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Repairing DNN Architecture: Are We There Yet?

Jin-Han Kim, Nargiz Humbatova, Gunel Jahangirova, Paolo Tonella, Shin Yoo

202317 citationsDOIOpen Access PDF

Abstract

As Deep Neural Networks (DNNs) are rapidly being adopted within large software systems, software developers are increasingly required to design, train, and deploy such models into the systems they develop. Consequently, testing and improving the robustness of these models have received a lot of attention lately. However, relatively little effort has been made to address the difficulties developers experience when designing and training such models: if the evaluation of a model shows poor performance after the initial training, what should the developer change? We survey and evaluate existing state-of-the-art techniques that can be used to repair model performance, using a benchmark of both real-world mistakes developers made while designing DNN models and artificial faulty models generated by mutating the model code. The empirical evaluation shows that random baseline is comparable with or sometimes outperforms existing state-of-the-art techniques. However, for larger and more complicated models, all repair techniques fail to find fixes. Our findings call for further research to develop more sophisticated techniques for Deep Learning repair.

Topics & Concepts

Computer scienceRobustness (evolution)Benchmark (surveying)Machine learningArtificial intelligenceSoftware engineeringSoftwareDeep learningArchitectureArtificial neural networkCode (set theory)Search-based software engineeringSoftware systemComponent-based software engineeringProgramming languageChemistryVisual artsArtBiochemistryGeneGeographySet (abstract data type)GeodesyAdversarial Robustness in Machine LearningSoftware Testing and Debugging TechniquesSoftware Reliability and Analysis Research
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