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The Information and Knowledge Layers of the GRIDs Architecture

The Information and Knowledge Layers of the GRIDs Architecture. Keith G Jeffery Director, IT & Head, ITD kgj@.rl.ac.uk http://www.itd.clrc.ac.uk/. CLRC-RAL Site. CLRC. RAL and DL e-Science Paul Durham e-Business and everything else Keith Jeffery

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The Information and Knowledge Layers of the GRIDs Architecture

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  1. The Information and Knowledge Layers of the GRIDs Architecture Keith G Jeffery Director, IT & Head, ITD kgj@.rl.ac.uk http://www.itd.clrc.ac.uk/

  2. CLRC-RAL Site

  3. CLRC • RAL and DL • e-Science • Paul Durham • e-Business and everything else • Keith Jeffery • e-Government, e-Information, e-Learning, e-Culture… • W3C and ERCIM • UK Grid Support Centre

  4. Structure of Presentation • Proposition • The Idea • Planned Enhancements • Issues to be dealt with • Applications • why use GRIDs • target • what has to be done • Conclusion

  5. Proposition (1) • Most of the work to date on GRID technology has centred on high performance computing and metacomputing • alternative approach: 3-layer view • knowledge • information • computation / data

  6. Proposition (2) • Technologies from distributed computing, database and IR, formal software engineering, knowledge engineering….. • Intersection with W3C • web of trust • semantic web • web services

  7. Proposition (3) • permits pullthrough • from e-Science grand challenges • to e-business • thus promoting sustainability and widespread buy-in • for greater benefit of commercial and non-commercial sectors • and especially e-health, e-environment, e-culture, e-learning…...

  8. Structure of Presentation • Proposition • The Idea • Planned Enhancements • Issues to be dealt with • Applications • why use GRIDs • target • what has to be done • Conclusion

  9. Knowledge Layer Information Layer Data toKnowledge Control Computation / Data Layer The GRIDs Architecture

  10. The GRIDs Environment User Appliance Plug-in Personal Communication Personal Shopping Hobbies, family activities Business Communication Business Dealing Business Information PC Palmtop Mobile.. The Big Idea:What it Provides ‘The Wall’

  11. USER RESOURCE SOURCE A POSSIBLE ARCHITECTURE The GRIDs Environment User Metadata User Agent Source Metadata Source Agent Resource Agent Resource Metadata

  12. Classification of Metadata view to users SCHEMA NAVIGATIONAL ASSOCIATIVE constrain it how to get it data (document)

  13. Structure of Presentation • Proposition • The Idea • Planned Enhancements • Issues to be dealt with • Applications • why use GRIDs • target • what has to be done • Conclusion

  14. Planned Enhancements (1) • Full scalable directory • (full graph including cycles, not tree) • e.g. person <dates,role> orgunit <dates,role> project • Authentication: • multiple modes convergent to certificate • Authorisation: • by authenticated person / role • against accessing / utilising services, sources, resources, other users

  15. Planned Enhancements (2) • Metadata • for description of • users, • sources (data / information/ software or services), • resources (engines eg computation, visualisation or services) • based on RDF/XML; • using the Metadata 3 kinds classification • schema, • navigational, • associative [descriptive, restrictive, supportive]

  16. Planned Enhancements (3) • Thesauri and Domain Ontologies • based on DAML+OIL over RDF/XML? • Beyond simple FOPL: F-logic? • Web Tools(Services) • (with functional signatures as interfaces) • Intelligent Agents • probably conforming to FIPA

  17. Issues to be Dealt With • Can we simplify the architecture so that • all entities {users, sources, resources} • are represented as services • and define a metadata for description of services (acting as a kind of service functional signature) • Is the CERIF model (www.cordis.lu/cerif) suitable for the directory?

  18. Structure of Presentation • Proposition • The Idea • Planned Enhancements • Issues to be dealt with • Applications • why use GRIDs • target • what has to be done • Conclusion

  19. Applications • The target application areas are e-business, e-commerce, e-learning, e-publishing, e-health, e-environment, e-culture….etc etc • At the information layer includes database, information retrieval, web (e.g. digital libraries sensu lato) • At the knowledge layer includes decision support, advisor systems, constraint-based process systems (e.g. virtual organisations)

  20. Applications: Why use GRIDs • The GRIDs architecture can provide ubiquitous pervasive homogeneous access to • heterogeneous distributed data / information sources with • data ==> information ==> knowledge enhancement and to • computation or visualisation resources to generate (eg through data mining) insight. • It can also provide such access to heterogeneous distributed engines (eg for computation or visualisation) • It can also provide such access to services. • All invisible to the end-user behind a helpful UI

  21. Application Environment Target • The target is • user-friendly e-information and e-business • more supportive, intelligent, easy to use and integrated with lifestyle • than current web-based solutions. • This implies • the user does not know (or care) from whence comes the information or compute-power to solve her problem

  22. What has to be done to Applications to use GRIDs • Need to take legacy applications and GRIDs-wrap them • Developing applications will develop in this direction to converge • New applications can be built from the beginning to this architecture

  23. Structure of Presentation • Proposition • The Idea • Planned Enhancements • Issues to be dealt with • Applications • why use GRIDs • target • what has to be done • Conclusion

  24. CONCLUSIONS • GRIDs technology will ‘come of age’ when: • it is as / more ubiquitous than WWW • it is as / more pervasive than WWW • it provides the end-user with more leverage than WWW • implies when • supported by mainstream IT companies • used in commercial and non-commercial

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