WHITE PAPER:
This paper explains why a move to a DC-based architecture is unwarranted on the basis of efficiency by comparing the most efficient DC and AC power distribution methods.
WHITE PAPER:
This white paper explores a virtualization approach that easily enables you to consolidate IT resources, enhance disaster recovery capabilities, and more.
WHITE PAPER:
Download a complimentary copy of the IBM BladeCenter e-kit which contains white papers, videos and case studies featuring real-life success stories.
WHITE PAPER:
Explore this resource to learn what UPS efficiency ratings mean, how capacity utilization affects your UPS' effiency, and how you can choose the best UPS for your data centre by running a simple cost analysis. Read on now to learn more.
WHITE PAPER:
Hands-on lab testing of Fibre Channel directors including measurements by an independent electrician. Learn how power savings can leave more watts and amps available per rack and per floor tile for bladed servers and storage.
WHITE PAPER:
This paper explores optimization strategies and demonstrated benefits being achieved today with IBM Software solutions. Utilization of these capabilities can help you meet the increasing challenges of energy efficiency, cost containment and compliance.
WHITE PAPER:
This white paper reviews a virtualization strategy that leverages grid technology to dynamically share resources like servers, storage, and networking. This combination helps reduce power and space requirements.
WHITE PAPER:
With technology infiltrating every aspect of healthcare, traditional approaches to power protection no longer suffice. This paper introduces a new hospital power protection model that leverages technologies and best practices forged in the data center.
WHITE PAPER:
This paper examines how Power Save helps companies meet their environmental objectives. It uses intelligent energy management to ensure workstations are available when system resources are required, while conserving power during downtimes.
WHITE PAPER:
In this APC whitepaper, alternatives for providing electrical power to high density racks in data centers and network rooms are explained and compared as well as defined guidelines for rack power systems that can reliably deliver power to high density loads while adapting to changing needs.