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PubDate: 11/16/1999
Abstract: PurchasePro and Office Depot have begun a strategic relationship that will make the PurchasePro marketplace available to customers from within Office Depot stores.
Abstract: Unfortunately, electronic documents are rarely categorized based on records management standards or retention policies. Organizations facing numerous claims, litigations, government investigations, or audits realize that identifying, locating, and reviewing electronic data is time-consuming and costly. A solution that helps archive and search for your vital electronic data can also ease your efforts to comply. Learn more.
Abstract: Jabil Global Services, a subsidiary of Jabil Circuit provides repair and warranty solutions to companies in computers, communications, medical equipment. To meet the demand for next day and same day returns, it needed to replace its in-house operations management system with a scalable and robust system. Learn how it used Click Commerce’s reverse logistics and depot repair solutions to manage its advanced exchanges and warehouse fulfillment, and credit receiving processes.
Abstract: Cooling for IT wiring closets is rarely planned and often only implemented after failures or overheating occur. Specifications for cooling IT wiring closets should assure compatibility with expected loads, provide clear instruction for design and installation of cooling equipment, be flexible enough to work in various types of wiring closets, and more. Discover the science and practical application of cooling strategies.
Abstract: Avoidable mistakes made when installing cooling systems and racks in data centers or network rooms compromise availability and increase costs. These flaws create hot spots, decrease efficiency, and reduce cooling capacity. Although facilities operators are often held accountable for cooling problems, many problems are caused by improper deployment of IT equipment. Learn more about these mistakes and about simple remedies.
Abstract: In stark contrast to a few years ago, IT executives now rank power and cooling among their top concerns. As IT continues to support more servers, power and cooling have become limiting factors to the number of data center servers. However, there is a solution. Blade server thermal technology optimizes power and cooling while improving energy monitoring—real benefits that reduce the overall IT total cost of ownership (TCO).
Abstract: The traditional room-oriented approach to data center cooling has limitations in next-generation data centers. Next-generation data centers must adapt to changing requirements, support high and variable power density, and reduce power consumption and other operating costs. Find out how row- and rack-oriented cooling architectures reduce total cost of ownership (TCO), and address the needs of next-generations data centers.
Abstract: High-density IT equipment stresses the power density capability of modern data centers. Installation and unmanaged proliferation of this equipment can lead to unexpected problems with power and cooling infrastructure. Find out how to measure and predict power and cooling capacity and the rack enclosure level, to ensure predictable performance and prevent problems such as overheating, overloads, and loss of redundancy.
Abstract: High-density servers offer a significant performance per-watt benefit. However, they can present a significant cooling challenge. Most data centers are designed to cool an average of no more than 2 kilowatts per rack, but many new servers demand over 40. Thus, innovative strategies must be used to properly cool high-density equipment. Read about 10 approaches that can help increase cooling efficiency in your data center.
Abstract: Blade servers have a major advantage over traditional ones—improving processing ability while using less power per server. But, with their smaller footprint, blades can be much more densely packed, resulting in racks that use up to 20 times the electrical power and generate up to 20 times the heat. This can stress power and cooling system capability. Learn how to create a power and cooling strategy with these guidelines.
Abstract: Virtualization is a leap forward in data center evolution. It saves energy, increases computing throughput, frees up floor space, and facilitates load migration and disaster recovery. Optimizing your power and cooling infrastructure is an essential step in realizing the full potential of virtualization. Find out why optimized infrastructure is so important, and how you can reap the full rewards of virtualization.
Abstract: Conventional methods for specifying data center density don’t provide the guidance to assure predictable power and cooling performance for the latest IT equipment. Discover an improved method that can help assure compatibility with anticipated high-density loads, provide unambiguous instruction for design and installation of power and cooling equipment, prevent oversizing, and maximize electrical efficiency.
Abstract: Conventional models for estimating the electrical efficiency of data centers are grossly inaccurate for real-world installations. Electrical loss estimates are typically made by summing inefficiencies of electrical devices, such as power and cooling equipment. Discover a more accurate efficiency model that can help you identify and quantify waste in power and cooling equipment, and reduce total cost of ownership (TCO).
Abstract: New power and cooling technology allows for a simple and rapid deployment of self-contained high-density zones within an existing or new low-density data center. The independence of these high-density zones allows for reliable high-density equipment operation without a negative impact on existing power and cooling infrastructure—and with more electrical efficiency than conventional designs. Learn more now.
Abstract: Common methods for monitoring the data center environment date from the days of centralized mainframes, and include such practices as walking around with thermometers. But as data centers continue to evolve with distributed processing and server technologies that drive up power and cooling demands, you must examine the environment more closely. Monitoring equipment isn’t enough—learn how to better manage your data center.
Abstract: In some circumstances, the air surrounding IT equipment can be harmful to internal electronic components and lead to failure and downtime. Reliance on precision cooling solutions to maintain the proper humidity level in a computer room or data center doesn’t always assure proper humidity levels at the IT equipment air intake. Learn more about humidity, its effects, and its management in computer rooms and data centers.
Abstract: Perimeter computer-room air handlers and central air-handling units have been used to cool data centers since the launch of the mainframe. But as rack power grew, air delivery and heat removal challenges appeared. Row-based designs address issues of proper heat removal and cold air supply—and bring energy-efficiency advantages. Learn more about row-based solutions and the benefits they can deliver to your data center.
Abstract: The average power consumed by an enclosure in a data center is about 1.7 kilowatts (kWs), but the maximum power that can be obtained by filling a rack with available high density servers, such as blade servers, is over 20 kW. Find out about the power density values of current and new data centers, and learn practical approaches to creating strategies for deploying high-density computing, with limitations and benefits.