Intel L5640 BX80614L5640 Manuel D’Utilisation
Codes de produits
BX80614L5640
Exploring Intel
®
Microarchitecture Nehalem
The new generation of server processors from Intel provides a foundation for a fully adaptable IT environment.
The architecture of these processors is designed with innovative features that adapt performance to software
and business needs, help energy consumption for optimum performance and efficiency, and enable virtualization
strategies that help your IT infrastructure adapt more quickly to your business needs.
The architecture of these processors is designed with innovative features that adapt performance to software
and business needs, help energy consumption for optimum performance and efficiency, and enable virtualization
strategies that help your IT infrastructure adapt more quickly to your business needs.
Figure 1. Intel® Turbo Boost Technology increases performance by
increasing processor frequency and enabling faster speeds when
conditions allow.
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All cores operate
at rated frequency
All cores operate
at higher frequency
Fewer cores may
operate at even
higher frequencies
Normal
4C Turbo
<4C Turbo
Higher Performance on Demand
Figure 2. Intel® QuickPath Technology with dedicated per-processor
memory and point-to-point connectivity.
Processor
I/O
Controller
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Processor
Intel® Turbo Boost Technology
Intel Turbo Boost technology delivers performance when and where
it’s needed (see Figure 1). This technology allows processors to
deliver higher speed execution on demand by using available
power to run at a higher frequency.
it’s needed (see Figure 1). This technology allows processors to
deliver higher speed execution on demand by using available
power to run at a higher frequency.
Intel® Hyper-Threading Technology
Many server and workstation applications lend themselves to parallel,
multi-threaded execution. Intel Hyper-Threading Technology enables
simultaneous multi-threading within each processor core, up to two
threads per core or eight threads per quad-core processor. Hyper-
threading reduces computational latency, making optimal use of
every clock cycle. For example, while one thread is waiting for a
result or event, another thread is executing in that core, to
maximize the work from each clock cycle.
multi-threaded execution. Intel Hyper-Threading Technology enables
simultaneous multi-threading within each processor core, up to two
threads per core or eight threads per quad-core processor. Hyper-
threading reduces computational latency, making optimal use of
every clock cycle. For example, while one thread is waiting for a
result or event, another thread is executing in that core, to
maximize the work from each clock cycle.
Intel® QuickPath Technology
To deliver top performance for bandwidth-intensive applications, the
Intel Xeon processor 5600 series features Intel QuickPath Technology
(see Figure 2). This new scalable, shared memory architecture delivers
memory bandwidth leadership, and up to 4.4x the bandwidth of
previous-generation processors.
Intel Xeon processor 5600 series features Intel QuickPath Technology
(see Figure 2). This new scalable, shared memory architecture delivers
memory bandwidth leadership, and up to 4.4x the bandwidth of
previous-generation processors.
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Intel QuickPath Technology is a platform architecture that provides
high-speed (up to 25.6 GB/s), point-to-point connections between
processors, and between processors and the I/O hub. Each processor
has its own dedicated memory that it accesses directly through an
Integrated Memory Controller. In cases where a processor needs to
access the dedicated memory of another processor, it can do so
through a high-speed Intel® QuickPath Interconnect (Intel® QPI)
that links all the processors.
high-speed (up to 25.6 GB/s), point-to-point connections between
processors, and between processors and the I/O hub. Each processor
has its own dedicated memory that it accesses directly through an
Integrated Memory Controller. In cases where a processor needs to
access the dedicated memory of another processor, it can do so
through a high-speed Intel® QuickPath Interconnect (Intel® QPI)
that links all the processors.
Intel Microarchitecture Nehalem complements the benefits of Intel
QPI by enhancing Intel® Smart Cache with an inclusive shared L3 cache
that boosts performance while reducing traffic to the processor cores.
QPI by enhancing Intel® Smart Cache with an inclusive shared L3 cache
that boosts performance while reducing traffic to the processor cores.
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