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Programming for Multicore and Many-core Products including Intel® Xeon® processors and Intel® Xeon Phi™ X100 Product Family coprocessors

The programming models in use today, used for multicore processors every day, are available for many-core coprocessors as well. Therefore, explaining how to program both Intel Xeon processors and Intel Xeon Phi coprocessor is best done by explaining the options for parallel programming. This paper provides the foundation for understanding how multicore processors and many-core coprocessors are...
Authored by James R. (Blackbelt) Last updated on 06/14/2019 - 12:10
Article

OpenCL™ Platform/Device Capabilities Viewer Sample

Download for Windows*

Authored by Last updated on 05/31/2019 - 14:10
Article

General Matrix Multiply Sample

General Matrix Multiply (GEMM) sample demonstrates how to efficiently utilize an OpenCL™ device to perform general matrix multiply operation on two dense square matrices. The primary target devices that are suitable for this sample are the devices with cache memory: Intel® Xeon Phi™ and Intel® Architecture CPU devices.
Authored by Last updated on 05/31/2019 - 14:40
Article

Cross-Device NBody Simulation Sample

This sample illustrates the basic principles of how to work simultaneously with OpenCL™ devices on both CPU and Intel® Processor Graphics.
Authored by Last updated on 05/31/2019 - 14:40
Article

Median Filter

The sample demonstrates how to implement efficient median filter with OpenCL™ standard. This implementation relies on auto-vectorization performed by Intel® SDK for OpenCL Applications compiler.
Authored by Last updated on 05/31/2019 - 14:40
Article

OpenCL™ Technology and Intel® Media SDK Interoperability

The Intel® Media SDK Interoperability sample demonstrates how to use Intel® Media SDK and OpenCL™ technology together for efficient video decoding and fast post-processing.
Authored by Last updated on 05/17/2019 - 12:00
Article

3D Fluid Simulation Using OpenCL™ Technology

The sample demonstrates shallow water solver implemented with the OpenCL™ technology. The Shallow Water sample relies on flux splitting method for solving the approximated Navier-Stokes equations.
Authored by Last updated on 05/31/2019 - 14:10
Article

HDR Rendering with God Rays Using OpenCL™ Technology

This sample demonstrates a CPU-optimized implementation of the God Rays effect, showing how to: Implement calculation kernels using the OpenCL™ technology C99 Parallelize the kernels by running several work-groups in parallel Organize data exchange between the host and the OpenCL device
Authored by Last updated on 05/31/2019 - 14:10
Article

HDR Tone Mapping for Post Processing Using OpenCL™ Technology

The Tone Mapping sample demonstrates how to use high dynamic range (HDR) rendering with tone mapping effect with OpenCL™ technology.
Authored by Last updated on 12/28/2018 - 15:02