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Optimization of Data Read/Write in a Parallel Application

(This work was done by Vivek Lingegowda during his internship at Intel.)

作者: 最后更新时间: 2019/07/04 - 17:40
博客

Rainbows, Unicorns and Performance Portability

An old Jewish fable tells about a poor man asking for advice from the rabbi. The family is large, the house is small, and it feels very crowded.

作者: 最后更新时间: 2018/12/12 - 18:08
博客

彩虹、独角兽和性能便携性

一个古老的犹太族寓言讲述了一个穷人向拉比寻求建议,他家里人多,房子小,感觉很拥挤。拉比告诉信徒,在房子里养一只山羊,一个月后再来见他。穷人很疑惑,但是没有争辩,他将一只山羊安置在房子里。一个月以后,拉比让穷人把山羊带走,一周后再来见他。不出所料,一周后,穷人感谢拉比,他的心情舒畅多了,因为他觉得家里没有那么挤了。

作者: 最后更新时间: 2018/12/12 - 18:08
Article

Second Generation Intel® Xeon® Processor Scalable Family Technical Overview

New features and enhancements available in the second generation Intel® Xeon® processor Scalable family and how developers can take advantage of them
作者: David Mulnix (Intel) 最后更新时间: 2019/09/30 - 17:28
Article

Enhancing the Scalability of Memcached

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作者: James T Langston Jr (Intel) 最后更新时间: 2019/10/03 - 09:48
Article

部分英特尔处理器硬件预取器的发布

部分英特尔处理器硬件预取器的发布

本文发布的 MST 设置可用来控制基于以下微架构的英特尔处理器上可用的各种硬件预取器: Nehalem、Westmere、Sandy Bridge、Ivy Bridge、Haswell 和 Broadwell。

作者: Vish Viswanathan (Intel) 最后更新时间: 2019/10/08 - 18:20
Article

Disclosure of Hardware Prefetcher Control on Some Intel® Processors

This article discloses the MSR setting that can be used to control the various hardware prefetchers that are available on Intel processors based on the following microarchitectures: Nehalem,

作者: Vish Viswanathan (Intel) 最后更新时间: 2019/10/08 - 18:20
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Article

Hardware and Software Approach for Using NUMA Systems

Learn how to build an application that runs effectively on non-uniform memory access (NUMA) hardware. This article walks you through choosing the algorithm all the way through to measuring your application's performance.
作者: 最后更新时间: 2019/10/15 - 15:10
Article

Accelerating x265 with Intel® Advanced Vector Extensions 512 (Intel® AVX-512)

Vector units in CPUs have become the de facto standard for acceleration of media, and other kernels that exhibit parallelism according to the single instruction, multiple data (SIMD) paradigm. SIMD on Intel® architecture processors have evolved to enable 512-bit register files in Intel® Advanced Vector Extensions 512 (Intel® AVX-512).
作者: 最后更新时间: 2019/10/15 - 15:30