Grid – Core Technologies +Website
Find out which technologies enable the Grid and how to employ them successfully! This invaluable text provides a complete,
clear, systematic, and practical understanding of the technologies that enable the Grid. Les mer
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Leveringstid:
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Find out which technologies enable the Grid and how to employ them successfully! This invaluable text provides a complete,
clear, systematic, and practical understanding of the technologies that enable the Grid. The authors outline all the components
necessary to create a Grid infrastructure that enables support for a range of wide-area distributed applications. The Grid:
Core Technologies takes a pragmatic approach with numerous practical examples of software in context. It describes the middleware
components of the Grid step-by-step, and gives hands-on advice on designing and building a Grid environment with the Globus
Toolkit, as well as writing applications. The Grid: Core Technologies: - Provides a solid and up-to-date introduction to the
technologies that underpin the Grid. - Contains a systematic explanation of the Grid, including its infrastructure, basic
services, job management, user interaction, and applications. - Explains in detail OGSA (Open Grid Services Architecture),
Web Services technologies (SOAP, WSDL, UDDI), and Grid Monitoring. - Covers Web portal-based tools such as the Java CoG, GridPort,
GridSphere, and JSR 168 Portlets.
Tackles hot topics such as WSRF (Web Services Resource Framework), the Semantic Grid, the Grid Security Infrastructure, and Workflow systems. - Offers practical examples to enhance the understanding and use of Grid components and the associated tools. This rich resource will be essential reading for researchers and postgraduate students in computing and engineering departments, IT professionals in distributed computing, as well as Grid end users such as physicists, statisticians, biologists and chemists.
Tackles hot topics such as WSRF (Web Services Resource Framework), the Semantic Grid, the Grid Security Infrastructure, and Workflow systems. - Offers practical examples to enhance the understanding and use of Grid components and the associated tools. This rich resource will be essential reading for researchers and postgraduate students in computing and engineering departments, IT professionals in distributed computing, as well as Grid end users such as physicists, statisticians, biologists and chemists.
- FAKTA
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Utgitt:
2005
Forlag: John Wiley & Sons Inc
Innbinding: Paperback
Språk: Engelsk
ISBN: 9780470094174
Format: 24 x 16 cm
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«It could serve as a good textbook and would certainly be a good addition to the reference libraries of technologists, academics, and students." (IEEE Distributed Systems Online, December 2006) "...lots of valuable information." (Computing Reviews.com, May 11, 2006) "...a complete, clear, systematic, and practical understanding of the technologies that enable the Grid." (IEEE Computer Magazine, August 2005) "...a good addition to the reference library..." (IEEE DS Online, January 2007)»
About the Authors. Preface. Acknowledgements. List of Abbreviations. 1 An Introduction to the Grid. 1.1 Introduction.
1.2 Characterization of the Grid. 1.3 Grid-Related Standards Bodies. 1.4 The Architecture of the Grid. 1.5 References.
Part One: System Infrastructure. 2 OGSA and WSRF. 2.1 Introduction. 2.2 Traditional Paradigms for Distributed Computing.
2.3 Web Services. 2.4 OGSA. 2.5 The Globus Toolkit 3 (GT3). 2.6 OGSA-DAI. 2.7 WSRF. 2.8 Chapter Summary. 2.9 Further
Reading and Testing. 2.10 Key Points. 2.11 References. 3 The Semantic Grid and Autonomic Computing. 3.1 Introduction.
3.2 Metadata and Ontology in the Semantic Web. 3.3 Semantic Web Services. 3.4 A Layered Structure of the Semantic Grid.
3.5 Semantic Grid Activities. 3.6 Autonomic Computing. 3.6.1 What is autonomic computing? 3.6.2 Features of autonomic
computing systems. 3.6.3 Autonomic computing projects. 3.6.4 A vision of autonomic Grid services. 3.7 Chapter Summary.
3.8 Further Reading and Testing. 3.9 Key Points. 3.10 References. Part Two: Basic Services. 4 Grid Security. 4.1
Introduction. 4.2 A Brief Security Primer. 4.3 Cryptography. 4.4 Grid Security. 4.5 Putting it all Together. 4.6
Possible Vulnerabilities. 4.7 Summary. 4.8 Acknowledgements. 4.9 Further Reading. 4.10 References. 5 Grid Monitoring.
5.1 Introduction. 5.2 Grid Monitoring Architecture (GMA). 5.3 Review Criteria. 5.4 An Overview of Grid Monitoring Systems.
5.5 Other Monitoring Systems. 5.6 Summary. 5.7 Chapter Summary. 5.8 Further Reading and Testing. 5.9 Key Points.
5.10 References. Part Three: Job Management and User Interaction. 6 Grid Scheduling and Resource Management. 6.1 Introduction.
6.2 Scheduling Paradigms. 6.3 How Scheduling Works. 6.4 A Review of Condor, SGE, PBS and LSF. 6.5 Grid Scheduling with
QoS. 6.6 Chapter Summary. 6.7 Further Reading and Testing. 6.8 Key Points. 6.9 References. 7 Workflow Management
for the Grid. 7.1 Introduction. 7.2 The Workflow Management Coalition. 7.3 Web Services-Oriented Flow Languages. 7.4
Grid Services-Oriented Flow Languages. 7.5 Workflow Management for the Grid. 7.6 Chapter Summary. 7.7 Further Reading
and Testing. 7.8 Key Points. 7.9 References. 8 Grid Portals. 8.1 Introduction. 8.2 First-Generation Grid Portals.
8.3 Second-Generation Grid Portals. 8.4 Chapter Summary. 8.5 Further Reading and Testing. 8.6 Key Points. 8.7 References.
Part Four: Applications. 9 Grid Applications - Case Studies. 9.1 Introduction. 9.2 GT3 Use Cases. 9.3 OGSA-DAI Use
Cases. 9.4 Resource Management Case Studies. 9.5 Grid Portal Use Cases. 9.6 Workflow Management - Discovery Net Use
Cases. 9.7 Semantic Grid - myGrid Use Case. 9.8 Autonomic Computing - AutoMate Use Case. 9.9 Conclusions. 9.10 References.
Glossary. Index.
Dr Maozhen Li is currently Lecturer in Electronics and Computer Engineering, in the School of Engineering and Design at Brunel
University, UK. From January 1999 to January 2002, he was Research Associate in the Department of Computer Science, Cardiff
University, UK. Dr Li received his PhD degree in 1997, from the Institute of Software, Chinese Academy of Sciences, Beijing,
China. His research interests are in the areas of Grid computing, problem-solving environments for large-scale simulations,
software agents for semantic information retrieval, multi-modal user interface design and computer support for cooperative
work. Since 1997, Dr Li has published 30 research papers in prestigious international journals and conferences. Dr Mark Baker
is a hardworking Reader in Distributed Systems at the University of Portsmouth. He also currently holds visiting chairs at
the universities of Reading and Westminster. Mark has resided in the relative safety of academia since leaving the British
Merchant, where he was a navigating officer, in the early 1980s. Mark has held posts at various universities, including Cardiff,
Edinburgh and Syracuse. He has a number of geek-like interests, which his research group at Portsmouth help him pursue. These
include wide-area resource monitoring, messaging systems for parallel and wide-area applications, middleware such as information
and security services, as well as performance evaluation and modelling of computer systems. Mark's non-academic interests
include squash (getting too old), DIY (he may one day finish his house off), reading (far too many science fiction books),
keeping the garden ship-shape and a beer or two to reduce the pain of the aforementioned activities.