HP ML115 The AMD processor roadmap for industry-standard servers, 6th edition - Page 12

Independent and combined memory channel modes, Six-Core AMD Opteron processors

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Table 3. Thermal Design Power versus Average CPU Power Thermal Design Power (watts) 137 Average CPU Power (watts) 105 115 75 75 55 Independent and combined memory channel modes The Quad-Core AMD Opteron processor includes two DRAM controllers that support DDR2 DIMMs. Each DRAM controller controls one 64-bit DDR DIMM channel that connects to a series of DIMMs. The DRAM controllers can be configured to behave as a single channel (called ganged, or combined, mode) or as two channels (called unganged, or independent, mode). Configuring the DRAM controllers in unganged mode creates two 64-bit logical DIMMs, each equivalent to one 64bit physical DIMM. Configuring the DRAM controllers in ganged mode creates one 128-bit logical DIMM. Each physical DIMM of a 128-bit logical DIMM must be identical (same size and same timing parameters). The configuration requirements for the DRAM controllers and DIMMs are as follows: • Both DRAM controllers must be programmed to the same frequency. All DIMMs must operate at the same memory clock frequency, regardless of the channel on which they are connected. • The DRAM controllers do not support mixing unbuffered and registered DIMMs on the same channel or between channels. • The DRAM controllers do not support mixing ECC and non-ECC DIMMs on the same channel or between channels. Six-Core AMD Opteron processors AMD introduced the six-core Opteron processor, formerly code-named "Istanbul," in June 2009. According to AMD, the six-core Opteron processor (Figure 6) operates within the same power and thermal envelope as the Quad-Core Opteron processor. However, it provides a 20% to 50% performance increase, specifically for virtualization, database, and high-performance computing applications. The six-core processor includes several innovations: • A dedicated 64-KB L1 cache and 512-KB L2 cache for each core • A 6-MB L3 cache shared among all cores • 45 nm silicon process technology • Support for DDR2 memory • HyperTransport™ 3 technology • HyperTransport (HT) Assist technology • AMD Smart Fetch Technology • Enhanced AMD PowerNow! with Independent Dynamic Core Technology and Dual Dynamic Power Management • AMD-V™ with Rapid Virtualization Indexing 12

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Table 3.
Thermal Design Power versus Average CPU Power
Thermal Design Power (watts)
Average CPU Power (watts)
137
105
115
75
75
55
Independent and combined memory channel modes
The Quad-Core AMD Opteron processor includes two DRAM controllers that support DDR2 DIMMs.
Each DRAM controller controls one 64-bit DDR DIMM channel that connects to a series of DIMMs.
The DRAM controllers can be configured to behave as a single channel (called ganged, or
combined, mode) or as two channels (called unganged, or independent, mode). Configuring the
DRAM controllers in unganged mode creates two 64-bit logical DIMMs, each equivalent to one 64-
bit physical DIMM. Configuring the DRAM controllers in ganged mode creates one 128-bit logical
DIMM. Each physical DIMM of a 128-bit logical DIMM must be identical (same size and same
timing parameters).
The configuration requirements for the DRAM controllers and DIMMs are as follows:
Both DRAM controllers must be programmed to the same frequency. All DIMMs must operate at
the same memory clock frequency, regardless of the channel on which they are connected.
The DRAM controllers do not support mixing unbuffered and registered DIMMs on the same
channel or between channels.
The DRAM controllers do not support mixing ECC and non-ECC DIMMs on the same channel
or between channels.
Six-Core AMD Opteron processors
AMD introduced the six-core Opteron processor, formerly code-named "Istanbul," in June 2009.
According to AMD, the six-core Opteron processor (Figure 6) operates within the same power and
thermal envelope as the Quad-Core Opteron processor. However, it provides a 20% to 50%
performance increase, specifically for virtualization, database, and high-performance computing
applications. The six-core processor includes several innovations:
A dedicated 64-KB L1 cache and 512-KB L2 cache for each core
A 6-MB L3 cache shared among all cores
45 nm silicon process technology
Support for DDR2 memory
HyperTransport™ 3 technology
HyperTransport (HT) Assist technology
AMD Smart Fetch Technology
Enhanced AMD PowerNow! with Independent Dynamic Core Technology and Dual Dynamic
Power Management
AMD-V™ with Rapid Virtualization Indexing
12