This document briefly gives an overview of the Intel® Advanced Vector Extensions 512 (Intel® AVX-512) and shows different ways to build an application for the Intel® Xeon Phi™ processor x200 using the ...

This article shows a simple example of a loop that was not vectorized by the Intel® C++ Compiler due to possible data dependencies, but which has now been vectorized using the Intel® Advanced Vector ...

One of the main benefits to using new generation of hardware for high performance computing is that the new systems can not only speed up performance through the use of more cores, but also that new ...

First, architecture basics are detailed with information on the register sets, data types, and memory and instruction formats. Next, instruction set extensions are detailed, which include Intel® ...

Regular readers will recall that we wrote about Intel's X86S proposal awhile back. That was merely in the concept stages, but it's an idea to shed a lot of the legacy cruft from x86-compatible ...

Recent Intel® enhancements to Java enable faster and better numerical computing. In particular, the Java Virtual Machine (JVM) now uses the Fused Multiply Add (FMA) instructions on Intel Intel Xeon® ...

In context: Advanced vector extensions are a type of "single instruction, multiple data" extension to the x86 instruction set architecture, implemented by Intel and AMD in modern CPUs. These ...

Intel's SSEx (Streaming SIMD Extensions) started in 1999 with the Pentium III and have since grown to the latest incarnation dubbed AVX for Advanced Vector Extensions. AVX is expected in Intel's ...

When Intel launches its 10nm Cannon Lake (CNL) and Ice Lake (ICL) processors for consumers it is now expected that they will come packing Advanced Vector Extensions (AVX) 512 instruction compatibility ...

The second generation of Intel's 32nm Core Processor Family, codenamed Sandy Bridge, introduces a new microarchitecture that delivers significant improvements in energy efficiency. New Advanced Vector ...