-82 (1P) AMD Athlon 64 FX FX-74 (2P) FX-74 (2P) AMD Phenom 9700 9600 9500 9700 9600 9500 9xxx 9700 9600 9500 9xxx 9700 9600 8700 8600 8700 8600 8xxx 8700 8600 AMD Athlon X2 BE-2400 X2 BE-2350 X2 BE-2300 X2 BE-2400 X2 BE-2350 X2 BE-2300 6250 6050 4850e 4450e 4050e 6250 6050 4850e 4450e 4050e AMD Athlon 64 X2 AMD Athlon 64 AMD Sempron 6000+ 5600+ 5200+ 5000+ 4800+ 4400+ 4200+ 4000+ LE-1620 LE-1600 4000+ 3800+ 3500+ 3800+ 3600+ 3400+ LE-1250 LE-1200 LE-1150 LE-1100 6400+ 6000+ 5600+ 5400+ 5200+ 5000+ 4800+ 4400+ 4200+ LE-1640 LE-1620 LE-1600 LE-1300 LE-1250 LE-1200 LE-1150 LE-1100 6400+ 6000+ 5xxx+ 5600+ 5400+ 5200+ 5000+ 4800+ 4400+ 16xx 1640 1620 1300 1250 1200 1150 5xxx+ 5600+ 5400+ 5200+ 5000+ 4800+ 4400+ 16xx 16xx 1640 1300 1250 1200 1150 Black = AM2 pkg Green = AM2+ pkg Blue = 1207 pkg 20 October 2007
Infrastructure Information We encourage customers & ecosystem solution providers to visit AMD s public website for infrastructure items including: System Component Information Motherboards Thermal Solution Guidelines Memory Guidelines Power Supply Guidelines Tower Chassis Guidelines www.amd.com/partsguide Open Platform Management Architecture (OPMA) specification www.amd.com/opma Support Components www.amd.com/us-en/processors/productinformation/0,,30_118_9485,00.html Online Processor Quick Reference Guide www.amdcompare.com/us-en/desktop/ AMD64 Ecosystem www.amd.com/amd64ecosystem AMD Lead-Free Initiative www.amd.com/leadfree 21 October 2007
Disclaimer & Attribution DISCLAIMER The information presented in this document is for information purposes only. The information contained herein is subject to change and may be rendered inaccurate for many reasons, including, but not limited to product and roadmap changes, component and motherboard version changes, new model and/or product releases, product differences between differing manufacturers, software changes, BIOS flashes, firmware upgrades, or the like. AMD assumes no obligation to update or otherwise correct or revise this information. However, AMD reserves the right to revise this information and to make changes from time to time to the content hereof without obligation of AMD to notify any person of such revisions or changes. AMD MAKES NO REPRESENTATIONS OR WARRANTIES WITH RESPECT TO THE CONTENTS HEREOF AND ASSUMES NO RESPONSIBILITY FOR ANY INACCURACIES, ERRORS OR OMISSIONS THAT MAY APPEAR IN THIS INFORMATION. AMD SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. IN NO EVENT WILL AMD BE LIABLE TO ANY PERSON FOR ANY DIRECT, INDIRECT, SPECIAL OR OTHER CONSEQUENTIAL DAMAGES ARISING FROM THE USE OF ANY INFORMATION CONTAINED HEREIN OR FOR THE PERFORMANCE OR OPERATION OF ANY PERSON, INCLUDING, WITHOUT LIMITATION, ANY LOST PROFITS, BUSINESS INTERRUPTION, DAMAGE TO OR DESTRUCTION OF PROPERTY, OR LOSS OF PROGRAMS OR OTHER DATA, EVEN IF AMD IS EXPRESSLY ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. ATTRIBUTION 2007. Advanced Micro Devices, Inc. All rights reserved. AMD, the AMD Arrow logo, AMD Athlon, AMD Sempron, Cool'n'Quiet, AMD Virtualization, AMD-V, AMD Digital Media Xpress, AMD LIVE!, and combinations thereof, are trademarks of Advanced Micro Devices, Inc. HyperTransport is a licensed trademark of the HyperTransport Technology Consortium. Microsoft and Windows are registered trademarks of Microsoft Corporation in the U.S. and/or other jurisdictions. PCI Express is a registered trademark of PCI-SIG. PCIe and PCI Express are licensed trademarks of PCI-SIG. Linux is a registered trademark of Linus Torvalds. Other names are for informational purposes only and may be trademarks of their respective owners. Other names are for informational purposes only and may be trademarks of their respective owners. 22 October 2007
Processor Features 23 October 2007
