AMD OPTERON 4000 SERIES EMBEDDED PLATFORM: Delivering Performance and Scalability at the Right Power with Overall Customer Value innovative embedded system architectures. Performance MORE CORES, WITH POWER EFFICIENCY, enhancements like HT Assist technology help improve inter- OUTSTANDING VALUE processor communications via more efficient probes for improved The AMD Opteron 4100 Series processor is the industrys lowest 1 multi-processor performance. And Direct Connect Architecture 2.0 power 1P and 2P 6-core embedded processor that addresses the enables several new power conservation features. demanding needs of embedded enterprise markets including telecommunications, storage, network and security appliances. With 32- and 64-bit x86 application support and multi-core These applications require the right balance of performance per computing, high memory bandwidth, and outstanding I/O watt and the AMD Opteron 4100 Series processor is designed to performance in a consistent thermal envelope, many embedded meet the need. designers are finding their next-generation systems can enable application performance beyond their expectations. Data communication systems require performance in a small form factor environment and the AMD Opteron 4100 EE power band AMD Opteron 4100 processor offers the following unique delivers 6 cores of performance at only 40W TDP with elevated advantages for highend embedded systems: case temperature. This capability provides up to 88% improvement in performance per watt over the previous generation embedded 2 > Outstanding performance per watt Industrys first 6-core AMD processors in the EE power band. embedded enterprise processor that provides 2P scalability at only 40W at a worst case TDP. Network systems require high memory bandwidth and the AMD > HyperT ransport technology provides up to 25.6GB/s per Opteron 4100 series processor supports DDR3-1333 with a peak link in HT 3.0 generation, and is compatible with HT 1.0 of 21GB/s bandwidth. This is a 66% improvement in memory generation implementations bandwidth over the previous embedded AMD Processor 3 > Hardware assisted AMD-V technology in AMD Opteron implementations. processors with DDR3 helps streamline the efficiency of multiple servers and provides high efficiency and scalability Storage appliances require high performance network connectivity with more CPU cores. AMD-Vi provides hardware assisted and disk throughput and the AMD Opteron 4100 Series processor I/O virtualization that is designed to improve performance has two 16-bit lanes of HyperTransport 3.0 Technology links for and security through virtualized I/O channels. 25GB/s peak bandwidth per link between processors and I/O. This > Consistent platform with Socket C32 and the AMD 5600 is a 33% improvement in I/O bandwidth over the previous 4 Series chipset offers a platform upgrade path with AMDs embedded AMD processor implementations. planned next-generation Bulldozer core. Embedded systems can also benefit from multiple AMD 5600 Dual Dynamic Power Management (DDPM) Series chipsets for tremendous I/O connectivity to PCIe Gen 2 > Allows for independent voltage control between the CPU interfaces such as 10 Gigabit Ethernet, Infiniband, FCoE. This cores and memory controller data throughput can meet the I/O performance required by todays > Optimizes memory bandwidth to help improve system systems, as well as tomorrows system demands. performance > Helps reduce system power consumption and heat All embedded enterprise systems can benefit from AMD Opteron generation 4100 Processors performance at a low power and scalability without compromise and a platform upgrade path with the planned AMD CoolCore Technology next-generation Bulldozer processor. > Designed to reduce processor energy consumption by turning off unused parts of the processor THE INNOVATION OF DIRECT CONNECT ARCHITECTURE > Helps reduce power and cooling costs by lowering the 2.0, THE EASE OF X86, THE CHOICE FOR EMBEDDED energy consumption of the platform design SYSTEMS AMDs Direct Connect Architecture 2.0 continues to deliver a balanced approach to raw processing power, memory performance, I/O throughput, power efficiency, and scalability. The AMD Opteron 4100 Series processor is fully software and virtualization compatible with previous generation AMD Opteron processors and adds new features to innovations like AMD Virtualization (AMD-VTM) technology, which can help customers maximize embedded system efficiency, security and provide new Beyond outstanding processors: Reliable, scalable Its a fact that reliability is key in selecting embedded