WHITE PAPER:
This paper addresses the greatest environmental threats to the functionality of small to medium computer rooms and presents the time and cost savings associated with the integration of a remote monitoring system.
WHITE PAPER:
Important differences exist between precision cooling and building air conditioning (comfort cooling) in controlling these environmental conditions. In this paper, we compare both cooling systems’ ability to maintain favorable environmental conditions, and their energy efficiency and annual operating costs.
WHITE PAPER:
Many IT professionals are finding that dedicated precision cooling is the right solution to provide the ideal environment for sensitive electronics. Read this paper to learn why precision cooling is the optimal choice for keeping data centers cool in the most cost-effective way.
WHITE PAPER:
Energy Logic is a vendor-neutral roadmap for optimizing data center energy efficiency that starts with the IT equipment and progresses to the support infrastructure. This paper shows how it can deliver a 50 percent or greater reduction in data center energy consumption without compromising performance or availability.
PRODUCT OVERVIEW:
This product overview points out the key constraints on today's infrastructures. Find out how upgrading to multi-core servers can free up space, labor, and power and cooling resources.
WHITE PAPER:
This white paper reveals key factors to consider when selecting a server and explains why more and more organizations are relying on x86 platforms. Access key findings from your peers concerning their spending on servers, power and cooling expenses, and more.
EGUIDE:
Check out this FAQ Guide to learn different ways to reduce storage power consumption from Greg Schulz, founder and senior analyst at StorageIO Group.
WHITE PAPER:
This white paper describes in greater detail the current challenges customers face and the benefits of deploying Oracle Database on scale-up x86 servers.
WHITE PAPER:
Learn how your business can promote data center energy efficiency by finding the optimal temperature range where the combined IT and cooling load is minimized.