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OpenStack App Developer Survey

As part of a long-term commitment to enhance ease-of-use, the OpenStack UX project, with support of the OpenStack Foundation and the Technical Committee, is now bu

Autor Mike P. (Intel) Última actualización 07/06/2017 - 12:14
Article

Solve SVD problem for sparse matrix with Intel Math Kernel Library

    Introduction :

Autor Gennady F. (Blackbelt) Última actualización 05/03/2019 - 23:20
Article

Intel® Math Kernel Library - Introducing Vectorized Compact Routines

Introduction     
Autor Gennady F. (Blackbelt) Última actualización 04/07/2019 - 21:35
Article

Micro-Cluster Setup with Intel® MPI Library for Windows*

Demonstrate the steps involved in setting up the smallest Windows* cluster with Intel® MPI Library to users experimenting in their labs. We have seen some of our customers involved in such activity.
Autor Dr. Amarpal S Kapoor (Intel) Última actualización 12/09/2018 - 16:40
Article

Enabling Intel® MKL in PETSc applications

 
Autor Gennady F. (Blackbelt) Última actualización 24/05/2018 - 15:48
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.
Autor David M. Última actualización 15/10/2019 - 16:40
Article

3D Isotropic Acoustic Finite-Difference Wave Equation Code: A Many-Core Processor Implementation and Analysis

Finite difference is a simple and efficient mathematical tool that helps solve differential equations.

Autor Sunny G. (Intel) Última actualización 15/10/2019 - 16:40
Article

Thread Parallelism in Cython*

Cython* is a superset of Python* that additionally supports C functions and C types on variable and class attributes. Cython generates C extension modules, which can be used by the main Python program using the import statement.
Autor Nguyen, Loc Q (Intel) Última actualización 15/10/2019 - 16:40
Article

Scale-Up Implementation of a Transportation Network Using Ant Colony Optimization (ACO)

In this article an OpenMP* based implementation of the Ant Colony Optimization algorithm was analyzed for bottlenecks with Intel® VTune™ Amplifier XE 2016 together with improvements using hybrid MPI-OpenMP and Intel® Threading Building Blocks were introduced to achieve efficient scaling across a four-socket Intel® Xeon® processor E7-8890 v4 processor-based system.
Autor Sunny G. (Intel) Última actualización 15/10/2019 - 16:40