On the cavity method for decimated random constraint satisfaction
  problems and the analysis of belief propagation guided decimation algorithms

Achlioptas D Coja-Oghlan A; Altarelli F; Altarelli F; Aurell E Gordon U Kirkpatrick S; Braunstein A; Chavas J; Coja-Oghlan A; Coja-Oghlan A Krivelevich M Vilenchik D; Federico Ricci-Tersenghi; Feige U Mossel E Vilenchik D; Garey M R; Guilhem Semerjian; Higuchi S Mézard M; Krzakala F Zdeborova L; Montanari A; Montanari A; Montanari A Restrepo R Tetali P; Montanari A Ricci-Tersenghi F Semerjian G; Mézard M; Mézard M; Parisi G; Pretti M; Seitz S; Talagrand M; Wormald N C; Yedidia J S; Zdeborova L; Zdeborova L Krzakala F

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On the cavity method for decimated random constraint satisfaction problems and the analysis of belief propagation guided decimation algorithms

Abstract

We introduce a version of the cavity method for diluted mean-field spin models that allows the computation of thermodynamic quantities similar to the Franz-Parisi quenched potential in sparse random graph models. This method is developed in the particular case of partially decimated random constraint satisfaction problems. This allows to develop a theoretical understanding of a class of algorithms for solving constraint satisfaction problems, in which elementary degrees of freedom are sequentially assigned according to the results of a message passing procedure (belief-propagation). We confront this theoretical analysis to the results of extensive numerical simulations.Comment: 32 pages, 24 figure

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