Improves system-level I/O performance by re-architecting data to processor cache, increasing bandwidth, and lowering latency and power consumption.
Improves system-level I/O performance by re-architecting data flow to the Intel® Xeon® processor E5 cache for increased bandwidth, lower latency, and power consumption.
Datasheet provides the external architecture of Intel® Ethernet Controller I211 features, including device operation, pin descriptions, register definitions, and more, for software developers, test engineers, and others who need specific information.
Functional descriptions, frame processing pipeline, hardware design, pin interface, electrical specifications, package mechanical, and thermal information for the Intel® Ethernet Switch FM5000 and Intel® Ethernet Switch FM6000.
Case Study: Carestream Health reduces management costs with an Ethernet-based datacenter that merges server and storage hardware.
Case Study: Carestream Health reduces management overhead by deploying a high-speed datacenter network based on the Intel® Ethernet 10 Gigabit Converged Network Adapter, which eliminates separate network links for server and storage hardware.
Case Study: The Intel® Xeon® processor E5 family, in many of CERN’s LHC Computing Grid servers, provides the computing power for Higgs boson research.
Case Study: The Intel® Xeon® processor E5 family and other Intel® technology power the majority of the servers in the LHC Computing Grid at CERN, providing the processing power for the Higgs boson search and other high energy physics computing needs.
Это руководство поясняет, как процессоры Intel® Xeon® E5 помогают ИТ-менеджерам создавать инфраструктуру ЦОД следующего поколения.
This guide explains how the Intel® Xeon® processor E5 family helps IT managers build their next-generation data center infrastructure to support innovative services, such as virtualization and cloud computing.