改进cfsm网络进度特性验证的可达性分析

Proceedings. 18th International Conference on Distributed Computing Systems (Cat. No.98CB36183) Pub Date : 1998-05-26 DOI:10.1109/ICDCS.1998.679495

H. V. Schoot, H. Ural

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引用次数: 7

摘要

众所周知，状态爆炸是协议验证的主要限制。本文提出跳跃可达性分析(LRA)作为同步可达性分析(SRA)验证技术的增量改进，以解决状态爆炸问题。SRA是一种用于验证协议进展特性的缓解策略，该协议建模为通信有限状态机(cfsm)网络，没有任何拓扑或结构约束。改进是一个统一的和属性驱动的缓解策略，它被证明足以检测CFSM模型中指定的协议中的所有死锁、所有不可执行的转换、所有未指定的接收和所有缓冲区溢出。实验表明，LRA通过减少验证所需的存储空间和执行时间，在很大程度上缓解了状态爆炸问题。

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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On improving reachability analysis for verifying progress properties of networks of CFSMs

State explosion is well-known to be the principle limitation in protocol verification. In this paper, leaping reachability analysis (LRA) is advocated as an incremental improvement of a verification technique called simultaneous reachability analysis (SRA) to tackle state explosion. SRA is a relief strategy for the verification of progress properties of protocols modeled as networks of communicating finite state machines (CFSMs) without any topological or structural constraints. The improvement is a uniform and property-driven relief strategy which proves to be adequate for detecting all deadlocks, all non-executable transitions, all unspecified receptions and all buffer overflows in a protocol specified in the CFSM model. Experiments show that LRA can largely relieve the state explosion problem by reducing the amount of storage space and execution time required for verification.

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Proceedings. 18th International Conference on Distributed Computing Systems (Cat. No.98CB36183)

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