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Understanding Phase Transitions via Mutual Information and MMSE

Publication ,  Journal Article
Reeves, G; Pfister, H
July 3, 2019

The ability to understand and solve high-dimensional inference problems is essential for modern data science. This article examines high-dimensional inference problems through the lens of information theory and focuses on the standard linear model as a canonical example that is both rich enough to be practically useful and simple enough to be studied rigorously. In particular, this model can exhibit phase transitions where an arbitrarily small change in the model parameters can induce large changes in the quality of estimates. For this model, the performance of optimal inference can be studied using the replica method from statistical physics but, until recently, it was not known if the resulting formulas were actually correct. In this chapter, we present a tutorial description of the standard linear model and its connection to information theory. We also describe the replica prediction for this model and outline the authors' recent proof that it is exact.

Duke Scholars

Publication Date

July 3, 2019
 

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Reeves, Galen, and Henry Pfister. “Understanding Phase Transitions via Mutual Information and MMSE,” July 3, 2019.
Reeves, Galen, and Henry Pfister. Understanding Phase Transitions via Mutual Information and MMSE. July 2019.

Publication Date

July 3, 2019