Computing simplicial homology based on efficient Smith normal form algorithms
JG Dumas, F Heckenbach, D Saunders… - Algebra, Geometry and …, 2003 - Springer
We recall that the calculation of homology with integer coefficients of a simplicial complex
reduces to the calculation of the Smith Normal Form of the boundary matrices which in
general are sparse. We provide a review of several algorithms for the calculation of Smith
Normal Form of sparse matrices and compare their running times for actual boundary
matrices. Then we describe alternative approaches to the calculation of simplicial homology.
The last section then describes motivating examples and actual experiments with the GAP …
reduces to the calculation of the Smith Normal Form of the boundary matrices which in
general are sparse. We provide a review of several algorithms for the calculation of Smith
Normal Form of sparse matrices and compare their running times for actual boundary
matrices. Then we describe alternative approaches to the calculation of simplicial homology.
The last section then describes motivating examples and actual experiments with the GAP …
Abstract
We recall that the calculation of homology with integer coefficients of a simplicial complex reduces to the calculation of the Smith Normal Form of the boundary matrices which in general are sparse. We provide a review of several algorithms for the calculation of Smith Normal Form of sparse matrices and compare their running times for actual boundary matrices. Then we describe alternative approaches to the calculation of simplicial homology. The last section then describes motivating examples and actual experiments with the GAP package that was implemented by the authors. These examples also include as an example of other homology theories some calculations of Lie algebra homology.
Springer
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