WHITE PAPER:
A steady pattern of innovation, expansion, and acquisition can quickly result in a sprawling infrastructure that is difficult to manage. This white paper explores tools and practices that have emerged to address this issue and recommends actions you can take to lay the foundation for the cloud.
WHITE PAPER:
This white paper challenges several assumptions about scale-out architectures and explains how consolidation and virtualisation can help you regain control over your infrastructure.
WHITE PAPER:
This paper describes the technical limitations inherent in the architecture of traditional databases and other MPP (massive parallel processing) alternatives.
WHITE PAPER:
This resource explores the benefits of combining IBM PureFlex System with VMware. Inside, discover how you can implement a reliable cloud-ready infrastructure with integrated hardware and software designed for efficient virtualization. Discover if this combination will bring the benefits your organization needs.
WHITE PAPER:
Access this white paper to discover the benefits of virtualizing Linux workloads. This resource examines the historical concerns about Linux virtualization and outlines how enterprises can safely make this transition.
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:
In this informative paper, learn why a government industry has relied on the same Linux solution for the past ten years, using an open source model to simplify software and hardware implementations, reduce costs, and more.
WHITE PAPER:
The sound understanding and visibility of configuration information provided by ASG’s metaCMDB™ is critical for ITIL initiatives and business service management (BSM) implementations, service desk support, and the integration of disparate technologies. Read this paper to find out 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.
