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E-raamat: Grid Networks: Enabling Grids with Advanced Communication Technology [Wiley Online]

Edited by (Northwestern University, USA), Edited by (MCNC, USA), Edited by (Nortel Networks, USA)
  • Formaat: 372 pages
  • Ilmumisaeg: 14-Jul-2006
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 470028696
  • ISBN-13: 9780470028698
Teised raamatud teemal:
  • Wiley Online
  • Hind: 146,96 €*
  • * hind, mis tagab piiramatu üheaegsete kasutajate arvuga ligipääsu piiramatuks ajaks
Grid Networks: Enabling Grids with Advanced Communication TechnologySuurem pilt
  • Formaat: 372 pages
  • Ilmumisaeg: 14-Jul-2006
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 470028696
  • ISBN-13: 9780470028698
Teised raamatud teemal:
Wiley Online e-raamatudRohkem infot Wiley Online kohta
Raamatu kodulehekülg: https://onlinelibrary.wiley.com/doi/book/10.1002/0470028696
Once network and Grid experts seemed to live on different planets, but now these advanced technologies have merged to their mutual benefit. The contributors, master practitioners and academics, cover both theory and practical issues including applications to a variety of Grid types, including those used in computation, data, service and instrumentation. They describe in detail the general attributes and types of Grids, including emergent communication technologies, Grid network requirements, driver applications, architecture, emerging architecture from standards bodies, service and service design, building on multiservice networks, middleware, TCP and UDP services and protocols, Layer 2 and Layer 3 technologies, monitoring and fault detection, recovery and restoration, infrastructures, and future possibilities. Articles are very accessible and the illustrations are especially helpful. The result is comprehensive and serves well as a reference as well as a source of inspiration for further research. Annotation ©2006 Book News, Inc., Portland, OR (booknews.com)

A book that bridges the gap between the communities of network and Grid experts.

Grid Networks describes the convergence of advanced networking technologies and Grid technologies, with special focus on their symbiotic relationship and the resulting new opportunities. Grid technology is applicable to many implementations, Computational Grids, Data Grids, Service Grids, and Instrumentation Grids.

The authors cover a breadth of topics including recent research, featuring both theoretical concepts and empirical results. Beginning with an overview of Grid technologies, an analysis of distinguishing use cases and architectural attributes, and emerging standards. Travostino et al. discuss new directions in multiple networking technologies that are enabling enhanced capabilities for Grids. An appendix also provides an overview of experimental research test-beds and prototype implementations.

These topics will enable network experts to design networks to best match Grid requirements, while Grid experts will learn how to effectively utilize network resources.

Grid Networks: Enabling Grids with Advanced Communication Technology:

  • Bridges the gap between the communities of network and Grid experts.
  • Covers new network requirements posed by the Grid, and the paradigm shifts prompted by Grid applications.
  • Discusses basic architectural concepts and directions related to the integration of Grid and networking technologies, especially those that elevate network resources to first class entities within Grid environments.
  • Details new directions in networking technologies for the Grid, including Network Infrastructure & Management, Service Provisioning, High Performance Data Transport, Performance Monitoring, Reliability, and Network-Assisted Service Frameworks.
  • Provides an overview of advanced research testbeds and innovative early implementations of emerging architecture and technology.

Many communities will find this book an invaluable resource, including engineers and product managers, research scientists within academia, industry, and government agencies, advanced students and faculty in distributed systems courses, network and systems architects, CIOs, administrators of advanced networks, application developers, and providers of next generation distributed services.

