Datasheet
Intel® Xeon® Processor E5-2400 v2 Product Family 83
Datasheet Volume One
Technologies
• Clock Partitioning and Recovery. The bus clock continues running during state
transition, even when the core clock and Phase-Locked Loop are stopped, which
allows logic to remain active. The core clock is also able to restart more quickly
under Enhanced Intel SpeedStep Technology.
For additional information on Enhanced Intel SpeedStep Technology see Section 4.2.1.
3.8 Intel® Intelligent Power Technology
Intel® Intelligent Power Technology conserves power while delivering advanced power-
management capabilities at the rack, group, and data center level. Providing the
highest system-level performance per watt with “Automated Low Power States” and
“Integrated Power Gates”. Improvements to this processor generation are:
• Intel Network Power Management Technology
• Intel Power Tuning Technology
For more information on Intel Intelligent Power Technology, see this link
http://www.intel.com/technology/intelligentpower/.
3.9 Intel® Advanced Vector Extensions (Intel® AVX)
Intel® Advanced Vector Extensions (Intel® AVX) is a 256-bit vector SIMD extension of
Intel Architecture that continues with the processor. Intel AVX accelerates the trend of
parallel computation in general purpose applications like image, video, and audio
processing, engineering applications such as 3D modeling and analysis, scientific
simulation, and financial analysts.
Intel AVX is a comprehensive ISA extension of the Intel 64 Architecture. The main
elements of Intel AVX are:
• Support for wider vector data (up to 256-bit) for floating-point computation.
• Efficient instruction encoding scheme that supports 3 operand syntax and
headroom for future extensions.
• Flexibility in programming environment, ranging from branch handling to relaxed
memory alignment requirements.
• New data manipulation and arithmetic compute primitives, including broadcast,
permute, fused-multiply-add, etc.
• Floating point bit depth conversion (Float 16)
• A group of 4 instructions that accelerate data conversion between 16-bit
floating point format to 32-bit and vice versa.
• This benefits image processing and graphical applications allowing
compression of data so less memory and bandwidth is required.
The key advantages of Intel AVX are:
• Performance - Intel AVX can accelerate application performance via data
parallelism and scalable hardware infrastructure across existing and new
application domains:
— 256-bit vector data sets can be processed up to twice the throughput of 128-bit
data sets.
— Application performance can scale up with number of hardware threads and
number of cores.