Computational science simulations based on web services

  • Authors:

  • Paul Chew;Nikos Chrisochoides;S. Gopalsamy;Gerd Heber;Tony Ingraffea;Edward Luke;Joaquim Neto;Keshav Pingali;Alan Shih;Bharat Soni;Paul Stodghill;David Thompson;Steve Vavasis;Paul Wawrzynek

  • Affiliations:

  • Department of Computer Science, Cornell University;College of William and Mary;School of Engineering, University of Alabama at Birmingham;Cornell Theory Center;Department of Civil Engineering, Cornell University;Engineering Research Center, Mississippi State University;Department of Civil Engineering, Cornell University;Department of Computer Science, Cornell University;School of Engineering, University of Alabama at Birmingham;School of Engineering, University of Alabama at Birmingham;Department of Computer Science, Cornell University;Engineering Research Center, Mississippi State University;Department of Computer Science, Cornell University;Department of Civil Engineering, Cornell University

  • Venue:
  • ICCS'03 Proceedings of the 2003 international conference on Computational science
  • Year:
  • 2003

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Abstract

We describe the software architecture of a system for doing multiphysics simulation of a coupled fluid, thermal, and mechanical fracture problem. The system is organized as a collection of geographically-distributed software components in which each component provides a web service, and uses standard web-service protocols to interact with other components. The resulting system incorporates many features such as componentization and geographical distribution which we believe are vital to adaptive and dynamic data-driven application systems (DDDAS).