Case Study: East Carolina University IT uses Intel® Xeon® processors for desktop and server virtualization while boosting storage performance.
Case Study: East Carolina University IT uses the Intel® Xeon® processor E5 family to provide a robust foundation for desktop and server virtualization while helping to improve storage performance.
Intel describes workload-driven data center solutions that meet the needs of enterprise, private cloud, and high-performance computing customers.
Intel’s Lisa Graff describes workload-driven solutions based on the Intel® Xeon® processor, Intel® Atom™ processor, and Intel® Xeon Phi™ coprocessor that meet the needs of enterprise, private cloud, and high-performance computing data centers.Full View >
Success Brief: Applied Innovations's next-generation cloud platform boosts performance and lowers costs with Intel® Xeon® processor E7-4890 v2.
Success Brief: The Intel® Xeon® processor E7-4890 v2 helps Applied Innovations deliver outstanding performance and lower costs by enabling hardware consolidation on its next-generation cloud platform.
Intel® Xeon® processors enhance your data center infrastructure, support services, and power the cloud. These webinar videos show you how.
Intel® Xeon® processor video page: increase data center efficiency, support services, and power the cloud.
Intel IT and Corporate Services have identified a range of factors to consider when choosing a data center site. These criteria help optimize construction and sustaining costs while meeting internal customers’ computing and services requirements.
Intel IT discusses their data center strategy and the complexity of providing service to a wide array of needs in multiple geographies.
Animation: Intel® Intelligent Power Node Manager is a smart way to optimize and manage power and cooling resources in the data center.
Enabling server power limiting across racks, aisles, and individual servers at the data center level, Intel® Node Manager dynamically monitors power management for increased density, load balancing, and optimized throughput during power spikes.Full View >