Preprocessing of Propagation Redundant Clauses

IF 0.9 3区计算机科学 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Journal of Automated Reasoning Pub Date : 2023-09-01 DOI:10.1007/s10817-023-09681-3

Joseph E. Reeves, Marijn J. H. Heule, Randal E. Bryant

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引用次数: 3

Abstract

Abstract The propagation redundant (PR) proof system generalizes the resolution and resolution asymmetric tautology proof systems used by conflict-driven clause learning (CDCL) solvers. PR allows short proofs of unsatisfiability for some problems that are difficult for CDCL solvers. Previous attempts to automate PR clause learning used hand-crafted heuristics that work well on some highly-structured problems. For example, the solver SaDiCaL incorporates PR clause learning into the CDCL loop, but it cannot compete with modern CDCL solvers due to its fragile heuristics. We present PReLearn , a preprocessing technique that learns short PR clauses. Adding these clauses to a formula reduces the search space that the solver must explore. By performing PR clause learning as a preprocessing stage, PR clauses can be found efficiently without sacrificing the robustness of modern CDCL solvers. On a large portion of SAT competition benchmarks we found that preprocessing with PReLearn improves solver performance. In addition, there were several satisfiable and unsatisfiable formulas that could only be solved after preprocessing with PReLearn . PReLearn supports proof logging, giving a high level of confidence in the results. Lastly, we tested the robustness of PReLearn by applying other forms of preprocessing as well as by randomly permuting variable names in the formula before running PReLearn , and we found PReLearn performed similarly with and without the changes to the formula.

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传播冗余子句的预处理

传播冗余(PR)证明系统推广了冲突驱动子句学习(CDCL)求解器使用的分辨和分辨非对称重言证明系统。PR允许对一些CDCL求解器难以解决的问题进行简短的不满意证明。以前自动化公关条款学习的尝试使用手工制作的启发式方法，这种方法在一些高度结构化的问题上效果很好。例如，求解器SaDiCaL将PR子句学习集成到CDCL循环中，但由于它的启发式很脆弱，因此无法与现代CDCL求解器竞争。我们提出了PReLearn，一种学习短PR从句的预处理技术。将这些子句添加到公式中可以减少求解器必须探索的搜索空间。通过将PR子句学习作为预处理阶段，可以有效地找到PR子句，而不会牺牲现代CDCL求解器的鲁棒性。在大部分SAT竞赛基准测试中，我们发现使用PReLearn进行预处理可以提高求解器的性能。此外，还存在一些可满足和不满足的公式，需要经过PReLearn预处理才能求解。PReLearn支持证明日志记录，对结果给予高度的信心。最后，我们通过应用其他形式的预处理以及在运行PReLearn之前在公式中随机排列变量名称来测试PReLearn的鲁棒性，我们发现PReLearn在改变公式和不改变公式的情况下表现相似。

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来源期刊

Journal of Automated Reasoning 工程技术-计算机：人工智能

CiteScore

3.60

自引率

9.10%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Automated Reasoning is an interdisciplinary journal that maintains a balance between theory, implementation and application. The spectrum of material published ranges from the presentation of a new inference rule with proof of its logical properties to a detailed account of a computer program designed to solve various problems in industry. The main fields covered are automated theorem proving, logic programming, expert systems, program synthesis and validation, artificial intelligence, computational logic, robotics, and various industrial applications. The papers share the common feature of focusing on several aspects of automated reasoning, a field whose objective is the design and implementation of a computer program that serves as an assistant in solving problems and in answering questions that require reasoning. The Journal of Automated Reasoning provides a forum and a means for exchanging information for those interested purely in theory, those interested primarily in implementation, and those interested in specific research and industrial applications.