Article

Resource Guide for Intel® Xeon Phi™ Coprocessor Developers

This article makes recommendations for how a developer can get up to speed quickly on the Intel® Many Integrated Core (Intel® MIC) Architecture. This is one of three articles: For the Administrator, for the Developer, and for the Investigator. Who is a Developer? Someone who will be programming on an Intel Many Integrated Core (Intel MIC) architecture. The assumption is that they are most...
Authored by Last updated on 10/15/2019 - 15:30
Article

Resource Guide for Intel® Xeon Phi™ Coprocessor Administrators

This article makes recommendations for how an administrator can get up to speed quickly on the Intel® Many Integrated Core (Intel® MIC) Architecture. This article is 1 of 3: For the Administrator, for the Developer, and for the Investigator. Someone who will administer and support a set of machines (individual/cluster) containing coprocessors. The assumption is that the following topics are of...
Authored by Last updated on 10/15/2019 - 15:30
Article

Parallel Direct Sparse Solver for Clusters

Product Overview

Authored by Alexander Kalinkin (Intel) Last updated on 07/06/2019 - 11:27
Blog post

BKMs on the use of the SIMD directive

We had an ask from one of the various "Birds of a Feather" meetings Intel® holds at venues such as at the Super Computing* (SC) and International Super Computing* (ISC) conferences.

Authored by Last updated on 07/06/2019 - 17:00
Article

Resource Guide for People Investigating the Intel® Xeon Phi™ Coprocessor

This article identifies resources for anyone investigating the value to their organization of the Intel® Xeon Phi™ coprocessor, which is based on the Intel® Many Integrated Core (Intel® MIC) archit

Authored by Last updated on 10/15/2019 - 15:30
Blog post

Performance BKMs: There’s more than one hammer

I don’t know if any of you have noticed but Intel® has a tendency to emphasize its own homegrown tools. This isn’t bad as Intel has some of the best.

Authored by Last updated on 07/06/2019 - 17:10
Blog post

Improving MPI Communication between the Intel® Xeon® Host and Intel® Xeon Phi™

MPI Symmetric Mode is widely used in systems equipped with Intel® Xeon Phi™ coprocessors.

Authored by Nguyen, Loc Q (Intel) Last updated on 07/06/2019 - 17:10
Article

Putting Your Data and Code in Order: Data and layout - Part 2

Apply the concepts of parallelism and distributed memory computing to your code to improve software performance. This paper expands on concepts discussed in Part 1, to consider parallelism, both vectorization (single instruction multiple data SIMD) as well as shared memory parallelism (threading), and distributed memory computing.
Authored by David M. Last updated on 07/06/2019 - 16:40
Article

Приводим данные и код в порядок: данные и разметка, часть 2

In this pair of articles on performance and memory covers basic concepts to provide guidance to developers seeking to improve software performance. This paper expands on concepts discussed in Part 1, to consider parallelism, both vectorization (single instruction multiple data SIMD) as well as shared memory parallelism (threading), and distributed memory computing.
Authored by David M. Last updated on 07/06/2019 - 16:40
Article

Hybrid Parallelism: Parallel Distributed Memory and Shared Memory Computing

There are two principal methods of parallel computing: distributed memory computing and shared memory computing. As more processor cores are dedicated to large clusters solving scientific and engineering problems, hybrid programming techniques combining the best of distributed and shared memory programs are becoming more popular.
Authored by David M. Last updated on 07/12/2019 - 08:31