Abstract
We develop an approach for studying the local convexity of a certain class of random objectives around the iterates of an AMP algorithm. Our approach involves applying the Sudakov–Fernique inequality conditionally on a long sequence of AMP iterates, and our main contribution is to demonstrate the way in which the resulting objective can be simplified and analyzed. As a consequence, we provide a new, and arguably simpler, proof of some of the results of Celentano, Fan and Mei (Ann. Statist. 51 (2023) 519–546), which establishes that the so-called TAP free energy in the -synchronization problem is locally convex in the region to which AMP converges. We further prove a conjecture of Alaoui, Montanari and Sellke (In 2022 IEEE 63rd Annual Symposium on Foundations of Computer Science—FOCS 2022 (2022) 323–334 IEEE Computer Soc.) involving the local convexity of a related but distinct TAP free energy, which as a consequence, confirms that their algorithm efficiently samples from the Sherrington–Kirkpatrick Gibbs measure throughout the “easy” regime.
Funding Statement
The author is supported by the Miller Institute for Basic Research in Science, University of California, Berkeley.
Acknowledgments
The author would like to thank Song Mei and Zhou Fan for several useful discussions and the collaboration that formed the inspiration for this work. The author would also like to thank Ahmed Alaoui, Mark Sellke and Andrea Montanari for fruitful discussions, in particular on the Sherrington–Kirkpatrick sampling problem.
Citation
Michael Celentano. "Sudakov–Fernique post-AMP, and a new proof of the local convexity of the TAP free energy." Ann. Probab. 52 (3) 923 - 954, May 2024. https://doi.org/10.1214/23-AOP1675
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