WHITE PAPER:
This white paper describes a tested and validated storage solution for a 1000 mailbox Exchange Server 2007 environment with Local Continuous Replication (LCR) feature.
WHITE PAPER:
This paper describes the technical limitations inherent in the architecture of traditional databases and other MPP (massive parallel processing) alternatives.
WHITE PAPER:
While there are dozens of procurement software solutions available, there are really only two types offered: "on-premise" procurement software and newer "ondemand" procurement software. This paper outlines an approach to compute and compare them.
WHITE PAPER:
This benchmark evaluates Oracle Internet Directory performance under scales and throughput rates representative of those encountered in production use in both the communications industry and as part of large scale delivery architectures.
WHITE PAPER:
Intel IT is evaluating solid-state drive (SSD) technology to better understand the benefits to users and the impacts on the enterprise. We have initiated a proof of concept (PoC) study that includes extensive benchmark testing as well as deployment of notebooks with SSDs to the Intel workforce.
WHITE PAPER:
This paper discusses why timely and reliable alarm notification is part of a successful remote monitoring program and discusses the factors to consider when selecting a remote monitoring system.
WHITE PAPER:
This guide primarily focused on storage arrays based on their support for key virtualization features, such as high availability and virtual machine migration.
WHITE PAPER:
Discover the benefits of Symantec's free new software additions to the Veritas Storage Foundation. In this quick overview, you will be introduced to the benefits, capabilities and overall strategy behind these two new resources.
WHITE PAPER:
The HP and Citrix solution offers you the functionality of a stand-alone desktop, while enabling unified management of both physical and virtual infrastructures from the same centralized console.
WHITE PAPER:
Read this paper and get a look at how the next generation microarchitecture's dynamically scalable and design-scalable features directly contribute to power efficiency and performance.