实量子消除和圆柱代数分解的最新进展

arXiv - CS - Symbolic Computation Pub Date : 2024-07-29 DOI:arxiv-2407.19781

Matthew England

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引用次数: 0

摘要

这篇扩展摘要随同 CASC 2024 大会的特邀演讲一起发表，探讨了实量子消除（QE）和圆柱代数分解（CAD）的最新发展。在介绍了这些概念之后，我们将首先考虑受计算逻辑启发而对 CAD 进行的调整，特别是作为现代 SAT 求解器基础的算法。CAD 理论通过可满足性模态理论 (SMT) 范式与这些算法结合使用；而 SAT/SMT 背后的思想则为 Real QE 带来了新的算法。其次，我们将考虑通过使用机器学习（ML）来优化 CAD。CAD 变量排序的选择已成为使用 ML 调整计算机代数算法的一个重要案例研究。我们还将考虑可解释的人工智能技术如何为改进计算机代数软件提供启示，而无需在最终代码中依赖 ML。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Recent Developments in Real Quantifier Elimination and Cylindrical Algebraic Decomposition

This extended abstract accompanies an invited talk at CASC 2024, which surveys recent developments in Real Quantifier Elimination (QE) and Cylindrical Algebraic Decomposition (CAD). After introducing these concepts we will first consider adaptations of CAD inspired by computational logic, in particular the algorithms which underpin modern SAT solvers. CAD theory has found use in collaboration with these via the Satisfiability Modulo Theory (SMT) paradigm; while the ideas behind SAT/SMT have led to new algorithms for Real QE. Second we will consider the optimisation of CAD through the use of Machine Learning (ML). The choice of CAD variable ordering has become a key case study for the use of ML to tune algorithms in computer algebra. We will also consider how explainable AI techniques might give insight for improved computer algebra software without any reliance on ML in the final code.

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arXiv - CS - Symbolic Computation

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