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Connecting Intel® RealSense™ 3D Camera With the Intel® Edison - JavaScript

With the Intel® RealSense™ 3D Cameras and SDK, we can create applications that can perform gesture detection, facial analysis, background segmentation, voice recognition, voice synthesis, and more. With the Intel® Edison platform IoT developer can build prototypes that gather sensor information or send control to other devices and create innovative products. In this article we will be using Intel® RealSense™ technology JavaScript Framework to send hand gesture data to server and server will send those data to trigger buzzer and led connected by Intel® Edison.

Meshcentral - Now with integrated Manageabiltiy Commander Web Edition

The new Manageability Commander code base offers many benefits. For example, the hardware KVM feature in Meshcentral used to not support compression, and so, was very slow. The new viewer supports full ZRLE8 and ZRLE16 tile compression allowing for much better KVM performance over the Internet. All of the WSMAN/KVM/SOL smarts is built in JavaScript and runs in the browser, greatly simplifying the server that focuses on connection relay. Administrators can now manage Intel AMT user accounts, event log and more… as Manageability Commander evolves, new versions of the code will be integrated into Meshcentral, so the console will get better over time.

Eliminación de problemas de sincronización entre la CPU y la GPU en Galactic Civilizations* 3

Galactic Civilizations* 3 is a turn-based 4X strategy game recently released by Stardock Entertainment. This article describes how Intel® INDE Graphics Performance Analyzer's (GPA) Platform Analyzer was used to improve the game's performance by finding and removing several CPU-GPU sync stalls that had caused a loss of parallelism between the CPU and GPU.
  • 开发人员
  • Microsoft Windows* 8.x
  • 游戏开发
  • 高级
  • 中级
  • 英特尔® INDE
  • 图形性能分析器
  • Microsoft DirectX*
  • CPU-GPU
  • sync stalls
  • Intel GPA
  • GPU profiling
  • 游戏开发
  • 图形
  • Paso a paso: mejoramos el juego LEGO* Minifigures Online

    Optimizing graphics for Intel® Core™ processors as well as Intel® Atom™ processors is rapidly becoming a strategic imperative for game developers. This article describes how Funcom developed LEGO* Minifigures Online (LMO)to provide exceptional graphical experiences and improved battery life on both platforms.
  • 开发人员
  • 安卓*
  • Microsoft Windows* 10
  • Microsoft Windows* 8.x
  • 安卓*
  • 游戏开发
  • Windows*
  • 高级
  • 入门级
  • 中级
  • Intel Atom Processor
  • 4th gen intel core processor
  • graphics
  • battery life
  • pixel synchronization
  • AVSM
  • LEGO Minifigures Online
  • Microsoft DirectX*
  • 游戏开发
  • 图形
  • 英特尔® 凌动™ 处理器
  • 英特尔® 酷睿™ 处理器
  • Por qué conviene desarrollar ya mismo para la Internet de las Cosas

    Quienes creen que la invención de la World Wide Web ha producido cambios gigantescos en la sociedad y el comercio, ¡que se preparen para lo viene! A la Internet de las Cosas se la ha descrito como la evolución de internet y podría llegar a transformar de manera drástica la actividad económica y la vida de la gente.

    Hasta ahora, solo los seres humanos tenían la capacidad de comunicarse por internet. Pero en la nueva era de la conectividad, los objetos cotidianos pueden conectarse a la red y enviar y recibir datos sin ninguna participación humana.

    An example to quickly solve performance issue in OpenMP* program by using VTune Amplifier’s results

    If you compile and run your OpenMP* code with Intel Compiler 13.1 Update 2 or later, use advanced-hotspots from VTune(TM) Amplifier XE 2015 Update 4 to get important metrics, they can be categorized into "Serial Time" and "Parallel Region Time". Also “OpenMP Potential Gain” is provided to let you know if you have more works to optimize code. Meanwhile, VTune Amplifier highlight on:

    OpenCV 3.0.0 ( IPP & TBB enabled ) on Yocto with Intel® Edison with new Yocto image release

    This article is a tutorial for setting up OpenCV 3.0.0 on Yocto with Intel® Edison. We will build OpenCV 3.0.0 on Edison Breakout/Expansion Board using a Windows/Linux host machine. In this article, we will enable Intel® Integrated Performance Primitives ( IPP ) and Intel® Threading Building Blocks ( TBB ) to optimize and parallelize some OpenCV functions. For example, cvHaarDetectObjects(...) , an OpenCV function that detects objects of different sizes in the input image, is parallelized with the TBB library. By doing this, we can fully utilize the dual-core of Edison.
  • 开发人员
  • 教授
  • 学生
  • Apple OS X*
  • Linux*
  • Microsoft Windows* (XP, Vista, 7)
  • Microsoft Windows* 10
  • Microsoft Windows* 8.x
  • Unix*
  • Yocto 项目
  • 物联网
  • Windows*
  • C/C++
  • 高级
  • 入门级
  • 中级
  • #inteledison
  • Intel Edison
  • Edison
  • Intel System Studio OpenCV
  • opencv
  • IPP
  • tbb
  • IPP OpenCV
  • TBB OpenCV
  • 大数据
  • 开发工具
  • 设备管理
  • 教育
  • 固件
  • 英特尔® 凌动™ 处理器
  • 物联网
  • 微型控制器
  • 优化
  • 并行计算
  • 线程
  • 订阅 中级