Electronic Proceedings in Theoretical Computer Science (Dec 2009)

Verifying Real-Time Systems using Explicit-time Description Methods

  • Hao Wang,
  • Wendy MacCaull

DOI
https://doi.org/10.4204/EPTCS.13.6
Journal volume & issue
Vol. 13, no. Proc. QFM 2009
pp. 67 – 78

Abstract

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Timed model checking has been extensively researched in recent years. Many new formalisms with time extensions and tools based on them have been presented. On the other hand, Explicit-Time Description Methods aim to verify real-time systems with general untimed model checkers. Lamport presented an explicit-time description method using a clock-ticking process (Tick) to simulate the passage of time together with a group of global variables for time requirements. This paper proposes a new explicit-time description method with no reliance on global variables. Instead, it uses rendezvous synchronization steps between the Tick process and each system process to simulate time. This new method achieves better modularity and facilitates usage of more complex timing constraints. The two explicit-time description methods are implemented in DIVINE, a well-known distributed-memory model checker. Preliminary experiment results show that our new method, with better modularity, is comparable to Lamport's method with respect to time and memory efficiency.