On Building Parallel and Grid Applications: Component Technology and Distributed Services. Gannon, D., Krishnan, S., Fang, L., Kandaswamy, G., Simmhan, Y., & Slominski, A. In International Workshop on Challenges of Large Applications in Distributed Environments (CLADE), pages 44–51, 2004. IEEE. [CORE C]
doi  abstract   bibtex   
Software Component Frameworks are well known in the commercial business application world and now this technology is being explored with great interest as a way to build large-scale scientific application on parallel computers. In the case of Grid systems, the current architectural model is based on the emerging web services framework. In this paper we describe progress that has been made on the Common Component Architecture model (CCA) and discuss its success and limitations when applied to problems in Grid computing. Our primary conclusion is that a component model fits very well with a services-oriented Grid, but the model of composition must allow for a very dynamic (both in space and it time) control of composition. We note that this adds a new dimension to conventional service workflow and it extends the “Inversion of Control” aspects of must component systems.
@InProceedings{Gannon:clade:2004,
  author       = {Dennis Gannon and Sriram Krishnan and Liang Fang and Gopi Kandaswamy and Yogesh Simmhan and Aleksander Slominski},
  title        = {On Building Parallel and Grid Applications: Component Technology and Distributed Services},
  booktitle    = {International Workshop on Challenges of Large Applications in Distributed Environments (CLADE)},
  year         = {2004},
  pages        = {44--51},
  organization = {IEEE},
  note         = {[CORE C]},
  abstract     = {Software Component Frameworks are well known in the commercial business application world and now this technology is being explored with great interest as a way to build large-scale scientific application on parallel computers. In the case of Grid systems, the current architectural model is based on the emerging web services framework. In this paper we describe progress that has been made on the Common Component Architecture model (CCA) and discuss its success and limitations when applied to problems in Grid computing. Our primary conclusion is that a component model fits very well with a services-oriented Grid, but the model of composition must allow for a very dynamic (both in space and it time) control of composition. We note that this adds a new dimension to conventional service workflow and it extends the “Inversion of Control” aspects of must component systems.},
  doi          = {10.1109/CLADE.2004.1309091},
  keywords     = {iu, grid, web service, escience, component, peer reviewed},
  owner        = {Simmhan},
  timestamp    = {2013.01.30},
}
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