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Author:   Phan Cong-Vinh
Publisher:   Taylor & Francis Inc
Imprint:   CRC Press Inc
Dimensions:   Width: 15.60cm , Height: 2.30cm , Length: 23.50cm
Weight:   0.638kg
ISBN:  

9781439829110

ISBN 10:   143982911
Pages:   287
Publication Date:   06 December 2011
Audience:   College/higher education ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   Awaiting stock  
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Table of Contents

A Bio-Inspired Architecture for Autonomic Network-on-Chip, M. Bakhouya Infrastructure level Communication level Application level BNoC Architecture Conclusions Bio-Inspired NoC Architecture Optimization, A.A. Morgan, H. Elmiligi, M.W. El-Kharashi, and F. Gebali Related work Bio-inspired optimization techniques Graph theory representation of NoC applications Problem formulation Custom architecture generation using GA Experimental results Conclusions An Autonomic NoC Architecture Using Heuristic Technique for Virtual-Channel Sharing, K. Latif, A. M. Rahmani, T. Seceleanu, and H. Tenhunen Background Resource utilization analysis The proposed router architecture: PVS-NoC Experimental results Conclusions Glossary Evolutionary Design of Collective Communications on Wormhole NoCs, J. Jaros and V. Dvorak Collective communications State-of-the-art Evolutionary design of collective communications Optimization tools and parameters adjustments Experimental results of the quest for high-quality schedules Conclusions Formal Aspects of Parallel Processing on Bio-Inspired on-Chip Networks, P.C. Vinh Outline Related work Basic concepts Processing BioChipNet tasks Processing BioChipNet data Notes and remarks Conclusions HAMSoC: A Monitoring-Centric Design Approach for Adaptive Parallel Computing, L. Guang, J. Plosila, J. Isoaho, and H. Tenhunen Hierarchical agent monitoring design approach Formal specification of HAMSoC Design example: hierarchical power monitoring in HAMNoC Conclusions Glossary Toward Self-Placing Applications on 2D and 3D NoCs, L. Petre, K. Sere, L. Tsiopoulos, P. Liljeberg, and J. Plosila Related work NoC-oriented MIDAS Placing and replacing resources Conclusions Self-Adaption in SoCs, H. Zakaria, E. Yahya, and L. Fesquet Power management techniques Controlling uncertainty and handling process variability Data synchronization in GALS system Conclusions Glossary Bibliography Index

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Author Information

Phan Cong-Vinh received a Ph.D in computer science from London South Bank University (LSBU) in the United Kingdom, a BS in mathematics and an MS in computer science from Vietnam National University (VNU) in Ho Chi Minh City, and a BA in English from Hanoi University of Foreign Languages Studies in Vietnam. He finished his PhD dissertation with the title Formal Aspects of Dynamic Reconfigurability in Reconfigurable Computing Systems supervised by Prof. Jonathan P. Bowen at LSBU where he was affiliated with the Centre for Applied Formal Methods (CAFM) at the Institute for Computing Research (ICR). From 1983 to 2000, he was a lecturer in mathematics and computer science at VNU, Posts and Telecommunications Institute of Technology (PTIT) and several other universities in Vietnam before he joined research with Dr. Tomasz Janowski at the International Institute for Software Technology (IIST) in Macao SAR, China, as a fellow in 2000. His research interests center on all aspects of formal methods, autonomic computing and networking, reconfigurable computing, ubiquitous computing, and applied categorical structures in computer science.

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