Computer Physics Communications Program LibraryPrograms in Physics & Physical Chemistry |

[Licence| Download | New Version Template] adyn_v1_0.tar.gz(525 Kbytes) | ||
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Manuscript Title: USFKAD: An Expert System for Partial Differential Equations | ||

Authors: S. Kadamani, A. D. Snider | ||

Program title: USFKAD | ||

Catalogue identifier: ADYN_v1_0Distribution format: tar.gz | ||

Journal reference: Comput. Phys. Commun. 176(2007)62 | ||

Programming language: C++, LaTeX. | ||

Computer: All running Windows, UNIX. | ||

Operating system: Windows, UNIX. | ||

RAM: 1.3 Megabytes | ||

Keywords: Partial differential equations, symbolic computing, eigenfunctions, analytic solutions. | ||

PACS: 02.30.Jr; 02.60.Lj; 41.20.Cv. | ||

Classification: 4.3. | ||

Nature of problem:Analytic solution of Poisson, diffusion, and wave equations | ||

Solution method:Eigenfunction expansions | ||

Restrictions:A few rarely-occurring singular boundary conditions are unavailable, but they can be approximated by regular boundary value problems to arbitrary accuracy. | ||

Unusual features:Solutions are obtained for Poissson, diffusion, or wave PDEs; homogeneous or nonhomogeneous equations and/or boundary conditions; rectangular, cylindrical, or spherical coordinates; time, Laplace, or frequency domains; Dirichlet, Neumann, Robin, singular, periodic, or incoming/outgoing boundary conditions. Output is suitable for pasting into LaTeX documents. | ||

Running time:1 second |

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