近来，我们发布了“Windows* 8 教程： 使用英特尔® 线程构建模块为 Windows 应用商店* 编写多线程应用”。 其中我们提到，并行计算引擎很容易导入其他移动或台式机平台。 Android 是这种移动平台的一个典型的例子。
本教程介绍了如何使用英特尔® IPP 设置 Android* OS 应用。该库可提供多种功能，可让您将重心放在应用的开发而非特定处理器细节上。它们是面向英特尔处理器（包括英特尔® 凌动™、酷睿™ 和至强™）的通用接口，但是它们可以在任何支持英特尔® SIMD 流指令扩展 2（Intel® SSE2） 或更新的指令集的处理器上使用。本教程旨在通过示范如何设置一个简单示例帮助您了解如何在面向 Android* 的 Beacon Mountain 开发环境中使用英特尔® IPP。
Building VASP* with Intel® MKL and Intel® Compilers
Step 1 – Overview
This guide is intended to help users on how to build VASP (Vienna Ab-Initio Package Simulation) using Intel® Math Kernel Library (Intel® MKL) and Intel® Compilers and Intel® MPI.
For the first time Intel® VTune™ Amplifier 2014 for Systems brings the most important, core capability of determining the hotspot in the C/C++ portion of your application to most Android* devices on Intel® processors (including rooted, not-rooted devices and with or without version compatible device drivers), such as those available at http://software.intel.com/en-us/android/get-device. This article will concentrate on the options required to make this work on non-rooted devices.
This article presents the advantages of developing embedded digital video surveillance systems to run on 4th generation Intel® Core™ processor with Intel® HD Graphics, in combination with the Intel® System Studio software development suite. While Intel® HD Graphics is useful for developing many types of computer vision functionalities in video management software; Intel® System Studio is an embedded application development suite that is useful in developing robust digital video surveillance applications.
Intel® System Studio 2014 now contains an energy and power profiler called Intel® Energy Profiler. Using the Intel Energy Profiler allows you to collect sleep state, frequency and temperature data that lets you find the software that is causing unwanted power use. This article provides an overview of the Intel® Energy Profiler.
Two key indicators that effect how much power your system is using are CPU Sleep states and CPU Frequency.
Sampling Collector (SEP) is a command-line tool for doing hardware-based sampling using event-based sampling (EBS). In this article, we will describe how to use SEP for Tizen* mobile system. The usage model described in this article is also applicable for Tizen* IVI system and other embedded Linux system. However for Tizen* IVI system, or an embedded system with ssh services enabled, using Vtune Amplifier remote data collection with ssh is recommended.
Intel® VTune™ Amplifier uses a sampling driver to enable the hardware Event-Based Sampling (EBS) analysis. During Intel System Studio production installation, the sampling driver can be installed for host system so that we can collect the performance data for applications that running on host system. However the sampling driver should also be installed on the target system if we want to collect the event-based sampling data for the application that running on target system.
Using Intel® VTune™ Amplifier 2014 for Systems on an embedded Haswell processor
Intel® System Studio is Intel’s suite of software tools for embedded processors. Intel VTune™ Amplifier 2014 for Systems is a part of Intel System Studio. This article will show how you can profile an embedded 4th generation Intel® Core™ processor (code named Haswell).