Article

ANSYS* Scales Simulation Performance

Download the case study that explores how ANSYS* software supports engineering simulation, a feature that which helps companies explore and test design options more quickly.
Автор: Mike P. (Intel) Последнее обновление: 21.03.2019 - 12:00
Article

ANSYS* 助力扩展仿真性能

基于仿真的设计需要出色的速度

设计仿真软件改变了企业设计产品的方式,企业不仅能够更加快速地了解和测试更多设计选项,还能减少对物理样机的需求。 ANSYS 软件在这种转变中发挥了核心作用,目前,财富 500 强企业的前 100 家工业公司中,有 96 家采用了该软件。

Автор: Mike P. (Intel) Последнее обновление: 21.03.2019 - 12:00
Article

基于英特尔® 架构加速金融应用

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Автор: George Raskulinec (Intel) Последнее обновление: 06.07.2019 - 16:40
Article

Case Study: Optimized Code for Neural Cell Simulations

One of the Intel® Modern Code Developer Challenge winners, Daniel Falguera, describes many of the optimizations he implemented and why some didn't work.
Автор: Последнее обновление: 06.07.2019 - 16:40
Article

案例研究: 面向神经细胞模拟优化代码

Intel held the Intel® Modern Code Developer Challenge that had about 2,000 students from 130 universities in 19 countries registered to participate in the Challenge. They were provided access to Intel® Xeon Phi™ coprocessors to optimize code used in a CERN openlab brain simulation research project. In this article Daniel Vea Falguera (Modern Code Developer Challenge winner) shares how he...
Автор: Последнее обновление: 06.07.2019 - 16:40
Article

Case Study: Many-Fermion Dynamics using Intel® Xeon Phi™ Processors

Many-Fermion Dynamics---nuclear, or MFDn, is a configuration interaction (CI) code for nuclear structure calculations.

Автор: Mike P. (Intel) Последнее обновление: 14.06.2019 - 11:50
Article

Case Study: BerkeleyGW using Intel® Xeon Phi™ Processors

BerkeleyGW is a Materials Science application for calculating the excited state properties of materials such as band gaps, band structures, absoprtion spectroscopy, photoemission spectroscopy and m

Автор: Mike P. (Intel) Последнее обновление: 14.06.2019 - 11:50
Article

Hybrid Parallelism: A MiniFE* Case Study

This case study examines the situation where the problem decomposition is the same for threading as it is for Message Passing Interface* (MPI); that is, the threading parallelism is elevated to the same level as MPI parallelism.
Автор: David M. Последнее обновление: 06.07.2019 - 16:40
Блоги

Track Reconstruction with Deep Learning at the CERN CMS Experiment

This blog post is part of a series that describes my summer school project at CERN openlab.

Автор: Последнее обновление: 21.03.2019 - 12:00