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Distributed and Parallel Computing

6th International Conference on Algorithms and Architectures for Parallel Processing, ICA3PP, Melbourne, Australia, October 2-3, 2005, Proceedings

  • Conference proceedings
  • © 2005

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Editors:
  1. Michael Hobbs

    1. School of Information Technology, Geelong, Deakin University, Australia

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  2. Andrzej M. Goscinski

    1. School of Engineering and Information Technology, Deakin University, Geelong

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    You can also search for this editor in PubMed   Google Scholar

  3. Wanlei Zhou

    1. Deakin University, Melbourne, Australia

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Part of the book series: Lecture Notes in Computer Science (LNCS, volume 3719)

Part of the book sub series: Theoretical Computer Science and General Issues (LNTCS)

Included in the following conference series:

Conference proceedings info: ICA3PP 2005.

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Table of contents (52 papers)

  1. An Efficient Dynamic Load-Balancing Algorithm in a Large-Scale Cluster

    • Bao-Yin Zhang, Ze-Yao Mo, Guang-Wen Yang, Wei-Min Zheng
    Pages 174-183

  2. Job Scheduling Policy for High Throughput Grid Computing

    • J. H. Abawajy
    Pages 184-192

  3. High Performance Task Scheduling Algorithm for Heterogeneous Computing System

    • E. Ilavarasan, P. Thambidurai, R. Mahilmannan
    Pages 193-203

  4. Execution Environments and Benchmarks for the Study of Applications’ Scheduling on Clusters

    • Adam K. L. Wong, Andrzej M. Goscinski
    Pages 204-213

  5. Data Distribution Strategies for Domain Decomposition Applications in Grid Environments

    • Beatriz Otero, José M. Cela, Rosa M. Badia, Jesús Labarta
    Pages 214-224

  6. Inter-round Scheduling for Divisible Workload Applications

    • DongWoo Lee, R. S. Ramakrishna
    Pages 225-231

  7. Scheduling Divisible Workloads Using the Adaptive Time Factoring Algorithm

    • Tiago Ferreto, César De Rose
    Pages 232-239

  8. Adaptive Policy Triggering for Load Balancing

    • Dan Feng, Lingfang Zeng
    Pages 240-245

  9. Parallel Algorithms for Fault-Tolerant Mobile Agent Execution

    • Jin Yang, Jiannong Cao, Weigang Wu, Cheng-Zhong Xu
    Pages 246-256

  10. Design and Multithreading Implementation of the Wave-Front Algorithm for Constructing Voronoi Diagrams

    • Grace J. Hwang, Joseph M. Arul, Eric Lin, Chung-Yun Hung
    Pages 257-266

  11. A Proposal of Parallel Strategy for Global Wavelet-Based Registration of Remote-Sensing Images

    • Haifang Zhou, Yu Tang, Xuejun Yang, Hengzhu Liu
    Pages 267-276

  12. Performance Analysis of a Parallel Sort Merge Join on Cluster Architectures

    • Erich Schikuta
    Pages 277-286

  13. Parallel Clustering on the Star Graph

    • M. Fazeli, H. Sarbazi-Azad, R. Farivar
    Pages 287-292

  14. Hierarchical Parallel Simulated Annealing and Its Applications

    • Shiming Xu, Wenguang Chen, Weimin Zheng, Tao Wang, Yimin Zhang
    Pages 293-300

  15. Multi-color Difference Schemes of Helmholtz Equation and Its Parallel Fast Solver over 3-D Dodecahedron Partitions

    • Jiachang Sun
    Pages 301-308

  16. GridMD: Program Architecture for Distributed Molecular Simulation

    • Ilya Valuev
    Pages 309-314

  17. Visuel: A Novel Performance Monitoring and Analysis Toolkit for Cluster and Grid Environments

    • Kuan-Ching Li, Hsiang-Yao Cheng, Chao-Tung Yang, Ching-Hsien Hsu, Hsiao-Hsi Wang, Chia-Wen Hsu et al.
    Pages 315-325

  18. Introduction to a New Tariff Mechanism for Charging for Computer Power in the Grid

    • Sena Seneviratne, David Levy
    Pages 326-335

  19. Host Load Prediction for Grid Computing Using Free Load Profiles

    • Sena Seneviratne, David Levy
    Pages 336-344

  20. Active Link: Status Detection Mechanism for Distributed Service Based on Active Networks

    • Zhan Tao, Zhou Xingshe, Liao Zhigang, Chen Yan
    Pages 345-350
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About this book

There are many applications that require parallel and distributed processing to allow complicated engineering, business and research problems to be solved in a reasonable time. Parallel and distributed processing is able to improve company profit, lower costs of design, production, and deployment of new technologies, and create better business environments. The major lesson learned by car and aircraft engineers, drug manufacturers, genome researchers and other specialist is that a computer system is a very powerful tool that is able to help them solving even more complicated problems. That has led computing specialists to new computer system architecture and exploiting parallel computers, clusters of clusters, and distributed systems in the form of grids. There are also institutions that do not have so complicated problems but would like to improve profit, lower costs of design and production by using parallel and distributed processing on clusters. In general to achieve these goals, parallel and distributed processing must become the computing mainstream. This implies a need for new architectures of parallel and distributed systems, new system management facilities, and new application algorithms. This also implies a need for better understanding of grids and clusters, and in particular their operating systems, scheduling algorithms, load balancing, heterogeneity, transparency, application deployment, which is of the most critical importance for their development and taking them by industry and business.

Editors and Affiliations

  • School of Information Technology, Geelong, Deakin University, Australia

    Michael Hobbs

  • School of Engineering and Information Technology, Deakin University, Geelong

    Andrzej M. Goscinski

  • Deakin University, Melbourne, Australia

    Wanlei Zhou

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