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 simplifies and accelerates core virtualization processes for greater performance, scalability, flexibility, and reliability.
Intel® Virtualization technology delivers a hardware-assisted portfolio of capabilities to enhance virtualization, including optimized connectivity, robust performance, and reduced I/O bottlenecks.
Four IT managers discuss virtual desktop management models for four industries: financial services, education, healthcare, and general office.
Case Study: DHCS virtualizes on Intel® Xeon® processor E7-4800 product family, achieving 100-to-1 data center consolidation for reduced energy, TCO.
Case Study: California Department of Healthcare Services virtualizes on Intel® Xeon® processor E7-4800 product family, achieving 100-to-1 data center consolidation for reduced power consumption and TCO.
Learn how Intel IT solved security challenges from internet facing applications by securely virtualizing the underlying host architecture.
The purpose of this paper is to describe how Intel IT neutralized security risks that have allowed us to enable virtualization for the DMZ and SIZ thereby allowing Intel IT to expand the benefits of virtualization.
Desktop virtualization comparison from Intel: Compare top ISVs’ answers to common IT questions about their solutions.
Desktop virtualization comparison from Intel. This document enables you to compare top ISVs’ answers to common IT questions about their solutions.
Intelligent Desktop Virtualization is Intel’s vision for the evolution of desktop management.
Intelligent Desktop Virtualization is the evolution of desktop management, based on three key tenets: Maintain central control and use the local compute resources, create layered images for customization, and use device-native management.