Background
Intel® System Studio 2013 is the name for the Intel’s new embedded software tool suite. This tool suite includes Intel® VTune Amplifier 2013 for Systems. This article will explain the steps you need to follow to run the new remote power collectors in VTune Amplifier 2013 for Systems on an embedded platform.
Overview
Background
Intel® System Studio 2013 is the new embedded software tool suite. This tool suite includes Intel® Inspector 2013 for Systems. This article will explain the steps you need to follow to run Inspector 2013 for Systems on an embedded platform.
Overview
Background
Intel® System Studio 2013 is Intel’s new embedded software tool suite. This tool suite includes Intel® VTune Amplifier 2013 for Systems. This article will explain the steps you need to follow to run VTune Amplifier 2013 for Systems on an embedded platform.
Overview
The embedded OS we will be focused on is Yocto Project* version 1.2. This platform supports many Intel BSP’s (board support packages) and as well as a software-based emulator. Here are the steps we will take to run our collection:
It is known that the Windows Store apps API is missing some commonly used thread functions, such as function CreateThread() and those that work with TLS keys. This is yet another great opportunity to move your application development from thread-based parallelism to task-based parallelism. This post shows step-by-step instructions for writing an example that uses parallelism and that can pass validation by the Windows App Certification Kit (WACK). This example can be expanded upon to support clients for online games and more.
If you’ve ever heard about parallel programming it probably sounded like a painful endeavor. Those who have experience with it know that it’s mostly true with “traditional” approaches which incorporate parallel constructs into main-stream programming languages like C++ or FORTRAN. In the light of decades of research in parallel computing this is an irritating situation - and more so now that multi-core systems have been mainstream for years.
But why does parallelism hurt? And does it really have to?
This page contains a replay of highly popular webinar series that introduces you to the world of multicore and manycore computing with Intel® Xeon® processors and Intel® Xeon Phi™ coprocessors. Expert technical teams at Intel discuss development tools, programming models, vectorization, and execution models that will get your development efforts powered up to get the best out of your applications and platforms.
This guide is intended to help Intel® C++ Compiler and Intel® Fortran Compiler customers build the NCAR Graphics* library. NCAR Graphics is an open source library for drawing maps, graphs, and plots. More information about NCAR Graphics can be found at http://ngwww.ucar.edu
NCAR Graphics 6.1.0
Intel® C++ Compiler for Linux* Update 1
Intel® Fortran Compiler for Linux* Update 1
This two day webinar series introduces you to the world of multicore and manycore computing with Intel® Xeon processors and Intel® Xeon Phi™ coprocessors. Expert technical teams at Intel discuss development tools, programming models, vectorization, and execution models that will get your development efforts powered up to get the best out of your applications and platforms.
