论文信息 - Performance Evaluation of a Real-time Simulation Architecture using Probabilistic Model Checking

Performance Evaluation of a Real-time Simulation Architecture using Probabilistic Model Checking

The goal of this paper is to show how to use probabilistic model checking techniques in order to achieve quantitative performance evaluation of a real-time distributed simulation. A simulation based on the High Level Architecture (HLA) is modelled as a stochastic process, a Continuous Time Markov Chain (CTMC), using the stochastic algebra PEPA. Next a property representing a performance constraint is evaluated applying Continuous Stochastic Logic CSL formula on the CTMC model using the probabilistic model checker PRISM. Finally a first experiment is made to compare the model with a real case.

Nil Geisweiller | Jeremie Bonte | Nil Geisweiller | J. Bonte

[1] Robert K. Brayton,et al. Verifying Continuous Time Markov Chains , 1996, CAV.

[2] J. Hillston. Compositional Markovian Modelling Using a Process Algebra , 1995 .

[3] Bengt Jonsson,et al. A logic for reasoning about time and reliability , 1990, Formal Aspects of Computing.

[4] Edmund M. Clarke,et al. Design and Synthesis of Synchronization Skeletons Using Branching-Time Temporal Logic , 1981, Logic of Programs.

[5] Donald J. Newman,et al. Rational approximation to ex and to related functions , 1979 .

[6] C. A. R. Hoare,et al. Communicating Sequential Processes (Reprint) , 1983, Commun. ACM.

[7] Robin Milner,et al. A Calculus of Communicating Systems , 1980, Lecture Notes in Computer Science.