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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...
Criado por Última atualização em 31/10/2019 - 15:49
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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...
Criado por Última atualização em 31/10/2019 - 15:52
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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

Criado por Última atualização em 15/10/2019 - 15:30
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Power Management States: P-States, C-States, and Package C-States

Preface: What, Why and from Where
Criado por Última atualização em 03/10/2019 - 08:28
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Process and Thread Affinity for Intel® Xeon Phi™ Processors

The Intel® MPI Library and OpenMP* runtime libraries can create affinities between processes or threads, and hardware resources. This affinity keeps an MPI process or OpenMP thread from migrating to a different hardware resource, which can have a dramatic effect on the execution speed of a program.
Criado por Gregg S. (Intel) Última atualização em 15/10/2019 - 15:30
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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.
Criado por David M. Última atualização em 15/10/2019 - 16:40
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面向英特尔® 至强融核™ 处理器(代号“Knights Landing”)的开发人员访问计划

Intel is bringing to market, in anticipation of general availability of the Intel® Xeon Phi™ Processor (codenamed Knights Landing), the Developer Access Program (DAP). DAP is an early access program for developers worldwide to purchase an Intel Xeon Phi Processor based system.
Criado por Mike P. (Intel) Última atualização em 15/10/2019 - 16:40
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Thread Parallelism in Cython*

Cython* is a superset of Python* that additionally supports C functions and C types on variable and class attributes. Cython generates C extension modules, which can be used by the main Python program using the import statement.
Criado por Nguyen, Loc Q (Intel) Última atualização em 15/10/2019 - 16:40
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3D Isotropic Acoustic Finite-Difference Wave Equation Code: A Many-Core Processor Implementation and Analysis

Finite difference is a simple and efficient mathematical tool that helps solve differential equations.

Criado por Sunny G. (Intel) Última atualização em 15/10/2019 - 16:40
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3D 同性声波有限差分波动方程代码:多核处理器实施与分析

有限差分是一个简单有效的数学工具,用于求解微分方程。在本文中,我们将利用明确的时间域有限差分求解同性声波 3D 波动方程。

Criado por Sunny G. (Intel) Última atualização em 15/10/2019 - 16:40