分布式并发系统的规范、设计和验证计算器

IF 1.4 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING Formal Aspects of Computing Pub Date : 2024-06-17 DOI:10.1145/3672085
Manfred Broy
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引用次数: 0

摘要

本文介绍了一种用于规范和验证分布式并发交互实时系统的微积分。系统通过接口谓词和接口断言形式化的接口行为进行规范。交互系统分布式网络体系结构的系统设计是通过子系统的并发组合来构建的。系统设计的规格是根据其子系统的规格计算出来的。验证是通过证明规则完成的,证明规则基于因果关系和可实现性的概念,并以广义摩尔机(不限于有限状态空间的摩尔机)的运行模型为依据。微积分支持非定时和定时分布式并发系统的接口规范和推理。这包括网络物理系统的设计。实时性尤其用于指定对时间敏感的行为,并证明与因果关系和可实现性相关的属性,这些属性对所有摩尔机器都是成立的。在此基础上,我们提出了一个微积分,并通过小例子进行了说明。微积分证明是合理和相对完整的。
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A Calculus for the Specification, Design, and Verification of Distributed Concurrent Systems

A calculus for the specification and verification of distributed concurrent interactive real time systems is introduced. Systems are specified by their interface behavior formalized by interface predicates and interface assertions. System designs in terms of architectures of distributed networks of interactive systems are constructed by concurrent composition of subsystems. The specification of system designs is calculated from the specifications of their subsystems. Verification is done by proof rules which are based on the concepts of causality and realizability justified by the operational model in terms of generalized Moore machines, Moore machines not restricted to finite state spaces. The calculus supports interface specification and reasoning both about untimed as well as timed distributed concurrent systems. This includes the design of cyber-physical systems. Real-time is used, in particular, to specify time sensitive behavior and to prove properties related to causality and realizability, properties which hold for all Moore machines. On this basis, a calculus is worked out and illustrated by small examples. The calculus is shown to be sound and relatively complete.

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来源期刊
Formal Aspects of Computing
Formal Aspects of Computing 工程技术-计算机:软件工程
CiteScore
3.30
自引率
0.00%
发文量
17
审稿时长
>12 weeks
期刊介绍: This journal aims to publish contributions at the junction of theory and practice. The objective is to disseminate applicable research. Thus new theoretical contributions are welcome where they are motivated by potential application; applications of existing formalisms are of interest if they show something novel about the approach or application. In particular, the scope of Formal Aspects of Computing includes: well-founded notations for the description of systems; verifiable design methods; elucidation of fundamental computational concepts; approaches to fault-tolerant design; theorem-proving support; state-exploration tools; formal underpinning of widely used notations and methods; formal approaches to requirements analysis.
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