TPGen: A Self-Stablizing GPU-Based Method for Prime and Test Paths Generation

Authors

Ebrahim Fazli, Islamic Azad University, Iran
Ali Ebnenasir, Michigan Technological UniversityFollow

Document Type

Article

Publication Date

10-31-2022

Department

Department of Computer Science

Abstract

This paper presents a novel scalable GPU-based method for Test Paths (TPs) and Prime Paths (PPs) Generation, called TPGen, used in structural testing and in test data generation. TPGen outperforms existing methods for PPs and TPs generation in several orders of magnitude, both in time and space efficiency. Improving both time and space efficiency is made possible through devising a new non-contiguous and hierarchical memory allocation method, called Three-level Path Access Method (TPAM), that enables efficient storage of maximal simple paths in memory. In addition to its high time and space efficiency, a major significance of TPGen includes its self-stabilizing design where threads execute in a fully asynchronous and order-oblivious way without using any atomic instructions. TPGen can generate PPs and TPs of structurally complex programs that have an extremely high cyclomatic and Npath complexity.

Publication Title

ArXiv.org

Recommended Citation

Fazli, E., & Ebnenasir, A. (2022). TPGen: A Self-Stablizing GPU-Based Method for Prime and Test Paths Generation. ArXiv.org. http://doi.org/10.48550/arXiv.2210.16998
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/17345

Creative Commons License

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