Energieeffizienz

Optimizing Hadoop Deployments

This paper provides guidance, based on extensive lab testing conducted at Intel, to help IT organizations plan an optimized infrastructure for deploying Apache Hadoop*.  It includes:

  • Best practices for establishing server hardware specifications
  • level software guidance regarding the operating system (OS), Java Virtual Machine (JVM), and Hadoop version
  • Configuration and tuning recommendations to provide optimized performance with reduced effort
  • Partner
  • Professoren
  • Studenten
  • Linux*
  • Cloud-Dienste
  • Server
  • Fortgeschrittene
  • Große Datenmengen
  • Cloud-Computing
  • Cluster-Computing
  • Konzern
  • Open Source
  • Energieeffizienz
  • Optimizing Infrastructure for Workloads in OpenStack-Based Public Cloud Services

    This paper examines how business needs translate to infrastructure considerations for infrastructure-as-a-service (IaaS) when building out or enhancing an OpenStack* cloud environment. The paper looks at these requirements and the foundational platform technologies that can support a wide range of service level agreement (SLA) requirements.

  • Partner
  • Professoren
  • Studenten
  • Linux*
  • Server
  • Fortgeschrittene
  • Cloud-Computing
  • Cluster-Computing
  • Konzern
  • Intel® Atom™ Prozessoren
  • Open Source
  • Energieeffizienz
  • Accelerating Performance for Server-Side Java* Applications

    This paper describes the key architectural advancements of the latest Intel Xeon processors and Intel Atom
    processor C2000s that are beneficial to Java applications. It also describes some of the techniques and
    strategies used to optimize JVM software and the benefits those optimizations bring to Java applications.

     

  • Entwickler
  • Partner
  • Professoren
  • Studenten
  • Linux*
  • Server
  • Fortgeschrittene
  • Cloud-Computing
  • Cluster-Computing
  • Konzern
  • Intel® Atom™ Prozessoren
  • Open Source
  • Energieeffizienz
  • Dec. 2013 Performance Update: Memcached Configuration & Deployment

    New benchmark test results update this This Configuration and Deployment Guide which explores designing and building a Memcached infrastructure that is scalable, reliable, manageable and secure. Benchmark tests included the latest Intel Atom and Intel Xeon processor-based microservers and dual-socket servers to explore differing business scenarios and tradeoffs for different Service Level Agreement (SLA) requirements and Total Cost of Ownership (TCO) objectives.

  • Partner
  • Professoren
  • Studenten
  • Linux*
  • Cloud-Dienste
  • Server
  • Fortgeschrittene
  • Cloud-Computing
  • Cluster-Computing
  • Konzern
  • Intel® Atom™ Prozessoren
  • Open Source
  • Energieeffizienz
  • Quick Start Guides Published for the Intel® Xeon Phi™ Coprocessor Expert User

    This is a short notice to let you know that two new articles have been published for the Intel® Xeon Phi™ coprocessor: * Quick Start Guide: For the Intel Xeon Phi Coprocessor Administrator * Quick Start Guide: For the Intel Xeon Phi Coprocessor Developer The target of both of these guides is the expert user. Our assumption is that the expert user does not need to be told what to do, as he already has potentially decades of experience doing his job. Similarly, he does not need to be told how to research his area of expertise as he has done so dozens of times in the past. As these users are new to administering or developing on the Intel Xeon Phi coprocessor, they want to know only where they can find key resources, such as cluster administration guides, technical support and examples.

    Power Configuration Part 0: Introduction: Yikes, there is a lot that is not documented

    I was hoping to write a brief two part overview of how to configure the various power settings for the Intel® Xeon Phi™ coprocessor. It was going to be concise and brief, allowing me to get on to the next topic. Unfortunately, as I dug into the topic further, I discovered that much of it is not very well documented. I found myself essentially writing quite a bit of explanation.

    As usual, I am starting off writing this as a series of blogs. At a later point, I will reformat the blogs into a more formal article with any semblance of humor removed.

    Power Considerations of Web Image Animations

    Developers have substantially improved the performance and power usage of websites and the browsers themselves in recent years. However, this improvement is limited to the factors that browsers can control. Web developers also have a significant ability to improve the performance and power of their websites by making efficient use of resources.

  • Entwickler
  • Grafik
  • Optimierung
  • Energieeffizienz
  • Power Explorer

    Today any review of a new processor whether it’s used in a desktop computer, a laptop, a tablet or a phone will contain lots of information about how efficient it is and the new technologies that have been used to achieve this performance. Operating system developers spend large amounts of time optimizing improve efficiency and extend battery life, but what can be done by someone who is designing an application and wants to ensure it runs as efficiently as possible? The aim of this sample is to provide insight into how features in a game can affect the power efficiency of the hardware it’s running on including the importance of frame rate capping, the effect of bandwidth on power and the cost of running asynchronous CPU work. The sample also demonstrates a way an application can adjust its workload to prolong a system’s battery life when it detects a change from AC power to battery, how aggressive the change is can be adjusted based on the currently active windows power scheme.
  • Entwickler
  • Microsoft Windows* (XP, Vista, 7)
  • Microsoft Windows* 8.x
  • Spieleentwicklung
  • Windows*
  • C/C++
  • Experten
  • Fortgeschrittene
  • Graphics Performance Analyzers
  • Intel® VTune™ Performance Analyzer
  • Microsoft DirectX*
  • GameCodeSample
  • Spieleentwicklung
  • Energieeffizienz
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