Abstract
A technique for defining and extracting passage-time densities from high-level stochastic process algebra models is presented. Our high-level formalism is PEPA, a popular Markovian process algebra for expressing compositional performance models. We introduce ipc, a tool which can process PEPA-specified passage-time densities and models by compiling the PEPA model and passage specification into the DNAmaca formalism. DNAmaca is an established modelling language for the low-level specification of very large Markov and semiMarkov chains. We provide performance results for ipc/DNAmaca and comparisons with another tool which supports PEPA, PRISM. Finally, we generate passage-time densities and quantiles for a case study of a high-availability Web server.
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Bradley, J. T., Dingle, N. J., Gilmore, S. T., & Knottenbelt, W. J. (2003). Derivation of passage-time densities in PEPA models using ipc: The imperial PEPA compiler. In Proceedings - IEEE Computer Society’s Annual International Symposium on Modeling, Analysis, and Simulation of Computer and Telecommunications Systems, MASCOTS (Vol. 2003-January, pp. 344–351). IEEE Computer Society. https://doi.org/10.1109/MASCOT.2003.1240679
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