Energy-Efficient Distributed Computing Systems: 88 (Wiley Series on Parallel and Distributed Computing) - Tapa dura

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ALBERT Y. ZOMAYA is the Chair Professor of High Performance Computing & Networking in the School of Information Technologies, The University of Sydney. He is a Fellow of the IEEE, the American Association for the Advancement of Science, and the Institution of Engineering and Technology, and a Distinguished Engineer of the ACM. He has authored seven books and some 400 articles in technical journals.

YOUNG CHOON LEE, PhD, is with the Centre for Distributed and High Performance Computing, School of Information Technologies, The University of Sydney.

De la contraportada

Offers valuable insight into the complex world of distributed computing systems

Distributed computing allows multiple autonomous computers to work together to solve complex computational problems. The increased processing power comes at the cost of increased electrical power usage. Greener distributed computing systems would allow users to exploit the power of these systems while avoiding adverse environmental effects and exorbitant energy costs.

One of the first books of its kind, this timely reference illustrates the need for, and the state of, increasingly energy-efficient distributed computing systems. Featuring the latest research findings on emerging topics by well-known scientists, it explains how constraints on energy consumption create a suite of complex engineering problems that need to be resolved in order to lead to "greener" distributed computing systems.

Energy-Efficient Distributed Computing Systems:

• Summarizes the latest research achievements in the field of energy-efficient computing
• Strikes a balance between theoretical and practical coverage of innovative problem-solving techniques for a range of distributed platforms
• Provides a wealth of paradigms, technologies, and applications that target the different facets of energy consumption in computing systems
• Allows researchers to explore different energy-consumption issues and their impact on the design of new computing systems
• Includes carefully arranged, timely information dealing with vital factors affecting performance in a variety of important high-performance systems
• Offers research that greatly feeds into other technologies and application domains

An ideal text for senior undergraduates and postgraduate students who study computer science and engineering, the book will also appeal to researchers, engineers, and IT professionals who work in the fields of energy-efficient computing.

De la solapa interior

Offers valuable insight into the complex world of distributed computing systems

Distributed computing allows multiple autonomous computers to work together to solve complex computational problems. The increased processing power comes at the cost of increased electrical power usage. Greener distributed computing systems would allow users to exploit the power of these systems while avoiding adverse environmental effects and exorbitant energy costs.

One of the first books of its kind, this timely reference illustrates the need for, and the state of, increasingly energy-efficient distributed computing systems. Featuring the latest research findings on emerging topics by well-known scientists, it explains how constraints on energy consumption create a suite of complex engineering problems that need to be resolved in order to lead to greener distributed computing systems.

Energy-Efficient Distributed Computing Systems:

• Summarizes the latest research achievements in the field of energy-efficient computing
• Strikes a balance between theoretical and practical coverage of innovative problem-solving techniques for a range of distributed platforms
• Provides a wealth of paradigms, technologies, and applications that target the different facets of energy consumption in computing systems
• Allows researchers to explore different energy-consumption issues and their impact on the design of new computing systems
• Includes carefully arranged, timely information dealing with vital factors affecting performance in a variety of important high-performance systems
• Offers research that greatly feeds into other technologies and application domains

An ideal text for senior undergraduates and postgraduate students who study computer science and engineering, the book will also appeal to researchers, engineers, and IT professionals who work in the fields of energy-efficient computing.