WHITE PAPER:
This white paper describes how KVM technology can improve system reliability, manageability, and security, resulting in lower TCO and less downtime.
WHITE PAPER:
Read this white paper to learn how the new Real Application Testing capabilities in the Oracle Database 11g allows database administrators to adapt to changes easily, lower their testing costs and reduce hardware and software investments.
WHITE PAPER:
High density computing is today's standard in best-in-class performance and availability, and those that fail to keep pace or fall behind will find themselves no longer competitive in today's markets.
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 explains an approach to virtualization software that relies on the host operating system to provide the service to talk directly to the underlying hardware.
WHITE PAPER:
This white paper describes a tested and validated storage solution for a 3000 mailbox Exchange 2007 environment with Single Copy Cluster in a high availability clustering mechanism based on the Microsoft Cluster Service shared storage.
WHITE PAPER:
This white paper explores the origins of the Programmable Automation Controllers (PAC), how PACs differ from Programmable Logic Controllers (PLC) and PCs, and the future direction of industrial control with PACs.
WHITE PAPER:
In this whitepaper learn how by combining technologies with NI Lab VIEW parallel programming software and NI TestStand test management software, test engineers can create high-performance test systems.
WHITE PAPER:
This paper describes the technical limitations inherent in the architecture of traditional databases and other MPP (massive parallel processing) alternatives.
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.
