Case Study: Georgia Tech accelerates aerospace research on a new Intel® Xeon® processor E5 family-based HPC cluster for larger, more complex problems.
Case Study: Georgia Institute of Technology accelerates aerospace research for governmental and industry collaborators using a new HPC cluster based on the Intel® Xeon® processor E5 family, addressing larger, more complex problems than before.
University of Lisbon advances its high-performance computing with Intel® Xeon® processor E5 2680 v2 product family.
The Instituto Superior Técnico of the University of Lisbon advances student and researcher high-performance computing capabilities, powered by Intel® Xeon® processor E5 2680 v2 product family.
Case Study: See how JD.com develops a file system with Intel® C++ Compiled and Intel® Integrated Performance Primitives to handle billions of images per day, for an optimized image processing system that improves utilization and lowers costs.
Case Study: CGG enhances its high-performance computing (HPC) capabilities to improve accuracy in seismic modeling with Intel® Xeon Phi™ processors.
Case Study: Geoscience company CGG improves the accuracy of seismic modeling by extending its high-performance computing (HPC) cluster with custom-built server blades powered by the Intel® Xeon® processor E5 family and Intel® Xeon Phi™ processors.
Intel® Omni-Path Director Class Switches (DCS) are constructed utilizing Intel’s next generation 48 radix switch silicon.
Intel® Omni-Path Director Class Switches (DCS) are constructed utilizing Intel’s next generation 48 radix switch silicon which possesses many innovative features meant to provide optimum performance for both small and large fabrics.
The next generation of High performance computing (HPC) fabrics use Intel® Omni-Path Architecture to meet the needs of the most demanding applications
The next generation of High performance computing (HPC) fabrics use the Intel® Omni-Path Architecture to create fabrics that meet the needs of the most demanding set of applications.