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external_software [2019/04/25 09:16] – mradons | external_software [2019/04/25 09:36] – mradons |
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** <BOOKMARK:nauty> ''nauty'': Computing of automorphism groups of graphs\\ Provides an interface to [[http://cs.anu.edu.au/~bdm/nauty/|nauty]] (version 2.5r9)\\ by [[http://cs.anu.edu.au/~bdm/|Brendan McKay]], Australian National University.\\ **Note:** This interface can also work with a custom source directory instead of the bundled code, since 3.0r2.\\ Alternative: bliss | ** <BOOKMARK:nauty> ''nauty'': Computing of automorphism groups of graphs\\ Provides an interface to [[http://cs.anu.edu.au/~bdm/nauty/|nauty]] (version 2.5r9)\\ by [[http://cs.anu.edu.au/~bdm/|Brendan McKay]], Australian National University.\\ **Note:** This interface can also work with a custom source directory instead of the bundled code, since 3.0r2.\\ Alternative: bliss |
.. Computes automorphism groups of graphs. ''polymake'' uses it for checking combinatorial equivalence and congruence of polytopes as well as isomorphy of graphs. | .. Computes automorphism groups of graphs. ''polymake'' uses it for checking combinatorial equivalence and congruence of polytopes as well as isomorphy of graphs. |
** <BOOKMARK:sympol>''sympol'': Dealing with symmetric polytopes\\ Provides an interface to [[http://www.math.uni-rostock.de/~rehn/software/sympol.html|SymPol]] (by [[http://www.math.uni-rostock.de/~rehn/|Thomas Rehn]] and [[http://www.mathematik.uni-rostock.de/lehrstuehle/geometrie/people/|Achill Schürmann]]). | ** <BOOKMARK:sympol>''sympol'': Dealing with symmetric polytopes\\ Provides an interface to [[http://www.math.uni-rostock.de/~rehn/software/sympol.html|SymPol]] (by [[http://www.math.uni-rostock.de/~rehn/|Thomas Rehn]] and [[https://www.mathematik.uni-rostock.de/struktur/professuren-apl-prof/geometrie/people/achill/|Achill Schürmann]]). |
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=== Bare interfaces === | === Bare interfaces === |
.. Visualizes 3D- and 4D-polytopes (and much more). | .. Visualizes 3D- and 4D-polytopes (and much more). |
** <BOOKMARK:PPL> ''ppl'': a modern C++ library for the manipulation of numerical information that can be represented by points in some n-dimensional vector space\\ Provides an interface to the [[http://bugseng.com/products/ppl|Parma Polyhedra Library]] (by [[http://www.cs.unipr.it/~bagnara/|Roberto Bagnara]] et al) | ** <BOOKMARK:PPL> ''ppl'': a modern C++ library for the manipulation of numerical information that can be represented by points in some n-dimensional vector space\\ Provides an interface to the [[http://bugseng.com/products/ppl|Parma Polyhedra Library]] (by [[http://www.cs.unipr.it/~bagnara/|Roberto Bagnara]] et al) |
** <BOOKMARK:Singular> ''singular'': Working with Gröbner bases\\ Provides an interface to [[http://www.singular.uni-kl.de/|Singular]] (by [[http://www.mathematik.uni-kl.de/~decker/de/index.html|Wolfram Decker]], [[http://www.mathematik.uni-kl.de/~greuel/en/|Gert-Martin Greuel]], [[http://www.mathematik.uni-kl.de/~pfister/en/|Gerhard Pfister]], and [[http://www.mathematik.uni-kl.de/~hannes/en/|Hans Schönemann]]).\\ Please check the [[install:installsingular|installation details]] for the bundled extension ''singular''. | ** <BOOKMARK:Singular> ''singular'': Working with Gröbner bases\\ Provides an interface to [[http://www.singular.uni-kl.de/|Singular]] (by [[https://www.mathematik.uni-kl.de/en/agag/people/head/prof-dr-wolfram-decker/|Wolfram Decker]], [[https://www.mathematik.uni-kl.de/en/greuel/|Gert-Martin Greuel]], [[https://www.mathematik.uni-kl.de/en/pfister/|Gerhard Pfister]], and Hans Schönemann).\\ Please check the [[install:installsingular|installation details]] for the bundled extension ''singular''. |
** <BOOKMARK:scip> ''scip'': Provides an interface to [[https://scip.zib.de/|SCIP]] by the [[https://scip.zib.de/index.php#developers|developers from the Zuse Institute Berlin (ZIB)]] | ** <BOOKMARK:scip> ''scip'': Provides an interface to [[https://scip.zib.de/|SCIP]] by the [[https://scip.zib.de/index.php#developers|developers from the Zuse Institute Berlin (ZIB)]] |
.. SCIP is a solver for Mixed Integer Linear and Nonlinear Problems that allows for an easy integration of arbitrary constraints. | .. SCIP is a solver for Mixed Integer Linear and Nonlinear Problems that allows for an easy integration of arbitrary constraints. |