Учебные программные приложения

Introduction to OpenMP* on YouTube

Tim Mattson (Intel), has authored an extensive series of excellent videos as in introduction to OpenMP*. Not only does he walk through a series of programming exercises in C, he also starts with a background introduction on parallel programming.

Check out the series: https://www.youtube.com/watch?v=nE-xN4Bf8XI&list=PLLX-Q6B8xqZ8n8bwjGdzBJ25X2utwnoEG&index=27

Digital Security and Surveillance on 4th generation Intel® Core™ processors Using Intel® System Studio 2015

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 2015 software development suite. While Intel® HD Graphics is useful for developing many types of computer vision functionalities in video management software; Intel® System Studio 2015 is an embedded application development suite that is useful in developing robust digital video surveillance applications
  • Разработчики
  • Android*
  • Linux*
  • Microsoft Windows* (XP, Vista, 7)
  • Microsoft Windows* 8
  • Tizen*
  • Проект Yocto
  • Android*
  • Интернет вещей
  • Tizen*
  • Windows*
  • .NET*
  • C#
  • C/C++
  • Продвинутый
  • Начинающий
  • Средний
  • Intel® Integrated Performance Primitives
  • Intel® System Studio
  • video Surveillance
  • Digital Security & Surveillance
  • DSS
  • Intel haswell
  • application development on haswell
  • software application intel 4th generation
  • Intel® Advanced Vector Extensions
  • Intel® Streaming SIMD Extensions
  • Образовательные учреждения
  • Отладка
  • Инструменты для разработки
  • Образование
  • Корпоративные пользователи
  • Процессоры Intel® Atom™
  • Процессоры Intel® Core™
  • Параллельные вычисления
  • Многопоточность
  • Векторизация
  • 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.
  • Разработчики
  • Студенты
  • Linux*
  • Проект Yocto
  • C/C++
  • Продвинутый
  • Начинающий
  • Средний
  • Intel® C++ Compiler
  • Intel® Cilk™ Plus
  • Intel® Integrated Performance Primitives
  • Библиотека Intel® Math Kernel Library
  • Intel® System Studio
  • embedded c programming
  • Параллельные вычисления
  • Энергоэффективность
  • Многопоточность
  • Векторизация
  • Intel Learning Series para desarrolladores para Android*, n.º 9:Representación de gráficos en Android para la arquitectura Intel® mediante el uso de la biblioteca SVG

    Scalable Vector Graphics* (que significa Gráficos Vectoriales Redimensionables y se conoce por sus siglas SVG) es una familia de especificaciones de un formato de archivo basado en XML para gráficos vectoriales bidimensionales, tanto estáticos como dinámicos (es decir, interactivos o animados), texto o gráficos de trama incrustados. La especificación SVG es un estándar abierto exento del pago de regalías e independiente del proveedor que ha estado desarrollando el World Wide Web Consortium* (W3C) desde 1999.

  • Разработчики
  • Партнеры
  • Профессорский состав
  • Студенты
  • Android*
  • Android*
  • OpenGL*
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