Publication: Automatic Differentiation for Optimum Design, Applied to Sonic Boom Reduction
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Automatic Differentiation for Optimum Design, Applied to Sonic Boom Reduction

- Part of a collection -
 

Area
Computational Fluid Dynamics

Author(s)
Laurent Hascoët , Mariano Vázquez , Alain Dervieux

Published in
Computational Science and Its Applications -- ICCSA 2003, Proceedings of the International Conference on Computational Science and its Applications, Montreal, Canada, May 18--21, 2003. Part II

Editor(s)
V. Kumar, M. L. Gavrilova, C. J. K. Tan, P. L'Ecuyer

Year
2003

Publisher
Springer

Abstract
We propose a methodology for adjoint-based optimum design that combines hand-coding with Automatic Differentiation in the reverse mode, therefore managing to keep the memory cost acceptable. This methodology also involves improvements to the reverse mode differentiation, based on dataflow information on the original program. We validate the method on a real-size 3D optimum design problem: reducing the sonic boom under a supersonic aircraft.

Cross-References
Kumar2003CSa

AD Tools
TAPENADE

Related Applications
- Reducing the Sonic Boom under a Supersonic Jet

BibTeX
@INPROCEEDINGS{
         Hascoet2003ADf,
       author = "Laurent Hasco{\"e}t and Mariano V{\'a}zquez and Alain Dervieux",
       title = "Automatic Differentiation for Optimum Design, Applied to Sonic Boom Reduction",
       booktitle = "Computational Science and Its Applications -- ICCSA~2003, Proceedings of the
         International Conference on Computational Science and its Applications, Montreal, Canada,
         May~18--21, 2003. Part~II",
       editor = "V. Kumar and M. L. Gavrilova and C. J. K. Tan and P. {L'Ecuyer}",
       abstract = "We propose a methodology for adjoint-based optimum design that combines hand-coding
         with Automatic Differentiation in the reverse mode, therefore managing to keep the memory cost
         acceptable. This methodology also involves improvements to the reverse mode differentiation, based
         on dataflow information on the original program. We validate the method on a real-size 3D optimum
         design problem: reducing the sonic boom under a supersonic aircraft.",
       volume = "2668",
       series = "Lecture Notes in Computer Science",
       publisher = "Springer",
       pages = "85--94",
       address = "Berlin",
       reference = "http://www.autodiff.org/?module=Workshops&submenu=iccsa03",
       ad_area = "Computational Fluid Dynamics",
       ad_tools = "TAPENADE",
       year = "2003",
       crossref = "Kumar2003CSa"
}


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