Symgrid

SymGrid: A Framework for Symbolic Computation on the Grid. This paper introduces the design of SymGrid, a new Grid framework that will, for the first time, allow multiple invocations of symbolic computing applications to interact via the Grid. SymGrid is designed to support the specific needs of symbolic computation, including computational steering (greater interactivity), complex data structures, and domain-specific computational patterns (for irregular parallelism). A key issue is heterogeneity: SymGrid is designed to orchestrate components from different symbolic systems into a single coherent (possibly parallel) Grid application, building on the OpenMath standard for data exchange between mathematically-oriented applications. The work is being developed as part of a major EU infrastructure project.

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References in zbMATH (referenced in 5 articles )

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  1. Stewart, Robert; Maier, Patrick; Trinder, Phil: Transparent fault tolerance for scalable functional computation (2016)
  2. Linton, S.; Hammond, K.; Konovalov, A.; Brown, C.; Trinder, P. W.; Loidl, H.-W.; Horn, P.; Roozemond, D.: Easy composition of symbolic computation software using SCSCP: a new Lingua Franca for symbolic computation (2013)
  3. Achten, Peter; van Eekelen, Marko; Koopman, Pieter; Morazán, Marco T.: Trends in trends in functional programming 1999/2000 versus 2007/2008 (2010)
  4. Lobachev, Oleg; Loogen, Rita: Towards an implementation of a computer algebra system in a functional language (2008)
  5. Hammond, Kevin; Zain, Abdallah Al; Cooperman, Gene; Petcu, Dana; Trinder, Phil: SymGrid: A framework for symbolic computation on the grid (2007) ioport