WHITE PAPER:
Access this exclusive, informative resource to find out how one data center solution can provide you with the support you need for desktop virtualization.
WHITE PAPER:
Read this white paper for an examination of a new software development language and technology called SequenceL, as well as a description of how it works, why there is a need for it and how well it performs in parallel environments.
WHITE PAPER:
This comprehensive white paper explores the many challenges organizations need to address in order to ensure smooth implementation, coordination and management of their PC refresh initiatives.
WHITE PAPER:
This white paper will discuss HP Data Protector Software which fully supports HP data deduplication technologies allowing you to recover files more quickly while reducing your data management and storage costs.
WHITE PAPER:
In this paper Intel IT explores a proof of concept study that examined the viability of abstracting the client operating system from the hardware platform using virtualization.
WHITE PAPER:
This white paper shows how IBM eX5 systems allow organizations to combine the full advantages of Intel’s Xeon processors with the latest and most advanced System x features - allowing companies to do more with fewer servers and achieve better system utilization and energy efficiency.
WHITE PAPER:
This white paper explores the challenges of operating multiple applications simultaneously. Find out how you can improve efficiency and reduce risk with a pre-integrated application infrastructure.
WHITE PAPER:
As data centers reach the upper limits of their power and cooling capacity, efficiency has become the focus of extending the life of existing data centers and designing new ones. As part of these efforts, IT needs to refresh existing infrastructure with servers that deliver more performance and scalability, more efficiently. Read on to learn more.
WHITE PAPER:
This paper explains an approach to virtualization software that relies on the host operating system to provide the service to talk directly to the underlying hardware.