反应性合成规范分解。

IF 1.1 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING Innovations in Systems and Software Engineering Pub Date : 2023-01-01 Epub Date: 2022-07-18 DOI:10.1007/s11334-022-00462-6
Bernd Finkbeiner, Gideon Geier, Noemi Passing
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引用次数: 0

摘要

反应性合成是指从规范中自动获得正确实现的任务。对于验证程序和硬件的开发来说,这是一种很有前途的技术。尽管最近在算法和工具方面取得了进展,但是,当指定的系统达到一定的规模和复杂性时,反应性合成仍然不实用。在本文中,我们提出了一种完善的模块化合成算法,可以自动将规范分解成更小的子规范。对于它们,执行独立的合成任务,显著降低了单个任务的复杂性。我们的分解算法保证子规范是独立的,即可以为它们执行完全独立的合成任务。此外,结果实现的组合保证满足原始规范。我们的算法是一种预处理技术,可以应用于广泛的合成工具。我们用最先进的合成工具在已建立的基准上评估我们的方法:模块化合成实现时,运行时显著减少。
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Specification decomposition for reactive synthesis.

Reactive synthesis is the task of automatically deriving a correct implementation from a specification. It is a promising technique for the development of verified programs and hardware. Despite recent advances in terms of algorithms and tools, however, reactive synthesis is still not practical when the specified systems reach a certain bound in size and complexity. In this paper, we present a sound and complete modular synthesis algorithm that automatically decomposes the specification into smaller subspecifications. For them, independent synthesis tasks are performed, significantly reducing the complexity of the individual tasks. Our decomposition algorithm guarantees that the subspecifications are independent in the sense that completely separate synthesis tasks can be performed for them. Moreover, the composition of the resulting implementations is guaranteed to satisfy the original specification. Our algorithm is a preprocessing technique that can be applied to a wide range of synthesis tools. We evaluate our approach with state-of-the-art synthesis tools on established benchmarks: the runtime decreases significantly when synthesizing implementations modularly.

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来源期刊
Innovations in Systems and Software Engineering
Innovations in Systems and Software Engineering COMPUTER SCIENCE, SOFTWARE ENGINEERING-
CiteScore
3.80
自引率
8.30%
发文量
75
期刊介绍: Innovations in Systems and Software Engineering: A NASA Journal addresses issues and innovations in Systems Engineering, Systems Integration, Software Engineering, Software Development and other related areas that are specifically of interest to NASA. The journal includes peer-reviewed world-class technical papers on topics of research, development and practice related to NASA''s missions and projects, topics of interest to NASA for future use, and topics describing problem areas for NASA together with potential solutions. Papers that do not address issues related to NASA are of course very welcome, provided that they address topics that NASA might like to consider for the future. Papers are solicited from NASA and government employees, contractors, NASA-supported academic and industrial partners, and non-NASA-supported academics and industrialists both in the USA and worldwide. The journal includes updates on NASA innovations, articles on NASA initiatives, papers looking at educational activities, and a State-of-the-Art section that gives an overview of specific topic areas in a comprehensive format written by an expert in the field.
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