Implementing energy-efficient CPUs and peripherals as well as reducing resource consumption have become emerging trends in computing. As computers increase in speed and power, their energy issues become more and more prevalent. The need to develop and promote environmentally friendly computer technologies and systems has also come to the forefront in computing research. A pioneering publication for researchers in computer science and engineering, Handbook of Energy-Aware and Green Computing is one of the first to present a comprehensive account of recent research in energy-aware and green computing. Edited by the co-chairs of the International Green Computing Conference, this handbook incorporates fundamental knowledge from all related areas, including circuit and component design, software, operating systems, networking, mobile computing, and data centers. It also discusses up-to-date research on many aspects of power-aware computing at the component, software, and system levels.
COMPONENTS, PLATFORMS, AND ARCHITECTURES Subthreshold Computing, J.
Kevin Hicks and Dhireesha Kudithipudi Energy-Efficient Network-on-Chip
Architectures for Multicore Systems, Partha Pande, Amlan Ganguly, Sujay Deb,
and Kevin Chang Geyser: Energy-Efficient MIPS CPU Core with Fine-Grained
Run-Time Power Gating, Hiroshi Sasaki, Hideharu Amano, Kimiyoshi Usami,
Masaaki Kondo, Mitaro Namiki, and Hiroshi Nakamura Low Power Design of
Emerging Memory Technologies, Yiran Chen, Hai Li, Yuan Xie, and Dimin Niu
ENERGY-EFFICIENT STORAGE Reducing Delays Associated with Disk Energy
Management, Puranjoy Bhattacharjee, Ali R. Butt, Guanying Wang, and Chris
Gniady Power Efficient Strategies for Storage Systems: A Survey, Medha
Bhadkamkar and Behrooz Shirazi Dynamic Thermal Management for
High-Performance Storage Systems, Youngjae Kim, Sudhanva Gurumurthi, and
Anand Sivasubramaniam Energy Saving Techniques for Disk Storage Systems,
Jerry Chou, Jinoh Kim, Doron Rotem Thermal and Power-Aware Task Scheduling
and Data Placement for Storage Centric Datacenters, Bing Shi and Ankur
Srivastava GREEN NETWORKING Power-Aware Middleware for Mobile Applications,
Shivajit Mohapatra, M. Reza Rahimi, and Nalini Venkatasubramanian Energy
Efficiency of Voice-over-IP Systems, Salman A. Baset and Henning Schulzrinne
Intelligent Energy Aware Networks, Y. Audzevich, A. Moore, A. Rice, R. Sohan,
S. Timotheou, J. Crowcroft, S. Akoush, A. Hopper, A. Wonfor, H. Wang, R.
Penty, I. White, X. Dong, T. El-Gorashi, and J. Elmirghani Green TCAM-Based
Internet Routers, Tania Mishra and Sartaj Sahni ALGORITHMS Algorithmic
Aspects of Energy-Efficient Computing, Marek Chrobak Algorithms and Analysis
of Energy-Efficient Scheduling of Parallel Tasks, Keqin Li Power Saving by
Task-Level Dynamic Voltage Scaling: A Theoretical Aspect, Taewhan Kim Speed
Scaling: An Algorithmic Perspective, Adam Wierman, Lachlan L.H. Andrew, and
Minghong Lin Processor Optimization for Energy Efficiency, Omid Azizi and
Benjamin C. Lee Power Aware SIMD Algorithm Design on GPU and Multicore
Architectures, Da Qi Ren and Reiji Suda Memetic Algorithms for Energy-Aware
Computation and Communications Optimization in Computing Clusters, Johnatan
E. Pecero, Bernabe Dorronsoro, Mateusz Guzek, and Pascal Bouvry REAL-TIME
SYSTEMS Online Job Scheduling Algorithms under Energy Constraints, Fei Li
Reliability-Aware Power Management for Real-Time Embedded Systems, Dakai Zhu
and Hakan Aydin Energy Minimization for Multiprocessor Systems Executing
Real-Time Tasks, Yumin Zhang, Xiaobo Sharon Hu, and Danny Ziyi Chen
Energy-Aware Scheduling and Dynamic Reconfiguration in Real-Time Systems,
Weixun Wang, Xiaoke Qin, and Prabhat Mishra Adaptive Power Management for
Energy Harvesting Embedded Systems, Jun Lu, Shaobo Liu, Qing Wu, and Qinru
Qiu Low Energy Instruction Cache Optimization Techniques for Embedded
Systems, Ann Gordon-and Marisha Rawlins MONITORING, MODELING, AND EVALUATION
A Power-Aware Modeling and Autonomic Management Framework for Distributed
Computing Systems, Rajat Mehrotra, Abhishek Dubey, Sherif Abdelwahed, and
Asser N. Tantawi Power Measuring and Profiling: State-of-the-Art 3, Hui Chen
