Free Access
Volume 36, Number 5, September/October 2002
Special issue on Programming
Page(s) 773 - 781
Published online 15 October 2002
  1. K. Aazizou, J. Besson, G. Gailletaux and F. Hourlier, Une approche C++ du calcul par éléments finis, in Colloque National en Calcul des Structures 2 (1993) 709-722.
  2. M. Brain and L. Lovette, Developing professional applications for Windows 95 and NT using MFC. Prentice Hall PTR (1997).
  3. J.-M. Cros, Parallel modal synthesis methods in structural dynamics. Contemp. Math. 218 (1998) 238-245.
  4. J.-M. Cros and F. Léné, Parallel iterative methods to solve large-scale eigenvalue problems in structural dynamics, in Domain Decomposition Methods in Sciences and Engineering, P.E. Bjørstad, M. Espedal and D. Keyes Eds., John Wiley & Sons (1997) 318-324. Bergen, Norway, Proceedings from the Ninth International Conference, June (1996).
  5. L.H. De Figueiredo and M. Gattass, A database management system for efficient storage of structural loading. Comput. & Structures 32 (1989) 1025-1034.
  6. G. De Saxcé, Le projet charly : un logiciel de calcul par éléments finis et éléments frontières de seconde génération. Séminaire de génie logiciel, Division MSM, Université de Liège (1987).
  7. Y. Duboispelerin, T. Zimmermann and P. Bomme, Object-oriented finite element programming, 2. a prototype program in smalltalk. Comput. Methods Appl. Mech. Engrg. 98 (1992) 361-397. [CrossRef]
  8. Y. Duboispelerin and T. Zimmermann, Object-oriented finite element programming, 3. an efficient implementation in C++. Comput. Methods Appl. Mech. Engrg. 10 (1993) 165-183. [CrossRef]
  9. C. Farhat and M. Lesoinne, Mesh partitioning algorithms for the parallel solution of partial differential equations. Appl. Numer. Math. 12 (1993) 443-457. [CrossRef]
  10. C. Farhat, M. Lesoinne, P. Le Tallec, K. Pierson and D. Rixen, Feti-dp: A dual-primal unified feti method - part i: A faster alternative to the two-level feti method. Int. J. Numer. Meth. Engrg. 50 (2001) 1523-1544. [CrossRef]
  11. C. Farhat and F.-X. Roux, Implicit parallel processing in structural mechanics, in Computational Mechanics Advances, J. Tinsley Oden Ed., Vol. 2, North-Holland (1994) 1-124.
  12. Z.Q. Feng, K. Aazizou and F. Hourlier, Modélisation des problèmes de contact avec frottement implantation en C++ dans le code zébulon, in Colloque National en Calcul des Structures 2 (1993) 1141-1156.
  13. Z.G. Feng, Z.Q. Feng and M. Domaszewski, Fer/view : un post-processeur général de calcul par éléments finis. Teknea, in 4ème Colloque National en Calcul des Structures 2 (1999) 883-887.
  14. J.S.R.A. Filho and P.R.B. Devloo, Object-oriented programming in scientific computations: The beginning of a new era. Engrg. Comput. 8 (1991) 81-87. [CrossRef]
  15. B.W.R. Forde, R.O. Foschi and S.F. Stiemer, Object-oriented finite element analysis. Comput. & Structures 34 (1990) 355-374.
  16. K.P. Jacobsen, Fully integrated superelements: a database approach to finite element analysis. Comput. & Structures 16 (1983) 307-315.
  17. D.L. Kunz and A.S. Hopkins, Structured data in structural analysis software. Comput. & Structures 26 (1987) 965-978.
  18. P. Le Tallec, Domain decomposition methods in computational mechanics, in Computational Mechanics Advances, J. Tinsley Oden Ed., Vol. 1, North-Holland (1994) 121-220.
  19. P. Le Tallec, J. Mandel and M. Vidrascu, A neumann-neumann domain decomposition algorithm for solving plate and shell problems. SIAM J. Numer. Math. 35 (1998) 836-867. [CrossRef]
  20. J. Lu, D.W. White, W.F. Chen and H.E. Dunsmore, A matrix class library in C++ for structural engineering computing. Comput. & Structures 55 (1995) 95-111.
  21. R.I. Mackie, Object-oriented programming of the finite element method. Internat. J. Numer. Methods Engrg. 35 (1992) 425-436. [CrossRef]
  22. P. Menetrey and T. Zimmermann, Object-oriented non-linear finite element analysis - application to j2 plasticity. Comput. & Structures 49 (1993) 767-777.
  23. T.S Murthy, Y.K Shyy and J.S. Arora, Midas: management of information for design and analysis of systems. Adv. Eng. Software 8 (1986) 149-158.
  24. PGSoft and University of Colorado. TOP/DOMDEC: A totally object oriented program for visualisation, domain decomposition and parallel processing (1994). User's manual.
  25. R.M.V. Pidaparti and A.V. Hudli, Dynamic analysis of structures using object-oriented techniques. Comput. & Structures 10 (1993) 149-156.
  26. S.D. Rajan and M.A. Bhatti, Data management in fem-based optimization software. Comput. & Structures 16 (1983) 317-325.
  27. B. Raphael and C.S. Krishnamoorthy, Automating finite element development using object-oriented techniques. Engrg. Comput. 10 (1993) 267-278. [CrossRef]
  28. S.P. Scholz, Elements of an object-oriented fem++ program in C++. Comput. & Structures 43 (1992) 517-529.
  29. H.D. Simon, Partitioning of unstructured problems for parallel processors. Computing Systems in Engineering 22 (1991) 135-148. [CrossRef]
  30. G. Touzot, S.i.c.1.1: Réflexion sur l'architecture des logiciels de modélisation. Technical report, Université de Technologie de Compiègne (1986).
  31. P. Verpeaux, T. Charras and A. Millard, Castem 2000: une approche moderne du calcul des structures, in Calcul des structures et intelligence artificielle, J.M. Fouet, P. Ladevèze and R. Ohayon Eds., Pluraris (1988).
  32. S. Wang, A conception of module library and data base management system for finite element analysis. Comput. & Structures 26 (1989) 1073-1083.
  33. R.S. Wright Jr. and M. Sweet, OpenGL superbible: the complete guide to OpenGL programming for Windows NT and Windows 95. Waite Group Press (1996).
  34. G.W. Zeglinski, R.P.S. Han and P. Aitchison, Object-oriented matrix classes for use in a finite element code using C++. Internat. J. Numer. Methods Engrg. 30 (1994) 3921-3937. [CrossRef]
  35. T. Zimmermann, Y. Duboispelerin and P. Bomme, Object-oriented finite element programming, 1. governing principles. Comput. Methods Appl. Mech. Engrg. 98 (1992) 291-303. [CrossRef]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.

Recommended for you