Python代码中机器学习超参数约束的提升

Proceedings of the 31st ACM SIGSOFT International Symposium on Software Testing and Analysis Pub Date : 2022-07-18 DOI:10.1145/3533767.3534400

Ingkarat Rak-amnouykit, Ana L. Milanova, Guillaume Baudart, Martin Hirzel, Julian Dolby

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引用次数: 1

摘要

机器学习操作符通常具有跨多个超参数和/或数据的正确性约束。违反这些约束会导致操作符引发运行时异常，但这些异常通常只是非正式地记录下来，或者根本没有记录下来。本文首次提出了Python超参数约束提取的过程间最弱前提分析方法。分析主要是静态的，但为了使其易于处理机器学习库中的典型Python习惯用法，它在某些情况下选择性地切换到具体领域。本文通过从总共8个ML库中提取181个操作符的超参数约束来演示分析，获得了较高的精度和召回率，并发现了真正的错误。我们的技术促进了Python的静态分析，是迈向更安全、更健壮的机器学习的一步。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The raise of machine learning hyperparameter constraints in Python code

Machine-learning operators often have correctness constraints that cut across multiple hyperparameters and/or data. Violating these constraints causes the operator to raise runtime exceptions, but those are usually documented only informally or not at all. This paper presents the first interprocedural weakest-precondition analysis for Python to extract hyperparameter constraints. The analysis is mostly static, but to make it tractable for typical Python idioms in machine-learning libraries, it selectively switches to the concrete domain for some cases. This paper demonstrates the analysis by extracting hyperparameter constraints for 181 operators from a total of 8 ML libraries, where it achieved high precision and recall and found real bugs. Our technique advances static analysis for Python and is a step towards safer and more robust machine learning.

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Proceedings of the 31st ACM SIGSOFT International Symposium on Software Testing and Analysis

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