从类场论计算虚超椭圆函数场的群作用

IF 0.6 4区数学 Q4 COMPUTER SCIENCE, THEORY & METHODS Journal of Symbolic Computation Pub Date : 2024-03-01 DOI:10.1016/j.jsc.2024.102311

Antoine Leudière, Pierre-Jean Spaenlehauer

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引用次数: 0

摘要

我们探讨了来自虚超椭圆函数域类场论的简单传递交换群作用的算法问题。也就是说，定义在 Fq 上的虚超椭圆曲线的雅各比作用于 Drinfeld 模块的同构类子集。我们描述了一种高效计算群作用的算法。这是库维涅-罗斯托夫采夫-斯托尔布诺夫（Couveignes-Rostovtsev-Stolbunov）群作用的函数场类似物。我们报告了用我们的概念验证 C++/NTL 实现进行的显式计算；在标准计算机上只需几分之一秒。我们证明，反转群作用的问题可以简化为在 Drinfeld Fq[X]-modules 之间寻找固定 τ 阶同源物的问题，由于 Wesolowski 的算法，这个问题可以在多项式时间内求解。我们给出了本文提出的所有算法的渐进复杂度边界。

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Computing a group action from the class field theory of imaginary hyperelliptic function fields

We explore algorithmic aspects of a simply transitive commutative group action coming from the class field theory of imaginary hyperelliptic function fields. Namely, the Jacobian of an imaginary hyperelliptic curve defined over $F_{q}$ acts on a subset of isomorphism classes of Drinfeld modules. We describe an algorithm to compute the group action efficiently. This is a function field analog of the Couveignes-Rostovtsev-Stolbunov group action. We report on an explicit computation done with our proof-of-concept C++/NTL implementation; it took a fraction of a second on a standard computer. We prove that the problem of inverting the group action reduces to the problem of finding isogenies of fixed τ-degree between Drinfeld $F_{q} [X]$ -modules, which is solvable in polynomial time thanks to an algorithm by Wesolowski. We give asymptotic complexity bounds for all algorithms presented in this paper.

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来源期刊

Journal of Symbolic Computation 工程技术-计算机：理论方法

CiteScore

2.10

自引率

14.30%

发文量

审稿时长

142 days

期刊介绍： An international journal, the Journal of Symbolic Computation, founded by Bruno Buchberger in 1985, is directed to mathematicians and computer scientists who have a particular interest in symbolic computation. The journal provides a forum for research in the algorithmic treatment of all types of symbolic objects: objects in formal languages (terms, formulas, programs); algebraic objects (elements in basic number domains, polynomials, residue classes, etc.); and geometrical objects. It is the explicit goal of the journal to promote the integration of symbolic computation by establishing one common avenue of communication for researchers working in the different subareas. It is also important that the algorithmic achievements of these areas should be made available to the human problem-solver in integrated software systems for symbolic computation. To help this integration, the journal publishes invited tutorial surveys as well as Applications Letters and System Descriptions.

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