Compositional solution space quantification for probabilistic software analysis

Author:

Borges Mateus1,Filieri Antonio2,d'Amorim Marcelo1,Păsăreanu Corina S.3,Visser Willem4

Affiliation:

1. Federal University of Pernambuco, Brazil

2. University of Stuttgart, Germany

3. CMU SV/NASA Ames Research Center

4. University of Stellenbosch, South Africa

Abstract

Probabilistic software analysis aims at quantifying how likely a target event is to occur during program execution. Current approaches rely on symbolic execution to identify the conditions to reach the target event and try to quantify the fraction of the input domain satisfying these conditions. Precise quantification is usually limited to linear constraints, while only approximate solutions can be provided in general through statistical approaches. However, statistical approaches may fail to converge to an acceptable accuracy within a reasonable time. We present a compositional statistical approach for the efficient quantification of solution spaces for arbitrarily complex constraints over bounded floating-point domains. The approach leverages interval constraint propagation to improve the accuracy of the estimation by focusing the sampling on the regions of the input domain containing the sought solutions. Preliminary experiments show significant improvement on previous approaches both in results accuracy and analysis time.

Funder

FACEPE

Division of Computing and Communication Foundations

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Graphics and Computer-Aided Design,Software

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