system Longevity, exceptional design support, quick time to market The AMD64 Longevity Program is designed so that the high components. AMD Opteron processors are NEBS-friendly performance processors you select for an embedded design are either with higher Tcase support or p-state control during extreme temperature conditions supporting available when you need them. AMD understands the unique requirements of the embedded market and our AMD64 telecommunications industry requirements for reliability. AMD64 technology provides features like Error Correcting Code (ECC) Longevity Program is in place to help maximize the available choice of leading edge x86 processors delivering a wide range and JTAG interfaces for effective debug during system of performance, power, thermal, and packaging features. development. AMD has a strong design support program in place. From The AMD Opteron 4100 processor provides unique scalability options with glueless multi-processing from one to Reference Designs to extensive and readily available documentation to a suite of leading debug tools, our goal is to four socket systems. This, combined with AMD64s reliability, make your design cycle quick and efficient, and to help you get helps enable an embedded design that can provide customers a long range plan for the life cycle of their systems. your embedded products on the market quickly. Six-Core and Four-Core AMD Opteron 4100 Series Processors - Socket C32 Planned Multi-CPU Core Memory HyperTransport Model OPN Cache TDP Product Scalability Frequency Interface Interface Release DDR3-1333 2-ch Two 6 cores up to L2 512K x6 41KX HE OE41KXOHU6DGOE 2.2GHz 65W Registered ECC 16-lanes 2.2GHz Q3-10 2 sockets L3 6MB & Chipkill Full Duplex DDR3-1333 2-ch Two 4 cores up to L2 512K x4 41QS HE OE41QSOHU4DGOE 2.5GHz 65W Registered ECC 16-lanes 2.2GHz Q3-10 2 sockets L3 6MB & Chipkill Full Duplex DDR3-1333 2-ch Two 4 cores up to L2 512K x4 41LE HE OE41LEOHU4DGOE 2.3GHz 65W Registered ECC 16-lanes 2.2GHz Q3-10 2 sockets L3 6MB & Chipkill Full Duplex DDR3-1333 2-ch Two 6 cores up to L2 512K x4 41GL EE OE41GLHKU6DGOE 1.8GHz 40W Registered ECC 16-lanes 2.2GHz Q3-10 2 sockets L3 6MB & Chipkill Full Duplex SR565-, SR5670, SR5690 Product Specifications - Northbridge Number of Processor PCI PCIe Max. Process Model Virtualization Error Detection/Isolation Package Interface Express Ports/ TDP/Idle Technology engines HyperTransport error handling, HyperTransport 29 x 22 lanes/ AMD-Vi PCIe Advanced Error Reporting, SR5650 3.0 technology 2.0 v1.0 13W/7.1W TSMC 65nm 29mm 8 engines (IOMMU 1.2) PCIe end-to-end Cycle (5.2GT/s) FCBGA Redundancy Check HyperTransport error handling, HyperTransport 29 x 30 lanes/ AMD-Vi PCIe Advanced Error Reporting, SR5670 3.0 technology 2.0 v1.0 17W/7.3W TSMC 65nm 29mm 9 engines (IOMMU 1.2) PCIe end-to-end Cycle (5.2GT/s) FCBGA Redundancy Check HyperTransport error handling, HyperTransport 29 x 42 lanes/ AMD-Vi PCIe Advanced Error Reporting, SR5690 3.0 technology 2.0 v1.0 18W/7.5W TSMC 65nm 29mm 11 engines (IOMMU 1.2) PCIe end-to-end Cycle (5.2GT/s) FCBGA Redundancy Check WHAT CAN THIS BALANCED ARCHITECTURE DELIVER High compute performance with 6-cores Scalability up to 2 sockets or 12 cores Memory bandwidth with 2-channel DDR3 memory controller Tremendous I/O bandwidth with 2 HyperTransport 3.0 technology links between processors and I/O Embedded longevity with AMD Embedded Solutions program5 Fully software and virtualization compatible with existing AMD processors Platform upgrade path with drop-in socket of planned next-generation Bulldozer processor 1: As of June 23, 2010, AMD Opteron 4100 Model 41GL EE (6c 40W 1.8 GHz) compared to Intel Westmere L5638 (6-core 2.0 GHz) (60W). 2: Internal testing of AMD Opteron 4100 Model 41KXHE (6c 65W 2.2GHz) versus published results of EWRR6TWR RFDWE5FTAMD Opteron 2300 MOdel 23QS (4c 71W 2.4 GHz). 3: AMD Opteron 4100 Processor 2ch DDR3-1333 vs AMD Opteron 2300 series 2 ch DDR2-800. 4: AMD Opteron 4100 Processor HT3 6400MT/s (25.6GB/s) vs AMD Opteron 2300 HT3 4800MT/s (19.2 GB/s). 5: Terms and Conditions apply See your AMD Sales contact for details. 2012 Advanced Micro Devices, Inc. All rights reserved. AMD, the AMD Arrow logo, AMD Opteron, AMD CoolCore, AMD PowerNow , AMD Virtualization, AMD-V, Radeon, and combinations thereof, are trademarks of Advanced Micro Devices. HyperTransport is a licensed trademark of the HyperTransport Technology Consortium. PCIe and PCI Express are registered trademarks of PCI-SIG. Other names are for informational purposes only and may be trademarks of their respective owners. PID 48509B