SymPy: Symbolic computing in Python
MOORE, Jason K
Department of Mechanical and Aerospace Engineering [Univ California Davis] [MAE - UC Davis]
Department of Mechanical and Aerospace Engineering [Univ California Davis] [MAE - UC Davis]
CURRY, Matthew J
Department of Physics and Astronomy [Albuquerque]
Center for Quantum Information and Control [Albuquerque] [CQuIC]
Sandia National Laboratories [Albuquerque] [SNL]
< Leer menos
Department of Physics and Astronomy [Albuquerque]
Center for Quantum Information and Control [Albuquerque] [CQuIC]
Sandia National Laboratories [Albuquerque] [SNL]
Idioma
en
Article de revue
Este ítem está publicado en
PeerJ Computer Science. 2017 n° 3, p. e103
PeerJ
Resumen en inglés
SymPy is an open source computer algebra system written in pure Python. It is built with a focus on extensibility and ease of use, through both interactive and programmatic applications. These characteristics have led SymPy ...Leer más >
SymPy is an open source computer algebra system written in pure Python. It is built with a focus on extensibility and ease of use, through both interactive and programmatic applications. These characteristics have led SymPy to become the standard symbolic library for the scientific Python ecosystem. This paper presents the architecture of SymPy, a description of its features, and a discussion of select domain specific submodules. The supplementary materials provide additional examples and further outline details of the architecture and features of SymPy.< Leer menos
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