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:
This white paper presents a key case study of how Speedscan consolidated their disparate physical infrastructures within a single virtualized data center to improve energy efficiency by 92%.
WHITE PAPER:
Today’s data center manager must maintain or improve availability in increasingly dense computing environments while reducing costs and increasing efficiency. Discover four distinct opportunities throughout the lifecycle of the data center to achieve efficiencies, boost availability and prepare for the future.
WHITE PAPER:
The new Hitachi Virtual Storage Platform delivers the best performance and capacity combined with lowest power consumption and lower cooling requirements, consuming up to 40% less power than its predecessor. Learn more.
WHITE PAPER:
This paper examines how failure to adopt modular standardization as a design strategy for data center physical infrastructure (DCPI) is costly on all fronts, unnecessary expense, avoidable downtime, and lost business opportunity. Standardization and modularity, create wide-ranging benefits in DCPI that streamline and simplify every process.
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.