This C/C++ header file can be used for AVX emulation on Intel CPUs/processors without h/w AVX support
This white paper proposes an implementation for the Infinite Impulse Response (IIR) Gaussian blur filter using Intel® Advanced Vector Extensions (Intel® AVX) instructions. For a 2048x2048 image size, the AVX implementation is ~2X faster than the SSE code.
This white paper describes a code sample that uses Intel® AVX for computing mesh-based cloth simulation. A structure of arrays (SOA) implementation is used to maximize data parallelism enabling usage of 256-bit (8 float) SIMD processing. Code is provided.
In this article we will discuss how to use the Intel® Integrated Performance Primitives (Intel® IPP) library to convert some common type of color formats like RGB, RGBA, BGR and BGRA into those that can be recognized by the Intel® Media SDK.
Intel® Advanced Vector Extensions (Intel® AVX) is a set of instructions for doing SIMD operations on Intel® architecture CPUs. These instructions extend previous SIMD offerings (MMX™ and Intel® SSE). This paper provides an AVX instruction set overview.
This is the AOBench example associated with the "Intel® Cilk™ Plus – The Simplest Path to Parallelism" how-to article. It shows an Ambient Occlusion algorithm implemented as serial loops, one us
This blog contains additional content for the article "Advanced Vectorization" from Parallel Universe #12:
Threading Intel® Integrated Performance Primitives Image Resize with Intel® Threading Building BlocksThreading Intel® IPP Image Resize with Intel® TBB.pdf (157.18 KB) :