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Data Management in Dynamic Environment-driven Computational Science

  • Yogesh L. Simmhan
  • Sangmi Lee Pallickara
  • Nithya N. Vijayakumar
  • Beth Plale
Part of the IFIP The International Federation for Information Processing book series (IFIPAICT, volume 239)

Abstract

Advances in numerical modeling, computational hardware and problem solving environments have driven the growth of computational science over the past decades. Science gateways, based on service oriented architectures and scientific workflows, provide yet another step in democratizing access to advanced numerical and scientific tools, computational resource and massive data storage, and fostering collaborations. Dynamic, data-driven applications, such as those found in weather forecasting, present interesting challenges to Science Gateways, which are being addressed as part of the LEAD Cyberinfrastructure project. In this article, we discuss three important data related problems faced by such adaptive data-driven environments: managing a user’s personal workspace and metadata on the Grid, tracking the provenance of scientific workflows and data products, and continuous data mining over observational weather data.

Key words

LEAD science gateways cyberinfrastructure data & metadata management provenance data quality data mining streams 

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Copyright information

© International Federation for Information Processing 2007

Authors and Affiliations

  • Yogesh L. Simmhan
    • 1
  • Sangmi Lee Pallickara
    • 1
  • Nithya N. Vijayakumar
    • 1
  • Beth Plale
    • 1
  1. 1.Computer Science DepartmentIndiana UniversityBloomingtonUSA

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