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The Factorization Algorithm of Berlekamp and Zassenhaus
| Title: | The Factorization Algorithm of Berlekamp and Zassenhaus |
| Authors: | Jose Divasón, Sebastiaan Joosten, René Thiemann (rene /dot/ thiemann /at/ uibk /dot/ ac /dot/ at) and Akihisa Yamada |
| Submission date: | 2016-10-14 |
| Abstract: |
We formalize the Berlekamp-Zassenhaus algorithm for factoring square-free integer polynomials in Isabelle/HOL. We further adapt an existing formalization of Yun’s square-free factorization algorithm to integer polynomials, and thus provide an efficient and certified factorization algorithm for arbitrary univariate polynomials. The algorithm first performs a factorization in the prime field GF(p) and then performs computations in the integer ring modulo p^k, where both p and k are determined at runtime. Since a natural modeling of these structures via dependent types is not possible in Isabelle/HOL, we formalize the whole algorithm using Isabelle’s recent addition of local type definitions. Through experiments we verify that our algorithm factors polynomials of degree 100 within seconds. |
| BibTeX: |
@article{Berlekamp_Zassenhaus-AFP,
author = {Jose Divasón and Sebastiaan Joosten and René Thiemann and Akihisa Yamada},
title = {The Factorization Algorithm of Berlekamp and Zassenhaus},
journal = {Archive of Formal Proofs},
month = oct,
year = 2016,
note = {\url{https://isa-afp.org/entries/Berlekamp_Zassenhaus.html},
Formal proof development},
ISSN = {2150-914x},
}
|
| License: | BSD License |
| Used by: | Algebraic_Numbers, LLL_Basis_Reduction, Smith_Normal_Form |
| Status: [ok] | This is a development version of this entry. It might change over time and is not stable. Please refer to release versions for citations. |
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