Sub-Computation Based Transition Predicate Abstraction
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概要
- 論文の詳細を見る
The transition predicate abstraction framework developed by Podelski, et al. (2005) captures size relations over state transitions which can be used to show infeasibility of certain program computations. In particular, general liveness properties (i.e., properties of infinite computations) can be verified by reducing the verification problem to one of fair termination and then proving that all (infinite) fair computations are infeasible. We present an extension of the algorithm by Podelski, et al. that can be used to improve the precision of transition predicate abstraction as well as speed up analysis time for programs with well-structured control-flow. The main key is to identify sub-computations that can be evaluated independently of their context. Efficiency is then readily improved by analyzing each sub-computation in turn, thus avoiding to reanalyze the effect of a given sub-computations for different con-texts. Further, precision can be improved by using stronger methods for extracting summary information about a given sub-computation. We present two versions of the sub-computation based analysis: one for a non-parallel imperative language with loops and recursive procedures, serving as an introduction, and one for the extension of the non-parallel language to a parallel language with synchronous communication via statically named channels.
- 一般社団法人情報処理学会の論文
- 2007-06-15
著者
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Hagiya Masami
Department Of Computer Science Graduate School Of Information Science And Technology The University
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FREDERIKSEN CARL
Department of Computer Science, Graduate School of Information Science and Technology, the Universit
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Frederiksen Carl
Department Of Computer Science Graduate School Of Information Science And Technology The University
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