and Weisong Shi Modeling the Energy Consumption of Distributed Applications,
Georges Da Costa, Helmut Hlavacs, Karin Anna Hummel, and Jean-Marc Pierson A
Comparative Study of Runtime Systems for Energy Aware High Performance
Computing, Chung-Hsing Hsu and Stephen W. Poole Tool Environments to Measure
Power Consumption and Computational Performance, Timo Minartz, Daniel Molka,
Julian Kunkel, Michael Knobloch Michael Kuhn, and Thomas Ludwig BlueTool:
Using a Computing Systems Research Infrastructure Tool to Design and Test
Green and Sustainable Data Centers, Sandeep Gupta, Georgios Varsamopoulos,
Anna Haywood, Patrick Phelan, and Tridib Mukherjee SOFTWARE SYSTEMS
Optimizing Performances in Heterogeneous Clusters, Stephane Vialle, Sylvain
Contassot-Vivier, and Thomas Jost Energy-Efficient Online Provisioning for
HPC Workloads, Ivan Rodero, Manish Parashar, Andres Quiroz, Francesc Guim,
and Stephen W. Poole Exploiting Heterogeneous Computing Systems for Energy
Efficiency, Wei Chen, Young Choon Lee, and Albert Y. Zomaya Code Development
of High Performance Applications for Power-Efficient Architectures, Khaled Z.
Ibrahim Experience with Autonomic Energy Management Policies for JavaEE
Clusters, Daniel Hagimont, Laurent Broto, Aeiman Gada, and Noel Depalma DATA
CENTERS AND LARGE-SCALE SYSTEMS Power-Aware Parallel Job Scheduling, Maja
Etinski, Julita Corbalan, and Jesus Labarta Toward Energy Efficient Web
Server Clusters, Yu Cai and Xinying Zheng Providing a Green Framework for
Cloud Data Centers, Andrew J. Younge, Gregor von Laszewski, Lizhe Wang, and
Geoffrey C. Fox Environmentally Opportunistic Computing, Paul Brenner,
Douglas Thain, Aimee Buccellato, and David B. Go Energy-Efficient Data
Transfers in Large-Scale Distributed Systems, Anne-Cecile Orgerie and Laurent
Lefevre Overview of Data Centers Energy Efficiency Evolution, Lennart
Johnsson Evaluating Performance, Power, and Cooling in High Performance
Computing (HPC) Data Centers, Jeffrey J. Evans, Sandeep Gupta, Karen L.
Karavanic, Andres Marquez, and Georgios Varsamopoulos GREEN APPLICATIONS
Green GPS-Assisted Vehicular Navigation, Tarek F. Abdelzaher Energy-Aware
Mobile Multimedia Computing, Jianxin Sun, Dalei Wu, Jiucai Zhang, Xueyi Wang,
and Song Ci Ultralow-Power Implantable Electronics, Seetharam Narasimhan and
Swarup Bhunia Energy Adaptive Computing: A New Paradigm for Sustainable IT,
Krishna Kant SOCIAL AND ENVIRONMENTAL ISSUES Evolution of Energy Awareness
using an Open Carbon Footprint Calculation Platform (OCFP), Farzana Rahman,
Sheikh Iqbal Ahamed, Casey O'Brien, He Zhang, and Lin Liu Understanding and
Exploiting User Behavior for Energy Saving, Vasily G. Moshnyaga Understanding
and Exploiting User Behavior for Energy Saving, Mingsong Bi, Igor Crk, and
Chris Gniady Toward Sustainable Portable Computing, Vinod Namboodiri and Siny
Joseph
Ishfaq Ahmad is a professor of computer science and engineering at the University of Texas at Arlington. An IEEE fellow, Dr. Ahmad is a co-founder of the International Green Computing Conference and the founding editor-in-chief of Sustainable Computing: Informatics and Systems. He is also an editor of the Journal of Parallel and Distributed Computing, IEEE Transactions on Circuits and Systems for Video Technology, IEEE Transactions on Parallel and Distributed Systems, and Hindawi Journal of Electrical and Computer Engineering. His research focuses on parallel and distributed computing systems and their applications, optimization algorithms, multimedia systems, video compression, and energy-aware green computing. Sanjay Ranka is a professor in the Department of Computer Information Science and Engineering at the University of Florida. A fellow of the IEEE and AAAS, Dr. Ranka is the associate editor-in-chief of the Journal of Parallel and Distributed Computing and an associate editor of IEEE Transactions on Parallel and Distributed Computing, Sustainable Computing: Systems and Informatics, Knowledge and Information Systems, and the International Journal of Computing. His research interests include energy efficient computing, high performance computing, data mining, and informatics.
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