ARCH-COMP23 Category Report: Hybrid Systems Theorem Proving

Stefan Mitsch, Huanhuan Sheng, Bohua Zhan, Shuling Wang, Simon Foster, Jonathan Julian Huerta Y Munive
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Abstract

This paper reports on the Hybrid Systems Theorem Proving (HSTP) category in the ARCH-COMP Friendly Competition 2023. The characteristic features of the HSTP category remain as in the previous edition: HSTP focuses on flexibility of programming languages as structuring principles for hybrid systems, unambiguity and precision of program semantics, and mathematical rigor of logical reasoning principles. The benchmark set includes nonlinear and parametric continuous and hybrid systems and hybrid games, each in three modes: fully automatic verification, semi-automatic verification from proof hints, proof checking from scripted tactics. This instance of the competition focuses on presenting the differences between the provers on a subset of the benchmark examples.
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ARCH-COMP23类别报告:混合系统定理证明
本文报道了ARCH-COMP友好竞赛2023中的混合系统定理证明(HSTP)类别。HSTP类别的特征与前一版本一样:HSTP侧重于编程语言的灵活性,作为混合系统的结构原则,程序语义的明确和精确,以及逻辑推理原则的数学严谨性。基准集包括非线性参数连续混合系统和混合博弈,每种博弈都有三种模式:全自动验证、半自动证明提示验证、脚本战术证明验证。这个竞赛的实例侧重于在基准示例的一个子集上展示证明者之间的差异。
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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ARCH-COMP23 Category Report: Hybrid Systems Theorem Proving ARCH-COMP23 Category Report: Continuous and Hybrid Systems with Linear Continuous Dynamics ARCH-COMP23 Category Report: Continuous and Hybrid Systems with Nonlinear Dynamics ARCH-COMP23 Repeatability Evaluation Report ARCH-COMP23 Category Report: Artificial Intelligence and Neural Network Control Systems (AINNCS) for Continuous and Hybrid Systems Plants
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