Desktop Technologies FEATURE FUNCTION END USER BENEFIT Direct Connect Architecture Designed to eliminate the real challenges and reduce bottlenecks of traditional front-side bus architectures through the use of separate, dedicated high-speed links between the processor and main memory between the processor and I/O between CPUs on a platform Leading-edge performance Helps avoid delays caused when multiple components compete for access to the same common bus Competing x86 architectures use a common front-side bus (FSB) Native Multi-Core Design Extensive AMD64 architectural optimizations and features enable thorough integration of multiple cores within the same processor, with each core having its own L1 and L2 caches Provides true implementation of multiple processor cores Simultaneous 32-bit and 64-bit computing AMD64 technology enables a breakthrough approach to 64-bit computing that doubles the number of registers in the processor, and offers leading-edge performance on today s 32-bit software applications while enabling a seamless migration to the 64-bit computing future Can support both 32-bit and 64-bit applications Permits continued use of 32-bit software until the end user decides to transition to 64-bit software HyperTransport technology A high-speed, low latency, point-to-point communication link, for outstanding bandwidth between system components Provides incredible system agility and graphics performance capability Integrated Memory Controller Directly connects CPUs to memory, for industry-leading memory performance and bandwidth per CPU Enhances performance as memory access latency can be dramatically reduced 24 October 2007
Desktop Technologies FEATURE FUNCTION END USER BENEFIT AMD Digital Media XPress Provides support for SSE, SSE2, SSE3 and MMX instructions Takes 3-D and graphics to new levels in games, video, DVDs, and more DDR2 Memory 2 nd generation DDR memory designed to improve overall memory performance through increased bandwidth and larger densities Memory performance AMD Cool'n'Quiet Technology AMD Virtualization (AMD-V ) Enhanced Virus Protection (EVP)* For dynamically switching performance states (processor core voltage and operating frequency) based on processor performance requirements Silicon feature-set enhancements designed to improve the performance, reliability, and security of existing and future virtualization environments Sets part of system memory aside as data only so resident code cannot be executed, only read from or written to Power management to limit heat and noise without hindering performance, making a more pleasant and comfortable home or work environment Get the most out of your hardware by colocating legacy and modern operating systems, installing trusted and untrusted partitions on the same hard-disk or using the same machine for both client-facing and business-facing applications. To safeguard music, pictures, video and other important data. Silicon-on-Insulator (SOI) Technology SOI technology is used to minimize substrate capacitive effects and leakage current for each of the millions of transistors within each AMD64 processor AMD64 processors can provide leading-edge performance while also using less power when compared to competing processor designs * Enhanced Virus Protection (EVP) is only enabled by certain operating systems including the current versions of Microsoft Windows, Linux, Solaris and BSD Unix. After properly installing the appropriate operating system, users must enable the protection of their applications and associated files from buffer overrun attacks. Contact your application software vendor for information regarding use of the application in conjunction with EVP. AMD strongly recommends that users continue to use third party anti-virus software as part of their security strategy. 25 October 2007
