On the seeds and the great-grandchildren of a numerical semigroup
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- by Maria Bras-Amorós
- Math. Comp. 93 (2024), 411-441
- DOI: https://doi.org/10.1090/mcom/3881
- Published electronically: August 16, 2023
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Abstract:
We present a revisit of the seeds algorithm to explore the semigroup tree. First, an equivalent definition of seed is presented, which seems easier to manage. Second, we determine the seeds of semigroups with at most three left elements. And third, we find the great-grandchildren of any numerical semigroup in terms of its seeds.
The the right-generators descendant (RGD) algorithm is the fastest known algorithm at the moment. But if one compares the originary seeds algorithm with the RGD algorithm, one observes that the seeds algorithm uses more elaborated mathematical tools while the RGD algorithm uses data structures that are better adapted to the final C implementations. For genera up to around one half of the maximum size of native integers, the newly defined seeds algorithm performs significantly better than the RGD algorithm. For future compilators allowing larger native sized integers this may constitute a powerful tool to explore the semigroup tree up to genera never explored before. The new seeds algorithm uses bitwise integer operations, the knowledge of the seeds of semigroups with at most three left elements and of the great-grandchildren of any numerical semigroup, apart from techniques such as parallelization and depth first search as wisely introduced in this context by Fromentin and Hivert [Math. Comp. 85 (2016) pp. 2553–2568].
The algorithm has been used to prove that there are no Eliahou semigroups of genus $66$, hence proving the Wilf conjecture for genus up to $66$. We also found three Eliahou semigroups of genus $67$. One of these semigroups is neither of Eliahou-Fromentin type, nor of Delgado’s type. However, it is a member of a new family suggested by Shalom Eliahou.
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Bibliographic Information
- Maria Bras-Amorós
- Affiliation: Universitat Rovira i Virgili, Av. Països Catalans 26, 43007, Tarragona, Catalonia, Spain.
- ORCID: 0000-0002-3481-004X
- Email: maria.bras@urv.cat
- Received by editor(s): March 18, 2022
- Received by editor(s) in revised form: March 18, 2022, January 29, 2023, and February 1, 2023
- Published electronically: August 16, 2023
- Additional Notes: The author was supported by the Spanish government under grant PID2021-124928NB-I00, and by the Catalan government under grant 2021 SGR 00115.
- © Copyright 2023 American Mathematical Society
- Journal: Math. Comp. 93 (2024), 411-441
- MSC (2020): Primary 06F05, 20M14; Secondary 05A99, 68W30
- DOI: https://doi.org/10.1090/mcom/3881
- MathSciNet review: 4654628