Add to ORKGVindicating a sophisticated but non-rigorous physics approach called the cavity method, we establish a formula for the mutual information in statistical inference problems induced by random graphs and we show that the mutual information holds the key to understanding certain important phase transitions in random graph models. We work out several concrete applications of these general results. For instance, we pinpoint the exact condensation phase transition in the Potts antiferromagnet on the random graph, thereby improving prior approximate results [Contucci et al.: Communications in Mathematical Physics 2013]. Further, we prove the conjecture from [Krzakala et al.: PNAS 2007] about the condensation phase transition in the random graph col...
Statistical physics seeks to explain macroscopic properties of matter in terms of microscopic intera...
Statistical physics seeks to explain macroscopic properties of matter in terms of microscopic intera...
Quantum information spreading and scrambling in many-body systems attract interests these days. Trip...
Vindicating a sophisticated but non-rigorous physics approach called the cavity method, we establish...
We give a rigorous proof of two phase transitions for a disordered statistical mechanics system used...
Many inference problems undergo phase transitions as a function of the signal-to-noise ratio, a prom...
10 pages, Proceedings of the International Workshop on Statistical-Mechanical Informatics 2007, Kyot...
We develop an information-theoretic view of the stochastic block model, a popular statistical model ...
The scope of these lecture notes is to provide an introduction to modern statistical physics mean-fi...
Based on a non-rigorous formalism called the "cavity method", physicists have put forward intriguing...
36 pages, 4 figures.International audienceWe give a rigorous proof of two phase transitions for a di...
Random graph models and associated inference problems such as the stochastic block model play an emi...
There is a vast body of recent literature on the reliability of communication through noisy channels...
Based on a non-rigorous formalism called the “cavity method”, physicists have made intriguing predic...
Factorizing low-rank matrices has many applications in machine learning and statistics. For probabil...
Statistical physics seeks to explain macroscopic properties of matter in terms of microscopic intera...
Statistical physics seeks to explain macroscopic properties of matter in terms of microscopic intera...
Quantum information spreading and scrambling in many-body systems attract interests these days. Trip...
Vindicating a sophisticated but non-rigorous physics approach called the cavity method, we establish...
We give a rigorous proof of two phase transitions for a disordered statistical mechanics system used...
Many inference problems undergo phase transitions as a function of the signal-to-noise ratio, a prom...
10 pages, Proceedings of the International Workshop on Statistical-Mechanical Informatics 2007, Kyot...
We develop an information-theoretic view of the stochastic block model, a popular statistical model ...
The scope of these lecture notes is to provide an introduction to modern statistical physics mean-fi...
Based on a non-rigorous formalism called the "cavity method", physicists have put forward intriguing...
36 pages, 4 figures.International audienceWe give a rigorous proof of two phase transitions for a di...
Random graph models and associated inference problems such as the stochastic block model play an emi...
There is a vast body of recent literature on the reliability of communication through noisy channels...
Based on a non-rigorous formalism called the “cavity method”, physicists have made intriguing predic...
Factorizing low-rank matrices has many applications in machine learning and statistics. For probabil...
Statistical physics seeks to explain macroscopic properties of matter in terms of microscopic intera...
Statistical physics seeks to explain macroscopic properties of matter in terms of microscopic intera...
Quantum information spreading and scrambling in many-body systems attract interests these days. Trip...