Architecture Comparison AMD Direct Connect Architecture for the peak processor-to-system bandwidth Direct Connect Architecture Front Side Bus Architecture I/O Chipset Up to 4.0GHz bidirectional HyperTransport technology link I/O Chipset 800 or 1066 FSB bottleneck Processor accesses main memory directly on the dedicated memory bus 12.8 GB/s of peak BW (using DDR2-800) for Stars & Cities Cores Processor access to I/O with up to... Up to 16.0 GB/s peak BW for Stars Cores 8.0 GB/s peak BW for Cities Cores With separate busses for memory access and I/O access, the peak processor-to-system BW is the sum of the two bus bandwidths Up to 28.8 GB/s processor-to system peak BW for Stars Cores 20.8 GB/s processor-to system peak BW for Cities Cores Processor indirectly accesses main memory (through North Bridge chip) on the FSB 6.4 GB/s of peak BW (using DDR2-800) Processor I/O access using the same FSB 8.5GB/s of peak BW (using 1066 FSB) 6.4GB/s of peak BW (using 800 FSB) With the FSB used to access both memory and I/O, the peak processor-to-system BW is the larger of the two values 8.5GB/s of P-S peak BW (using 1066 FSB) 6.4GB/s of P-S peak BW (using 800 FSB) 26 October 2007
Processor Features AMD FX Processors MODEL (Pkg) CLOCK SPEED TDP CACHE CORE CORES ON DIE MAX CPU BW 1 I/O BUS SPEED 6 Memory Speed IMC 2 CnQ 3 AMD-V EVP 4 AMD Phenom FX processors Pkg AM2+ FX-82 >2.6GHz tbd 2MB Dedicated 5 L2 2MB Shared L3 "Agena FX" 4 cores 28.8 GB/s 4000 800 yes yes yes yes AMD Athlon 64 FX processors Pkg 1207 FX-74 3.0GHz 125W 2MB Dedicated 5 L2 "Windsor" 90nm SOI 2 cores 20.8 GB/s 2000 800 yes yes yes yes Notes: - AM2+ is referenced as AM2r2 in AMD technical documentation. - Deneb FX and "Agena FX" product name is a code names for a specific model in the STARS family of processors. - Customers should always consult our technical documentation for design specifications. 1 MAX CPU BW = Maximum processor-to-system bandwidth 2 IMC = Integrated Memory Controller 3 CnQ = AMD Cool'n'Quiet technology 4 EVP = Enhanced Virus Protection* 5 indicates the total dedicated L2 cache for the processor 6 Bidirectional I/O Bus Speed * Enhanced Virus Protection (EVP) is only enabled by certain operating systems including the current versions of Microsoft Windows, Linux, Solaris and BSD Unix. After properly installing the appropriate operating system, users must enable the protection of their applications and associated files from buffer overrun attacks. Contact your application software vendor for information regarding use of the application in conjunction with EVP. AMD strongly recommends that users continue to use third party anti-virus software as part of their security strategy. 27 October 2007
Processor Features AMD Phenom Multi-Core Processors MODEL CLOCK SPEED TDP CACHE CORE CORES ON DIE MAX CPU BW 1 I/O BUS SPEED 6 Memory Speed IMC 2 CnQ 3 AMD-V EVP 4 AMD Phenom quad-core processors Pkg AM2+ 9700 2.6GHz 125W 2MB Dedicated 5 L2 2MB Shared L3 Agena" 4 cores 28.8 GB/s 4000 800 yes yes yes yes 9600 2.4GHz 95W 9500 2.2GHz 95W 2MB Dedicated 5 L2 2MB Shared L3 Agena" 4 cores 27.2 GB/s 3600 800 yes yes yes yes AMD Phenom triple-core processors Pkg AM2+ 8700 2.5GHz 95W 1.5MB Dedicated 5 L2 2MB Shared L3 Toliman" 3 cores 27.2 GB/s 3600 800 yes yes yes yes 8600 2.3GHz 95W 1.5MB Dedicated 5 L2 2MB Shared L3 Toliman" 3 cores 25.6 GB/s 3200 800 yes yes yes yes Notes: - AM2+ is referenced as AM2r2 in AMD technical documentation. - Deneb, "Agena and Toliman product names are code names for specific models in the STARS family of processors. - Customers should always consult our technical documentation for design specifications. 1 MAX CPU BW = Maximum processor-to-system bandwidth 2 IMC = Integrated Memory Controller 3 CnQ = AMD Cool'n'Quiet technology 4 EVP = Enhanced Virus Protection* 5 indicates the total dedicated L2 cache for the processor 6 Bidirectional I/O Bus Speed * Enhanced Virus Protection (EVP) is only enabled by certain operating systems including the current versions of Microsoft Windows, Linux, Solaris and BSD Unix. After properly installing the appropriate operating system, users must enable the protection of their applications and associated files from buffer overrun attacks. Contact your application software vendor for information regarding use of the application in conjunction with EVP. AMD strongly recommends that users continue to use third party anti-virus software as part of their security strategy. 28 October 2007
