Enhancing Differential Testing With LLMs For Testing Deep Learning Libraries
June 12, 2024 Β· Declared Dead Β· π ACM Transactions on Software Engineering and Methodology
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Authors
Meiziniu Li, Dongze Li, Jianmeng Liu, Jialun Cao, Yongqiang Tian, Shing-Chi Cheung
arXiv ID
2406.07944
Category
cs.SE: Software Engineering
Cross-listed
cs.AI
Citations
3
Venue
ACM Transactions on Software Engineering and Methodology
Last Checked
4 months ago
Abstract
Differential testing offers a promising strategy to alleviate the test oracle problem by comparing the test results between alternative implementations. However, existing differential testing techniques for deep learning (DL) libraries are limited by the key challenges of finding alternative implementations (called counterparts) for a given API and subsequently generating diverse test inputs. To address the two challenges, this paper introduces DLLens, an LLM-enhanced differential testing technique for DL libraries. To address the first challenge, DLLens incorporates an LLM-based counterpart synthesis workflow, with the insight that the counterpart of a given DL library API's computation could be successfully synthesized through certain composition and adaptation of the APIs from another DL library. To address the second challenge, DLLens incorporates a static analysis technique that extracts the path constraints from the implementations of a given API and its counterpart to guide diverse test input generation. The extraction is facilitated by LLM's knowledge of the concerned DL library and its upstream libraries. We evaluate DLLens on two popular DL libraries, TensorFlow and PyTorch. Our evaluation shows that DLLens synthesizes counterparts for 1.84 times as many APIs as those found by state-of-the-art techniques on these libraries. Moreover, under the same time budget, DLLens covers 7.23% more branches and detects 1.88 times as many bugs as state-of-the-art techniques on 200 randomly sampled APIs. DLLens has successfully detected 71 bugs in recent TensorFlow and PyTorch libraries. Among them, 59 are confirmed by developers, including 46 confirmed as previously unknown bugs, and 10 of these previously unknown bugs have been fixed in the latest version of TensorFlow and PyTorch.
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