Programming for Multicore and Many-core Products including Intel® Xeon® processors and Intel® Xeon Phi™ X100 Product Family coprocessorsThe programming models in use today, used for multicore processors every day, are available for many-core coprocessors as well. Therefore, explaining how to program both Intel Xeon processors and Intel Xeon Phi coprocessor is best done by explaining the options for parallel programming. This paper provides the foundation for understanding how multicore processors and many-core coprocessors are...
LAMMPS is an open-source software package that simulates classical molecular dynamics. As it supports many energy models and simulation options, its versatility has made it a popular choice. It was first developed at Sandia National Laboratories to use large-scale parallel computation.
The goal of the N-Body problem is to predict the motion of a set of n objects interacting with each other by some force, e.g. the gravitational force. N-Body simulations have been used in particles simulation such as astrophysical and molecular dynamics simulations. There are a number of approaches for solving the N-Body problem, such as the Barnes-Hut algorithm, the Fast Multipole method, the...
大规模动态重建是一项基础性技术，与位置跟踪结合使用可帮助创建高端 VR 和 AR 体验。在英特尔 CPU 和显卡平台上，通过适当的优化和分区，可以实现高分辨率动态重建。避撞和虚拟对象放置是大规模动态重建的两个主要用例
Large scale dynamic reconstruction is a foundational technology along with positional tracking to enable high end VR and AR experiences. It is possible to achieve dynamic reconstruction at high resolutions with the right optimizations and partitioning on Intel CPU and graphics platforms. Collision avoidance and virtual object placement are two lead use cases of large scale dynamic reconstruction