Intel E5640 AT80614005466AA Manuale Utente
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AT80614005466AA
Intel
®
Xeon
®
Processor 5600 Series Datasheet Volume 1
11
Introduction
1
Introduction
The Intel
®
Xeon
®
processor 5600 series is a server/workstation multi-core processor
based on 32 nm process technology. The processors feature two Intel
®
QuickPath
Interconnect point-to-point links capable of up to 6.4 GT/s, up to 12 MB of shared
cache, and an Integrated Memory Controller. The processors are optimized for
performance with the power efficiencies of a low-power microarchitecture to enable
smaller, quieter systems.
cache, and an Integrated Memory Controller. The processors are optimized for
performance with the power efficiencies of a low-power microarchitecture to enable
smaller, quieter systems.
This datasheet provides DC and AC electrical specifications, signal integrity, differential
signaling specifications, pinout and signal definitions, package mechanical
specifications and thermal requirements, and additional features pertinent to
implementation and operation of the processor.
signaling specifications, pinout and signal definitions, package mechanical
specifications and thermal requirements, and additional features pertinent to
implementation and operation of the processor.
The Intel Xeon processor 5600 series features a range of Thermal Design Power (TDP)
envelopes from 40W TDP up to 130W TDP, and is segmented into multiple platforms:
envelopes from 40W TDP up to 130W TDP, and is segmented into multiple platforms:
• 2-Socket Frequency Optimized Server/Workstation Platforms support a 130 W
Thermal Design Power (TDP) SKU and up to 6 core support. These platforms
provide optimal overall performance and reliability, in addition to high-end graphics
support.
provide optimal overall performance and reliability, in addition to high-end graphics
support.
• 2-Socket Advanced Server/Workstation Platforms support a 95 W Thermal Design
Power (TDP) SKU. These platforms provide optimal overall performance featuring
up to 6 core support.
up to 6 core support.
• 2-Socket Standard Server/Workstation Platforms support 80 W TDP processor
SKUs supporting up to 6 cores. These platforms provide optimal performance per
watt for rack-optimized platforms.
watt for rack-optimized platforms.
• Low Power Platforms implement 60 W TDP (up to 6 cores) and 40 W TDP (up to 4
cores) processor SKU’s. These processors are intended for dual-processor server
blades and embedded servers.
blades and embedded servers.
• 1-Socket Workstation Platforms support Intel® Xeon® Processor W3680. These
platforms enable a wide range of options for either the performance, power, or cost
sensitive customer.
sensitive customer.
• Platforms supporting Higher Case Temperature Low-Voltage Processors with 60 W
TDP (up to 6 cores) and 40 W TDP (up to 4 cores). The higher case temperatures
are intended to meet the short-term thermal profile requirements of NEBS Level 3.
These 2-socket processors are ideal for thermally-constrained form factors in
embedded servers, communications and storage markets. Specifications denoted
as LV-60W apply to the Intel® Xeon® Processor L5638. Specifications denoted as
LV-40W apply to the Intel® Xeon® Processor L5618.
are intended to meet the short-term thermal profile requirements of NEBS Level 3.
These 2-socket processors are ideal for thermally-constrained form factors in
embedded servers, communications and storage markets. Specifications denoted
as LV-60W apply to the Intel® Xeon® Processor L5638. Specifications denoted as
LV-40W apply to the Intel® Xeon® Processor L5618.
Note:
All references to “chipset” in this document pertain to the Intel
®
5520 chipset and the
Intel
®
5500 chipset.
Intel is committed to delivering processors for both server and workstation platforms
that maximize performance while meeting all Intel Quality and Reliability goals. The
product’s reliability assessment is based on a datasheet compliant system and
reference use condition. Intel utilizes a broad set of use condition assumptions (that is,
percentage of time in active vs. inactive operation, non-operating conditions, and the
number of power cycles per year) to ensure proper operation over the life of the
that maximize performance while meeting all Intel Quality and Reliability goals. The
product’s reliability assessment is based on a datasheet compliant system and
reference use condition. Intel utilizes a broad set of use condition assumptions (that is,
percentage of time in active vs. inactive operation, non-operating conditions, and the
number of power cycles per year) to ensure proper operation over the life of the