02361ntm a22002417a 4500999001900000003000800019005001700027008004100044040000800085100002700093245004900120260002200169500001100191505004900202505007500251505007000326505003000396505008300426505001700509520149700526942000802023952008802031 c340549d340549AT-ISTA20190813090716.0160531s2013 au ||||| m||| 00| 0 eng d cIST aZufferey, Damien92635 aAnalysis of dynamic message passing programs bIST Austriac2013 aThesis a1 Introduction, motivation, and related work a2 Toward a forward analysis of depth-bounded systems: domain of limits a3 Bridging the gap between theory and practice: ideal abstraction a4 Implementation: Picasso a5 Extensions: termination of depth-bounded systems, dynamic package interfaces a6 Conclusion aMotivated by the analysis of highly dynamic message-passing systems, i.e. unbounded thread creation, mobility, etc. We present a framework for the analysis of depth-bounded systems. Depth-bounded systems are one of the most expressive known fragment of the π-calculus for which interesting verification problems are still decidable. Even though they are infinite state systems depth-bounded
systems are well-structured, thus can be analyzed algorithmically. We give an interpretation of depth-bounded systems as graph-rewriting systems. This gives more flexibility and ease of use to apply depth-bounded systems to other type
of systems like shared memory concurrency.
First, we develop an adequate domain of limits for depth-bounded systems, a prerequisite for the effective representation of downward-closed sets. Downwardclosed sets are needed by forward saturation-based algorithms to represent potentially infinite sets of states. Then, we present an abstract interpretation framework to compute the covering set of well-structured transition systems. Because, in general, the covering set is not computable, our abstraction overapproximates the actual covering set. Our abstraction captures the essence of acceleration based-algorithms while giving up enough precision to ensure convergence. We have implemented the analysis in the Picasso tool and show that it
is accurate in practice. Finally, we build some further analyses like termination using the covering set as starting point. 2ddc 00102ddc4070aLIBbLIBd2016-05-31pAT-ISTA#001148r2018-11-06w2016-05-31yBOOK