Processor Features AMD Athlon Dual-Core Processors MODEL CLOCK SPEED TDP CACHE CORE CORES ON DIE MAX CPU BW 1 I/O BUS SPEED 6 Memory Speed IMC 2 CnQ 3 AMD-V EVP 4 AMD Athlon 64 X2 dual-core processors Pkg AM2 6400+ 3.2GHz 125W 2MB Dedicated 5 L2 Windsor" 6000+ 3.0GHz 125W 89W 2MB Dedicated 5 L2 "Windsor" 90nm SOI 5600+ 2.9GHz 65W 1MB Dedicated 5 L2 2.8GHz 89W 2MB Dedicated 5 L2 "Brisbane" "Windsor" 90nm SOI 2 cores 20.8 GB/s 2000 800 yes yes yes yes 5400+ 2.8GHz 65W 1MB Dedicated 5 L2 5200+ 2.7GHz 65W 1MB Dedicated 5 L2 "Brisbane" "Brisbane" Notes: - AM2+ is referenced as AM2r2 in AMD technical documentation. - Kuma product name is a code name for specific models in the STARS family of processors. 1 MAX CPU BW = Maximum processor-to-system bandwidth 2 IMC = Integrated Memory Controller 3 CnQ = AMD Cool'n'Quiet technology 4 EVP = Enhanced Virus Protection* 5 indicates the total dedicated L2 cache for the processor 6 Bidirectional I/O Bus Speed * Enhanced Virus Protection (EVP) is only enabled by certain operating systems including the current versions of Microsoft Windows, Linux, Solaris and BSD Unix. After properly installing the appropriate operating system, users must enable the protection of their applications and associated files from buffer overrun attacks. Contact your application software vendor for information regarding use of the application in conjunction with EVP. AMD strongly recommends that users continue to use third party anti-virus software as part of their security strategy. 29 October 2007 Note: Customers should always consult our technical documentation for design specifications.
Processor Features AMD Athlon Dual-Core Processors MODEL CLOCK SPEED TDP CACHE CORE CORES ON DIE MAX CPU BW 1 I/O BUS SPEED 6 Memory Speed IMC 2 CnQ 3 AMD-V EVP 4 AMD Athlon 64 X2 dual-core processors Pkg AM2 5000+ 2.6GHz 65W 1MB Dedicated 5 L2 "Brisbane" 4800+ 2.5GHz 65W 1MB Dedicated 5 L2 "Brisbane" 4400+ 2.3GHz 65W 1MB Dedicated 5 L2 4200+ 2.2GHz 65W 1MB Dedicated 5 L2 "Brisbane" "Brisbane" "Windsor" 90nm SOI 2 cores 20.8 GB/s 2000 800 yes yes yes yes 4000+ 2.1GHz 65W 1MB Dedicated 5 L2 "Brisbane" Note: Customers should always consult our technical documentation for design specifications. 1 MAX CPU BW = Maximum processor-to-system bandwidth 2 IMC = Integrated Memory Controller 3 CnQ = AMD Cool'n'Quiet technology 4 EVP = Enhanced Virus Protection* 5 indicates the total dedicated L2 cache for the processor 6 Bidirectional I/O Bus Speed * Enhanced Virus Protection (EVP) is only enabled by certain operating systems including the current versions of Microsoft Windows, Linux, Solaris and BSD Unix. After properly installing the appropriate operating system, users must enable the protection of their applications and associated files from buffer overrun attacks. Contact your application software vendor for information regarding use of the application in conjunction with EVP. AMD strongly recommends that users continue to use third party anti-virus software as part of their security strategy. 30 October 2007
