Intel® Xeon® Processor

Webcast - Accelerating Hadoop* Performance on Intel® Architecture Based Platforms

This webcast (from IDF 2014) covers technical details and best known methods (BKMs) for optimizing big data clusters and Hadoop* workloads on Intel® Xeon® processor E5 v3 based platforms.

Topics include:

•  How to deploy, tune and configure the hardware and operating systems for your big data cluster

•  How to run an Industry standard benchmark to measure the cluster performance and TCO calculation

•  BKMs for optimizing the Hadoop framework configuration and workloads including NoSQL (HBase*, Cassandra) and in-memory analytics frameworks (Spark* / Shark)

  • Linux*
  • Servidor
  • Intermedio
  • Big Data
  • Hadoop*
  • clusters
  • Intel® Xeon® Processor
  • Big data (datos a gran escala)
  • Computación nube
  • Computación con clústeres
  • Empresa
  • 英特尔® 至强™ E5-2600 v3 产品家族

    这些处理器基于英特尔® 酷睿™ 微架构(原代号 Haswell)并在 22 纳米制程技术上生产而成,性能明显高于上一代英特尔® 至强™ 处理器 E5-2600 v2 产品家族。 它是首款支持高级矢量扩展指令集 2.0 (AVX2) 的英特尔® 至强™ 协处理器产品家族。

     

  • Intel® Xeon® Processor
  • Haswell
  • Intel® Xeon® E5-2600 v3
  • Computación nube
  • Computación con clústeres
  • Procesadores Intel® Core™
  • Computación en paralelo
  • Consumo eficaz de energía
  • Seguridad
  • 采用各项同性 (ISO) 的三维有限差分 (3DFD) 代码的八项优化措施

    Download Zip Source Code

    借助英特尔® 至强融核™ 协处理器的支持优化并运行 ISO 3DFD


    简介

    有限差分是一种简单且有效的数学工具,能够帮助解出微分方程。 在地震应用中,地震波即是按照这种等式扩散。

    地震波的传播是一个 CPU 密集型任务。 本文中,我们将介绍如何部署并优化采用有限差分的三维各项同性内核,以便在英特尔® 至强™ 处理器 v2 产品家族和英特尔® 至强融核™ 协处理器上运行。

    这种方法具备以下优势:

    • 其部署非常简单(无需转换至频域)。
    • 精度可以通过更改模板的尺寸来轻松调整。

    地震波传播概述

    各项同性声波等式如下:

  • Desarrolladores
  • Linux*
  • Servidor
  • C/C++
  • Intel® Xeon Phi™ Coprocessor
  • ISO 3DFD
  • Wave Propagation
  • Intel® Xeon® Processor
  • Arquitectura Intel® para muchos núcleos integrados
  • Eight Optimizations for 3-Dimensional Finite Difference (3DFD) Code with an Isotropic (ISO)

    Download Zip Source Code

    Optimizing and Running ISO 3DFD with Support for Intel® Xeon Phi™ Coprocessor


    Introduction

    Finite difference is a simple and efficient mathematical tool that helps solve differential equations. In seismic applications, wave propagation is ruled by this kind of equation.

  • Desarrolladores
  • Linux*
  • Servidor
  • C/C++
  • Intel® Xeon Phi™ Coprocessor
  • ISO 3DFD
  • Wave Propagation
  • Intel® Xeon® Processor
  • Arquitectura Intel® para muchos núcleos integrados
  • Quantum ESPRESSO* for Intel® Xeon Phi™ Coprocessor

    Purpose

    This code recipe describes how to get, build, and use the Quantum ESPRESSO* code for the Intel® Xeon Phi™ coprocessor using the Intel® Math Kernel Library with Automatic Offload.

    Introduction1

    Quantum ESPRESSO is an integrated suite of open source computer codes for electronic-structure calculations and materials modeling at the nanoscale. It is based on density-functional theory, plane waves, and pseudo potentials.

  • Linux*
  • Servidor
  • Intel® Math Kernel Library
  • Quantum ESPRESSO*
  • Intel® Xeon Phi™ Coprocessor
  • Intel® MKL
  • Intel® Xeon® Processor
  • Arquitectura Intel® para muchos núcleos integrados
  • Intel® Cache Acceleration Software: A Primer

    By copying frequently accessed enterprise data onto fast Intel® Solid State Drives, Intel® Cache Acceleration Software (Intel® CAS) delivers striking increases in workload I/O performance: for example, it delivers up to three times more performance on transactional database processing and up to 20 times faster processing of read-intensive business analytics.1

    This article helps both business-oriented and technology-focused decision makers streamline the process of assessing the technology.

  • Desarrolladores
  • Linux*
  • Microsoft Windows* (XP, Vista, 7)
  • Servidor
  • Intel® Cache Acceleration Software
  • Intel® CAS
  • Intel® Xeon® Processor
  • SSD
  • Suscribirse a Intel® Xeon® Processor