boost

Choosing the right threading framework

This is the second article in a series of articles about High Performance Computing with the Intel Xeon Phi. The Intel Xeon Phi is the first commercial product of Intel to incorporate the Many Integrated Core architecture. In this article I will present various frameworks for unleashing the power of multiple threads on the Xeon Phi. We will also have a look at interesting properties and advantages / disadvantages of each framework.

  • Разработчики
  • Профессорский состав
  • Студенты
  • Linux*
  • Сервер
  • C/C++
  • Продвинутый
  • Средний
  • Intel® C++ Composer XE
  • Intel® Cilk™ Plus
  • Компоненты Intel® Threading Building Blocks
  • MIC
  • Xeon
  • Phi
  • performance
  • Pthreads
  • C++11
  • boost
  • CilkPlus
  • OpenMP*
  • Кластерные вычисления
  • Параллельные вычисления
  • Многопоточность
  • Use of PCH and /Zi with Boost* Libraries May Result in unresolved external symbols due to Anonymous Namespace Use

    Using boost::bind with placeholders like _1 with precompiled headers containing includes of boost/bind may generate an unresolved external symbol on the placeholder when debug generation is enabled.
  • Intel® Parallel Composer
  • external
  • boost
  • use
  • create
  • namespace
  • anonymous
  • bind
  • pch
  • precompiled header
  • /Yc
  • /Yu
  • /Zi
  • unresolved
  • symbol
  • LNK2019
  • placeholder
  • _1
  • Отладка
  • Подписаться на boost