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Paper detail

Reasoning About Generalization via Conditional Mutual Information

We provide an information-theoretic framework for studying the generalization properties of machine learning algorithms. Our framework ties together existing approaches, including uniform convergence bounds and recent methods for adaptive data analysis. Specifically, we use Conditional Mutual Information (CMI) to quantify how well the input (i.e., the training data) can be recognized given the output (i.e., the trained model) of the learning algorithm. We show that bounds on CMI can be obtained from VC dimension, compression schemes, differential privacy, and other methods. We then show that bounded CMI implies various forms of generalization.

preprint2020arXivOpen access
Thomas SteinkeLydia Zakynthinou
math.ITInformation TheoryCryptography and SecurityMachine LearningData Structures and Algorithms
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Thomas SteinkeLydia Zakynthinou

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