Editors and Contributors.
Contributors.
Foreword.
Acknowledgments.
Introduction: The Grid and Grid Networks.
1 The Grid and Grid Network Services (Joe Mambretti).
1.1 Introduction.
1.2 Network Resources as First-class Grid Entities.
1.3 The General Attributes of Grids.
1.4 Types of Grids.
1.5 Grid Networks and Emerging Communication Technologies.
2 Grid Network Requirements and Driver Applications.
2.1 Introduction.
2.2 Grid Network Requirements for Large-scale Visualization and Collaboration (Jason Leigh, Luc Renambot, and Maxine Brown).
2.3 Large-scale E-science (Peter Clarke).
2.4 Data Mining (Robert Grossman).
2.5 CineGrid, a Grid for Digital Cinema (Tom DeFanti, Laurin Herr, and Natalie Van Osdol).
2.6 Distributed Aircraft Maintenance Environment (DAME) (Tom Jackson, Jim Austin, and Martyn Fletcher).
2.7 Financial Services: Regulatory and Market Forces Motivating a Move to Grid Networks (Robert B. Cohen).
2.8 Summary of Requirements 47
3 Grid Network Requirements and Architecture (Joe Mambretti and Franco Travostino).
3.1 Introduction.
3.2 Requirements.
3.3 Translating Requirements to Architecture.
4 Relevant Emerging Network Architecture from Standards Bodies (Franco Travostino).
4.1 Introduction.
4.2 Global Grid Forum (GGF).
4.3 Enterprise Grid Alliance (EGA).
4.4 Organization for the Advancement of Structured Information Standards (OASIS).
4.5 World Wide Web Consortium (W3C).
4.6 The IPSphere Forum.
4.7 MPI Forum.
4.8 Internet Engineering Task Force (IETF).
4.9 Distributed Management Task Force (DMTF).
4.10 International Telecommunication Union (ITU-T).
4.11 Optical Internetworking Forum (OIF).
4.12 Infiniband Trade Association (IBTA).
4.13 Institute of Electrical and Electronics Engineers (IEEE).
5 Grid Network Services and Implications for Network Service Design (Joe Mambretti, Bill St. Arnaud, Tom DeFanti, Maxine Brown, and Kees Neggers).
5.1 Introduction.
5.2 Traditional Communications Services Architecture.
5.3 Grid Architecture as a Service Platform.
5.4 Network Services Architecture: An Overview.
5.5 Grid Network Services Implications.
5.6 Grid Network Services and Network Services.
5.7 Grid Network Service Components.
5.8 New Techniques for Grid Network Services Provisioning.
5.9 Examples of Grid Network Services Prototypes.
5.10 Distributed Facilities for Services Oriented Networking.
6 Grid Network Services: Building on Multiservice Networks (Joe Mambretti).
6.1 Introduction.
6.2 Grid Network Services and Traditional Network Services.
6.3 Network Service Concepts and the End-to-end Principle.
6.4 Grid Architecture and the Simplicity Principle.
6.5 Grids and Internet Transport Layer Services.
6.6 IETF Differentiated Services.
6.7 Gara and DiffServ.
6.8 Grids and Nonrouted Networks.
6.9 Layer 2 Services and Quality Standards.
6.10 Layer 1 Services and Quality Standards.
6.11 The Grid and Network Services.
7 Grid Network Middleware (Franco Travostino and Doan Hoang).
7.1 Introduction.
7.2 Definitions.
7.3 Grid Infrastructure Software.
7.4 Grid Network Infrastructure Software.
7.5 Components of Grid Network Infrastructure.
8 Grid Networks and TCP Services, Protocols, and Technologies (Bartek Wydrowski, Sanjay Hegde, Martin Suchara, Ryan Witt, and Steven Low).
8.1 Introduction.
8.2 Background and Theoretical basis for Current Structure of Transport Layer Protocols.
8.3 Enhanced Internet Transport Protocols.
8.4 Transport Protocols based on Specialized Router Processing.
8.5 TCP and UDP.
9 Grid Networks and UDP Services, Protocols, and Technologies (Jason Leigh, Eric He, and Robert Grossman).
9.1 Introduction.
9.2 Transport Protocols based on the User Datagram Protocol (UDP).
9.3 Lambdastream.
9.4 Grid Applications and Transport Protocols.
9.5 The Quanta Toolkit.
9.6 Grids and Internet Transport.
10 Grid Networks and Layer 3 Services (Joe Mambretti and Franco Travostino).
10.1 Introduction.
10.2 The Internet and the End-To-End Principle.
10.3 The Internet and Layer 3 Services.
