WHITE PAPER:
Small business firewall software and hardware firewalls are the methods used to protect computers against hacker attacks and other Internet threats.
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:
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:
Upgrades help businesses to maintain a competitive edge in the market. Yet, upgrades pose their own set of challenges. This white paper lists the best practices that should be followed when upgrading to achieve maximum reliability.
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 the disk options and their capabilities as well as the other new features in NetBackup 6.5 that make up the Enterprise Disk Foundation, also it provides guidance in choosing the appropriate disk options for your environment.
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:
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:
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.
