sympy: symbolic computing in python

Aaron Meurer; Christopher P. Smith; Mateusz Paprocki; Ondřej Čertík; Sergey B. Kirpichev; Matthew Rocklin; AMiT Kumar; Sergiu Ivanov; Jason K. Moore; Sartaj Singh; Thilina Rathnayake; Sean Vig; Brian E. Granger; Richard P. Muller; Francesco Bonazzi; Harsh Gupta; Shivam Vats; Fredrik Johansson; Fabian Pedregosa; Matthew J. Curry; Andy R. Terrel; Štěpán Roučka; Ashutosh Saboo; Isuru Fernando; Sumith Kulal; Robert Cimrman; Anthony Scopatz

sympy: symbolic computing in python

Clicks: 138

ID: 180359

2017

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 a popular symbolic library for the scientific Python ecosystem. This paper presents the architecture of SymPy, a description of its features, and a discussion of select submodules. The supplementary material provide additional examples and further outline details of the architecture and features of SymPy.

Reference Key	meurer2017peerjsympy: Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	;Aaron Meurer;Christopher P. Smith;Mateusz Paprocki;Ondřej Čertík;Sergey B. Kirpichev;Matthew Rocklin;AMiT Kumar;Sergiu Ivanov;Jason K. Moore;Sartaj Singh;Thilina Rathnayake;Sean Vig;Brian E. Granger;Richard P. Muller;Francesco Bonazzi;Harsh Gupta;Shivam Vats;Fredrik Johansson;Fabian Pedregosa;Matthew J. Curry;Andy R. Terrel;Štěpán Roučka;Ashutosh Saboo;Isuru Fernando;Sumith Kulal;Robert Cimrman;Anthony Scopatz
Journal	social cognitive and affective neuroscience
Year	2017
DOI	10.7717/peerj-cs.103
URL	https://peerj.com/articles/cs-103/ https://doi.org/10.7717/peerj-cs.103
Keywords	Python computer science

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