10.4 Grid Experimentation with DiffServ-Based Quality of Service.
10.5 Internet Routing Functions.
10.6 Layer 3 Addressing and Network Address Translators (NATS).
10.7 IP Version 6.
10.8 Subsecond IGP Recovery.
10.9 Internet Security using Internet Protocol Security.
10.10 IP Multicast.
10.11 Internet Layer 3 Services.
11 Layer 2 Technologies and Grid Networks (John Strand, Angela Chiu, David Martin, and Franco Travostino).
11.1 Introduction.
11.2 Layer 2 Technologies and Grid Requirements.
11.3 Multiprotocol Label Switching (MPLS).
11.4 Ethernet Architecture and Services.
11.5 Pseudo-Wire Emulation (PWE) and Virtual Private Lan Services Over MPLS (VPLS).
11.6 Layers 2/1 Data Plane Integration.
11.7 Resilient Packet Rings (RPR).
11.8 User–Network Interfaces.
11.9 Optical Interworking Forum Interoperability Demonstration.
11.10 Infiniband.
12 Grid Networks and Layer 1 Services (Gigi Karmous-Edwards, Joe Mambretti, Dimitra Simeonidou, Admela Jukan, Tzvetelina Battestilli, Harry Perros, Yufeng Xin, and John Strand).
12.1 Introduction.
12.2 Recent Advances in Optical Networking Technology and Responses.
12.3 Behavioral Control of Layer 1 Networks.
12.4 Current Research Challenges for Layer 1 Services.
12.5 All-Photonic Grid Network Services.
12.6 Optical Burst Switching and Grid Infrastructure.
13 Network Performance Monitoring, Fault Detection, Recovery, and Restoration (Richard Hughes-Jones, Yufeng Xin, Gigi Karmous-Edwards, John Strand).
13.1 Introduction.
13.2 Monitoring Characteristics.
13.3 Network Monitoring Instrumentation and Analysis.
13.4 General Considerations on Availability.
13.5 Fault Detection.
13.6 Recovery and Restoration.
13.7 Integrated Fault Management.
14 Grid Network Services Infrastructure (Cees de Laat, Freek Dijkstra, and Joe Mambretti).
14.1 Introduction.
14.2 Creating Next-Generation Network Services and Infrastructure.
14.3 Large-Scale Distributed Facilities.
14.4 Designs for an Open Services Communications Exchange.
14.5 Open Grid Optical Exchanges.
14.6 Prototype Implementations.
15 Emerging Grid Networking Services and Technologies (Joe Mambretti, Roger Helkey, Olivier Jerphagnon, John Bowers, and Franco Travostino).
15.1 Introduction.
15.2 New Enabling Technologies.
15.3 Edge Technologies.
15.4 Wireless Technologies.
15.5 Access Technologies.
15.6 Core Technologies.
15.7 Photonic Integrated Circuits (PIC).
Appendix: Advanced Networking Research Testbeds and Prototype Implementations.
A.1 Introduction.
A.2 Testbeds.
A.3 Prototype Implementations.
A.4 National and International Next Generation Communications Infrastructure.
A.5 International Facilities.
Index.


Franco Travostino is Director for Nortel's Advanced Technology, Office of the CTO. He propelled Nortels leadership in the networking aspects of the Grid vision, and their implementation in widely-known Research & Education settings (e.g., OMNInet, SURFnet, GLIF exchanges, etc.). Since March 2003, Franco co-chairs the Grid High Performance Networking Research Group at the Global Grid Forum (GGF). Franco has authored more than 30 peer-reviewed technical publications, 25 patent disclosures, and has at least 6 standard-track IETF RFCs in the queue. Gigi Karmous-Edwards.  Since joining MCNC as a Principal Scientist, Gigi has focused her research on novel optical technologies and their role in Grid Computing, and leads research activities focusing on advance networking technologies for Grid computing. She has published several papers in that area. She organized and chaired the 1st International workshop for the Optical Control Plane for the Grid Community.

Joel J. Mambretti is Director of the International Center for Advanced Internet Research at Northwestern University.  He has served on the advisory boards of major technology corporations, is a frequent speaker at national and international communications technology forums, and has authored multiple articles on advanced communications.
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