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'''SU2''' is a suite of [[open-source]] software tools written in C++ for the numerical solution of [[partial differential equation]]s (PDE) and performing PDE constrained optimization. The primary applications are [[computational fluid dynamics]] and aerodynamic [[shape optimization]],<ref>[http://su2.stanford.edu/documents/SU2_AIAA_ASM2013.pdf F. Palacios, M. R. Colonno, A. C. Aranake, A. Campos, S. R. Copeland, T. D. Economon, A. K. Lonkar, T. W. Lukaczyk, T. W. R. Taylor, and J. J. Alonso, "Stanford University Unstructured (SU2): An open-source integrated computational environment for multi-physics simulation and design", AIAA Paper 2013-0287, 51st AIAA Aerospace Sciences Meeting and Exhibit. January 7th - 10th, 2013. Grapevine, Texas, USA.]</ref> but has been extended to treat more general equations such as [[electrodynamics]] and chemically reacting flows. SU2 supports continius and discrete adjoint for calculating the sensitivitys/gradients of a scalar field.
SU2 is being developed by individuals and organized teams around the world. The SU2 Lead Developers are: Dr. Francisco Palacios and Dr. Thomas D. Economon.
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