Case Study: SGCC’s power grid simulation capacity, scalability, and performance improve with an integrated Intel® architecture-based solution.
Case Study: State Grid Corporation of China (SGCC) increases their Advanced Digital Power System Simulator* capacity, scalability, and performance with an integrated hardware and software solution based on Intel® architecture.
GM leaders cover the IT benefit of rapid data sharing in design, engineering, and manufacturing to bring vehicles to market faster and increase sales.
4th Gen Intel® Core™ vPro™ Processors: Transition Guide. Compare Intel Core vPro processors, performance improvements, responsiveness, and security.
Transition Guide: Compares 2nd through 4th generation Intel® Core™ vPro™ processors, highlighting improvements in graphics, performance, responsiveness, and security.
64-bit may not be new, but its use in mobile computing is. Find out how a speedy Intel® processor will maximize the potential of your mobile device.
The 64-bit has been evolving since 1971, but its entry into mobile computing is big news in 2014. Find out how a speedy Intel® processor will maximize the potential of your mobile device and bring a new generation of mobility to the enterprise.
Specification V4.3 defines functions for PHY Interface for PCI Express*, SATA, and USB architecture compliance and MAC and link layer interfaces.
Specification V4.3 defines a set of PHY functions for PHY Interface for the PCI Express*, SATA, and USB architecture compliance, and defines a standard interface between the PHY and a media access control layer and link layer ASIC.
The Intel® Xeon® processor E7 family is designed for the high performance computing solutions that enterprise IT services demand.
Enterprise IT services demand high performance computing with more mission-critical computing solutions optimized for the Intel® Xeon® processors family.
Case Study: European institution centralizes its HPC clusters on the Intel® Xeon® processor E5 family, simplifying management for cost effectiveness.
Case Study: European scientific institution centralizes its HPC clusters on the energy-efficient Intel® Xeon® processor E5 family, simplifying central management and resources for greater cost effectiveness.
Case Study: University of Coimbra uses Intel® technology to improve computational simulation process for higher competitive research standards.
Case Study: Portuguese University of Coimbra uses Intel® Xeon® processors and Intel® True Scale Fabric for improved computational simulation, enabling higher standards of research and competition to maintain its excellent reputation.
See the performance improvement of parallel computing with code optimized to take advantage of the multiple cores of modern Intel® processors.
Shows how parallel computing offers a massive performance improvement with code optimized to take advantage of the multiple cores, threads, and wide vector units of modern Intel® architecture-based processors, such as the Intel® Xeon Phi™ processor.