Hypertransport™ technology, Other features of the amd opteron™ processor – AMD OPTERON 30925 User Manual

Builder’s Guide for AMD Opteron™ Processor-Based
Servers and Workstations

30925 Rev.

3.04 February

2004

10

AMD Opteron™ Processor Key Architectural Features

Chapter 1

Integrated DDR DRAM Memory Controller

The 128-bit wide integrated DDR DRAM memory controller:

• changes the way the processor accesses main memory, resulting in increased bandwidth,

reduced memory latencies, and increased processor performance.

• allows available memory bandwidth to scale with the number of processors.
• can support up to eight registered DDR DIMMs per processor.
• has available memory bandwidth of up to 5.3 Gbytes/s (with PC2700) per processor.

HyperTransport™ Technology

The HyperTransport technology of the AMD64 architecture offers the following features:

• A scalable bandwidth interconnection between processors, I/O subsystems, and other chipsets
• Support for up to three coherent HyperTransport links, providing up to 19.2 Gbytes/s of peak

bandwidth per processor

• Up to 6.4 Gbytes/s bandwidth per link providing sufficient bandwidth for supporting new

interconnects including PCI-X, DDR, InfiniBand, and 10G Ethernet

• Low power consumption (1.2 W) to help reduce the system thermal budget

Other Features of the AMD Opteron™ Processor

Other features of the AMD Opteron processor include:

• 64-bit wide key data and address paths that incorporate a 48-bit virtual address space and a

40-bit physical address space

• ECC (error correcting code) protection for L1 cache data, L2 cache data and tags, and DRAM

with hardware scrubbing of all ECC-protected arrays

• Lower thermal output levels and improved frequency scaling through .13 micron SOI (silicon-

on-insulator) process technology

• Support for all instructions necessary to be fully compatible with SSE2 technology
• Two additional pipeline stages (compared to AMD’s 32-bit architecture) for increased

performance and frequency scalability

• Higher IPC (instructions-per-clock) achieved through additional key features, such as larger

TLBs (translation lookaside buffer), flush filters, and enhanced branch prediction algorithms