sigma-ij: Thom polynomials of second order Thom-Boardman singularities

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A program to compute Thom polynomials of second order Thom-Boardman singularities, using the localization method described in the author's PhD thesis http://renyi.hu/~komuves/phdthesis.pdf.

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Modules

Math
- Algebra
  - Math.Algebra.Determinant
  - Math.Algebra.ModP
  - Math.Algebra.Schur
- FreeModule
  - Math.FreeModule.Class
  - Math.FreeModule.Helper
  - Math.FreeModule.PP
  - Math.FreeModule.Parser
  - Math.FreeModule.PrettyPrint
  - Math.FreeModule.SortedList
  - Math.FreeModule.Symbol
- ThomPoly
  - Math.ThomPoly.Formulae
  - Math.ThomPoly.Shared
  - Math.ThomPoly.SigmaI
  - Math.ThomPoly.SigmaIJ
  - Math.ThomPoly.Subs

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sigma-ij-0.2.0.1.tar.gz [browse] (Cabal source package)
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Versions [RSS]	0.2, 0.2.0.1, 0.2.0.2
Dependencies	array (>=0.5), base (>=4 && <5), combinat (>=0.2.8), containers (>=0.5), optparse-applicative, parsec2, random, sigma-ij (>=0.2.0.1), time [details]
Tested with	ghc ==7.10.3
License	BSD-3-Clause
Copyright	(c) 2010, 2016 Balazs Komuves
Author	Balazs Komuves
Maintainer	bkomuves (plus) hackage (at) gmail (dot) com
Category	Math
Home page	http://code.haskell.org/~bkomuves/
Uploaded	by BalazsKomuves at 2016-10-21T15:36:49Z
Distributions
Executables	sigma-ij
Downloads	1784 total (15 in the last 30 days)
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Status	Docs not available [build log] All reported builds failed as of 2016-11-14 [all 4 reports]

Readme for sigma-ij-0.2.0.1

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This is a program to compute Thom polynomials of second-order 
Thom-Boardman singularities $Sigma^{i,j}(n)$.

The computation is based on the localization method described in 
the author's PhD thesis: <http://renyi.hu/~komuves/phdthesis.pdf>.


USAGE:
======

sigma-ij -h                        help
sigma-ij -i3 -j1 -n7               compute $Tp(Sigma^{3,1}(7))$
sigma-oj -i3 -j1 -n7 -r<RING>      compute with coefficients in the given ring
sigma-oj -i3 -j1 -n7 -B<N> -b<n>   compute the n-th (out of N) part
sigma-oj -i3 -j1 -n7 -rZp          compute in the (baked-in) prime field Zp
sigma-oj -i3 -j1 -n7 -o<FILE>      change the output file

Supported rings:
 * rationals 
 * integers (remark: the division-free determinant algorithm often fails)
 * Zp, a baked-in prime field 

The -B and -b options are useful to parallelize the computation over 
many computers.
 

TODO:
=====

 - better (and faster) prime field implementation(s)
 - allow arbitrary prime fields instead of just a baked-in one
 - pivoting for the Bareiss (division-free) determinant algorithm
 - implement explicit formula for j=1