Free access
Issue
ESAIM: M2AN
Volume 36, Number 5, September/October 2002
Special issue on Programming
Page(s) 953 - 970
DOI http://dx.doi.org/10.1051/m2an:2002043
Published online 15 October 2002
  1. M. Gander and L. Halpern, Méthodes de relaxation d'ondes (SWR) pour l'équation de la chaleur en dimension 1 (submitted to CRAS).
  2. M.J. Gander, L. Halpern and F. Nataf, Optimal convergence for overlapping and non-overlapping Schwarz waveform relaxation, in Eleventh international Conference of Domain Decomposition Methods, C.-H. Lai, P. Bjørstad, M. Cross and O. Widlund Eds. (1999).
  3. C. Japhet, Conditions aux limites artificielles et décomposition de domaine : méthode OO2 (optimisée d'ordre 2). Application à la résolution de problèmes en mécanique des fluides. Thèse, École Polytechnique (1997).
  4. C. Japhet, F. Nataf and F. Rogier, The Optimized Order 2 method. Application to convection-diffusion problems. Future Generation Computer Systems FUTURE 18 (2001).
  5. F. Nataf, communication personnelle.
  6. M. Grand, Java Languare Reference. 2nd Edition, O'Reilly (1997), ISBN 1-56592-326-X.
  7. The Java Programming Language, http://java.sun.com/.
  8. Java Grande Forum, information at http://www.javagrande.org
  9. Java Numerics, information at http://math.nist.gov/javanumerics
  10. J. Farley, Java Distributed Computing. O'Reilly (1998), ISBN 1-565-92206-9.
  11. GRID, The GRID Forum, http://www.gridforum.org/.
  12. EGRID, The European Grid Forum, http://www.egrid.org
  13. A. Chervenak, I. Foster, C. Kesselman, C. Salisbury and S. Tuecke, The Data Grid: Towards an Architecture for the Distributed Management and Analysis of Large Scientific Datasets. Available on line at [14]. J. Network Comput. Appl. 23 (2001) 187-200. [CrossRef]
  14. The GlOBUS project, information at http://www.globus.org/.
  15. S. Chapin, J. Karpovich and A. Grimshaw, The Legion Resource Management System, in Proc. of the 5th Workshop on Job Scheduling Strategies for Parallel Processing (JSSPP'99). San Juan, Porto Rico (1999).
  16. The LEGION project at the University of Virginia, USA, http://legion.virginia.edu/.
  17. J. Siegel et al., CORBA Fundamentals and Programming. J. Wiley & Sons (1996), ISBN 0-471-12148-7.
  18. M. Henning and S. Vinoski, Advanced CORBA Programming with C++. Addison-Wesley (1999), ISBN 0201379279.
  19. Corba: Common Object Request Broker Architecture, information at http://www.corba.org
  20. OMG the Object Management Group, http://www.omg.org
  21. B. Stroustrup, The C++ programming language. 3rd Edition, Addison-Wesley (1998), ISBN 0-201-88954-4.
  22. J. Barton and L. Nackman, Scientific and Engineering C++. Addison-Wesley (1994).
  23. OMG CCM Implementers Group, CORBA Component Model Tutorial, Document-ccm/02-04-01, available at http://www.omg.org
  24. W. Gropp, E. Lusk and A. Skjellum, Using MPI. 2nd Edition, MIT Press (1999), ISBN 0-262-57132-3.
  25. MPI: Message Passing Interface, all documents can be retrived from http://www.mpi-forum.org/. For information and implementations of the standard see http://www-unix.mcs.anl.gov/mpi/.
  26. T. Priol, C. René and G. Alléon, Programming SCI Clusters Using Parallel CORBA Objects. INRIA-IRISA Report 3649 (1999).
  27. K. Keahey and D. Gannon, PARDIS: CORBA-based Architecture for Application-level Parallel Distributed Computation, in Proc. of Supercomputing'97 (1997).

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