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Intel(R) System Studio Developer Story : How to configure, build and profile the Linux Kernel of Android by using the VTune

Intel(R) System Studio Developer Story: How to configure, build, debug and optimize key parts of your mobile software stack for Android*

1. Set-up and configure a development environment.

(1) The target HW environment

   In this article, a Minnow board MAX is used for a HW platform. The MinnowBoard is an Intel® Atom™ processor based board which introduces Intel® Architecture to the small and low cost embedded market for the developer and maker community. It has exceptional performance, flexibility, openness and standards.

  • Développeurs
  • Partenaires
  • Professeurs
  • Étudiants
  • Android*
  • Linux*
  • Android*
  • Internet des objets
  • C/C++
  • Avancé
  • Débutant
  • Intermédiaire
  • Outils de développement Android*
  • Compilateur Intel® C++
  • Débogueur Intel® JTAG
  • Intel® System Debugger
  • Intel® System Studio
  • Intel® VTune™ Amplifier
  • Bibliothèque Intel® Integrated Performance Primitives (IPP)
  • Bibliothèque Intel® Math Kernel Library
  • Intel® System Studio
  • Intel system studio 2015
  • ISS use cases
  • Android
  • Linux
  • kernel
  • vtune
  • profiling
  • profiler
  • Débogage
  • Outils de développement
  • Éducation
  • Processeurs Intel® Atom™
  • A Better View of the Layers Within: Optimizing Essential Anatomy

    To ensure outstanding results from 3D4Medical’s brilliant, interactive teaching and reference application for human anatomy on Android* devices, Intel pinpointed opportunities for performance improvements, helping expand the product’s market potential.

  • Développeurs
  • Android*
  • Android*
  • Débutant
  • Analyseurs de performances graphiques
  • Layer View
  • 3D4 Medical
  • Frame-Rate
  • CPU Residency Analysis
  • LOB
  • GPA
  • Optimisation
  • Enhancing In-Vehicle-Infotainment Application Reliability and Performance using Intel® System Studio

    Intel based solution is available to reduce the time and cost of developing in-vehicle technologies by providing application-ready solutions consisting of compute modules, automotive middleware and development kits. Intel® System Studio can be used in various stages of In-Vehicle-Infotainment development right from debugging BIOS in hardware layer to performance tuning of HMI layer.
  • Développeurs
  • Partenaires
  • Professeurs
  • Étudiants
  • Android*
  • Linux*
  • MeeGo*
  • Microsoft Windows* 8.x
  • Tizen*
  • Projet Yocto
  • Tizen*
  • Windows*
  • .NET*
  • C#
  • C/C++
  • Intermédiaire
  • Intel® System Studio
  • In Vehicle Infotainment
  • IVI
  • Intel IVI
  • Intel automotive
  • Intel software for IVI
  • Intel System Studio IVI
  • ISS for automotive
  • Intel® Advanced Vector Extensions
  • Extensions Intel® Streaming SIMD
  • Débogage
  • Outils de développement
  • Processeurs Intel® Atom™
  • Intel® System Studio - Multicore Programming with Intel® Cilk™ Plus

    Intel System Studio not only provides a variety of signal processing primitives via Intel® Integrated Performance Primitives (Intel® IPP), and Intel® Math Kernel Library (Intel® MKL), but also allows developing high-performance low-latency custom code (Intel C++ Compiler with Intel Cilk Plus). Since Intel Cilk Plus is built into the compiler, it can be used where it demands an efficient threading runtime in order to extract parallelism. Therefore it's possible to effectively introduce multicore parallelism even without introducing it into each of the important algorithms e.g., by employing a parallel pattern called pipeline. For custom code (e.g., code that's not reused via a library), one can rely (in addition to auto-vectorization) on an extended Array Notation incl. elemental functions (kernels) to explicitly vectorize at a higher level compared to ISA-specific intrinsic functions.
  • Développeurs
  • Étudiants
  • Linux*
  • Projet Yocto
  • C/C++
  • Avancé
  • Débutant
  • Intermédiaire
  • Compilateur Intel® C++
  • Intel® Cilk™ Plus
  • Bibliothèque Intel® Integrated Performance Primitives (IPP)
  • Bibliothèque Intel® Math Kernel Library
  • Intel® System Studio
  • embedded c programming
  • Informatique parallèle
  • Efficacité de l’alimentation
  • Parallélisation
  • Vectorisation
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