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Verifying Parallel Algorithms and Programs Using Coloured Petri Nets

  • Michael Westergaard
Part of the Lecture Notes in Computer Science book series (LNCS, volume 7400)

Abstract

Coloured Petri nets have proved to be a useful formalism for modeling distributed algorithms, i.e., algorithms where nodes communicate via message passing. Here we describe an approach for automatic extraction of models of parallel algorithms and programs, i.e., algorithms and programs where processes communicate via shared memory. The models can be verified for correctness, here to prove absence of mutual exclusion violations and to find dead- and live-locks. This makes it possible to verify software using a model-extraction approach using coloured Petri nets, where a formal model is extracted from runnable code. We extract models in a manner so we can also support a model-driven development approach, where code is generated from a model, enabling a combined approach, supporting extracting a model from an abstract description and generation of correct implementation code. We illustrate our idea by applying the technique to a parallel implementation of explicit state-space exploration.

Our approach builds on having a coloured Petri net model corresponding to the program and using the model to verify properties. We have already treated generation of code from coloured Petri nets, so in this paper we focus on the translation the other way around. We have an implementation of the translation from code to coloured Petri nets.

Keywords

Parallel Algorithm Process Place Dead State Shared Place Substitution Transition 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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Copyright information

© Springer-Verlag Berlin Heidelberg 2012

Authors and Affiliations

  • Michael Westergaard
    • 1
  1. 1.Department of Mathematics and Computer ScienceEindhoven University of TechnologyThe Netherlands

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