Article

Recipe: Building and Running MILC on Intel® Xeon® Processors and Intel® Xeon Phi™ Processors

MILC software represents a set of codes written by the MIMD Lattice Computation collaboration used to study quantum chromodynamics. This article provides instructions for code access, build and run directions for the “ks_imp_rhmc” application on Intel® Xeon® Gold and Intel® Xeon Phi™ processors for better performance on a single node.
Authored by Smahane Douyeb. (Intel) Last updated on 10/15/2019 - 15:30
Article

Recipe: Build NAMD on Intel® Xeon® and Intel® Xeon Phi™ Processors for Multi-node Runs

This recipe describes a step-by-step process for getting, building, and running NAMD (scalable molecular dynamics code) on the Intel® Xeon Phi™ processor and Intel® Xeon® processor family to achieve better performance.
Authored by Last updated on 10/15/2019 - 15:30
Article

Recipe: Building NAMD on Intel® Xeon® and Intel® Xeon Phi™ Processors on a Single Node

This recipe describes a step-by-step process for getting, building, and running NAMD (scalable molecular dynamics code) on the Intel® Xeon Phi™ processor and Intel® Xeon® processor E5 family to achieve better performance.
Authored by Last updated on 10/15/2019 - 15:30
Article

Recipe: Building and Running YASK (Yet Another Stencil Kernel) on Intel® Processors

Yet Another Stencil Kernel (YASK), is a framework to facilitate design exploration and tuning of HPC kernels including vector folding, cache blocking, memory layout, loop construction, temporal wave-front blocking, and others.YASK contains a specialized source-to-source translator to convert scalar C++ stencil code to SIMD-optimized code.
Authored by Chuck Yount (Intel) Last updated on 10/15/2019 - 19:48
Article

Recipe: Building and Running GROMACS* on Intel® Processors

This recipe describes how to get, build, and run the GROMACS* code on Intel® Xeon® and Intel® Xeon Phi™ processors for better performance on a single node.
Authored by Smahane Douyeb. (Intel) Last updated on 10/15/2019 - 19:49
Article

Recipe: Pricing Options Using Barone-Adesi Whaley Approximation

In this paper, we look at one of the successful efforts, pioneered by Barone-Adesi and Whaley, and apply the high performance parallel computing entailed in the modern microprocessors to create a program that can exceed our expectation for high performance with a suitable numerical result.
Authored by admin Last updated on 10/15/2019 - 20:11