Processor Features AMD Athlon 45W Dual Core Processors MODEL CLOCK SPEED TDP CACHE CORE CORES ON DIE MAX CPU BW 1 I/O BUS SPEED 6 Memory Speed IMC 2 CnQ 3 AMD-V EVP 4 AMD Athlon X2 dual-core processors Pkg AM2 BE-2400 2.3GHz BE-2350 2.1GHz 45W 1MB Dedicated 5 L2 Brisbane 2 cores 20.8 GB/s 2000 800 yes yes yes yes BE-2300 1.9GHz Notes: - Customers should always consult our technical documentation for design specifications. 1 MAX CPU BW = Maximum processor-to-system bandwidth 2 IMC = Integrated Memory Controller 3 CnQ = AMD Cool'n'Quiet technology 4 EVP = Enhanced Virus Protection* 5 indicates the total dedicated L2 cache for the processor 6 Bidirectional I/O Bus Speed * Enhanced Virus Protection (EVP) is only enabled by certain operating systems including the current versions of Microsoft Windows, Linux, Solaris and BSD Unix. After properly installing the appropriate operating system, users must enable the protection of their applications and associated files from buffer overrun attacks. Contact your application software vendor for information regarding use of the application in conjunction with EVP. AMD strongly recommends that users continue to use third party anti-virus software as part of their security strategy. 31 October 2007
Processor Features AMD Athlon Single-Core Processors MODEL CLOCK SPEED TDP CACHE CORE CORES ON DIE MAX CPU BW 1 I/O BUS SPEED 5 Memory Speed IMC 2 CnQ 3 AMD-V EVP 4 AMD Athlon single-core processors Pkg AM2 1640 2.7GHz 45W 512KB L2 Lima" LE-1640 LE-1620 2.6GHz 2.4GHz 45W 1MB L2 "Orleans" 90nm SOI 1 core 20.8 GB/s 2000 800 yes yes yes yes LE-1600 2.2GHz AMD Athlon 64 single-core processors Pkg AM2 4000+ 2.6GHz 62W 512KB L2 3800+ 2.4GHz 62W 512KB L2 "Orleans" 90nm SOI 1 core 20.8 GB/s 2000 800 yes yes yes yes 3500+ 2.2GHz 62W 512KB L2 Note: Customers should always consult our technical documentation for design specifications. 1 MAX CPU BW = Maximum processor-to-system bandwidth 2 IMC = Integrated Memory Controller * Enhanced Virus Protection (EVP) is only enabled by certain operating systems including the current versions of 3 CnQ = AMD Cool'n'Quiet technology Microsoft Windows, Linux, Solaris and BSD Unix. After properly installing the appropriate operating system, users 4 must enable the protection of their applications and associated files from buffer overrun attacks. Contact your EVP = Enhanced Virus Protection* application software vendor for information regarding use of the application in conjunction with EVP. AMD strongly 5 Bidirectional I/O Bus Speed recommends that users continue to use third party anti-virus software as part of their security strategy. 32 October 2007
Processor Features AMD Sempron Single-Core Processors MODEL CLOCK SPEED TDP CACHE CORE CORES ON DIE MAX CPU BW 1 I/O BUS SPEED 5 Memory Speed IMC 2 CnQ 3 AMD-V EVP 4 AMD Sempron processors Pkg AM2 LE-1300 2.3GHz 45W 512KB L2 "Sparta" LE-1250 2.2GHz 45W 512KB L2 "Sparta" LE-1200 2.1GHz 45W 512KB L2 "Sparta" LE-1150 2.0GHz 45W 256KB L2 "Sparta" LE-1100 1.9GHz 45W 256KB L2 "Sparta" 1 core 17.1 GB/s 1600 800 yes yes no yes 3800+ 2.2GHz 62W 256KB L2 Manila" 90nm SOI 3600+ 2.0GHz 62W 256KB L2 Manila" 90nm SOI 3500+ 2.0GHz 62W 128KB L2 "Manila" 90nm SOI 3400+ 1.8GHz 62W 256KB L2 "Manila" 90nm SOI Note: Customers should always consult our technical documentation for design specifications. 1 MAX CPU BW = Maximum processor-to-system bandwidth 2 IMC = Integrated Memory Controller * Enhanced Virus Protection (EVP) is only enabled by certain operating systems including the current versions of 3 CnQ = AMD Cool'n'Quiet technology Microsoft Windows, Linux, Solaris and BSD Unix. After properly installing the appropriate operating system, users 4 must enable the protection of their applications and associated files from buffer overrun attacks. Contact your EVP = Enhanced Virus Protection* application software vendor for information regarding use of the application in conjunction with EVP. AMD strongly 5 Bidirectional I/O Bus Speed recommends that users continue to use third party anti-virus software as part of their security strategy. 33 October 2007