1 / 26

Combination of Exact and Approximate Methods for SAT and MAX-SAT Problems

LERIA, University of Angers (France). Combination of Exact and Approximate Methods for SAT and MAX-SAT Problems. Frédéric Lardeux, Frédéric Saubion and Jin-Kao Hao Metaheuristics and Combinatorial Optimization Group. Ex : (  a  b  c)  (b  d  e) (a  c  f). a. b. c. d. e. f.

haile
Download Presentation

Combination of Exact and Approximate Methods for SAT and MAX-SAT Problems

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. LERIA, University of Angers (France) Combination of Exact and Approximate Methods for SAT and MAX-SAT Problems Frédéric Lardeux, Frédéric Saubion andJin-Kao Hao Metaheuristics and Combinatorial Optimization Group

  2. Ex : (a b  c)  (b  d  e) (a  c  f) a b c d e f F F T F T T Introduction • SAT Problem : NP-complete problem, several applications (planning, diagnosis …) Goal : Find a truth assignment satisfying a propositional logic formula:

  3. Introduction • MAX-SAT problem: Goal : For a given boolean formula, find an assignment which maximizes the number of true clauses (or minimizes the number of false clauses) Remark : MAXSAT is less studied than SAT

  4. Searchtree a F T b b F T F V c c c c T F T T F F T T … … … … … … … … Introduction • Two classes of methods : - complete/exact methods (1960) • SAT : Davis Putnam, Satz (97), Zchaff (00), … • MAX-SAT : B&B

  5. Search space Set of assignments Introduction • Two classes of methods : - heuristicmethods (1992) • GSAT(Walksat), UnitWalk(2002), …

  6. Outline • Hybrid Solvers for SAT • New hybridization scheme • Tri-valued Tabu Search • Hybridization TS + B&B • Experimental results • Conclusions

  7. Hybrid Solvers for SAT Hybridization/ Combination = popular technique for designing powerful algorithms Our experience : GASAT : hybrid incomplete SAT solver evolutionnary process (population + recombination) + local search (tabu)

  8. Selection Crossover Local Search Insertion Result GASAT Algorithm Conditions

  9. GASAT Algorithm Interesting Results SAT 2004 : 4th for Random Benchmarks Looking for new hybridizations complete + incomplete Focusing on MAXSAT

  10. Existing hybridizations complete/incomplete 3 hybrid algorithms : • Tabu Search process in a DP procedure used as a branching rule (Mazure et al. 98) [SAT] • Walksat used in Satz to complete a partial assignment (Habet et al. 2002) [SAT] • GSAT to obtain the initial bound, then B&B (Borchers et Furman 99) [MAXSAT]

  11. Given thanks to Tabu a F V b b F V F V c c c c V F V F F F V V … … … … … … … … Existing hybridizations DP with Tabu as branching rule (Mazure et al. 98) : Davis Putnam+Tabu

  12. Walksat Walksat a F V b b F V F V c c c c V F V F F F V V … … … … … … … … Existing hybridizations Walksat completes a partial assignment (Habet et al. 2002) Satz and Walksat

  13. a F V b b F V F V c c c c V F V F F F V V … … … … … … … … Existing hybridizations Initial bound given by GSAT, then B&B (Borchers et Furman 99)

  14. Outline • Existing hybridizations • New hybridization scheme • Tri-valued Tabu Search • Hybridization Tabu + B&B • Experimental results • Conclusions

  15. Tri-valued Tabusearch to unify the two Tri-valued Tabu Search • Idea : use B&B in a Tabu Search process as an intensification mecanism: • Tabu identifies « promising » areas • B&B explores exhaustively these areas Difficulties : complete assignments (Tabu) v.s. partial assignments (B&B) Proposition : a Tabou search with 3 truth values: true, false et undefined

  16. Tri-valued Tabu Search • Main components of the tri-valued tabu • Configuration with three values: true, false, undefined • Fitness function: number of true clauses (or false) AND undefined (the aim is to maximize the number of true clauses) • Neighborhood: change of one value in the current assignment

  17. Tri-valued Tabu Search • Rm : • Each configuration corresponds to one or several complete assignments Ex: (T,F,U) = (T,F,F) and (T,F,T) • The move from « undefined » to T or F corresponds to a (small) intensification • The move from T or F to « undefined » corresponds to a diversification

  18. Tri-valued Tabu Search S: standard move: T to F or F to T I: intensification move (small): Undefined to T or F D: diversification move: T or F to Undefined

  19. Hybridization Tabu + B&B • (Intensification/Diversification) tri-valued tabu search until the obtention of an assignment with at the maximum k undefined variables • (Intensification) B&B on the sub-problem of k variables to value them. Obtention of a complete assignment s • (Update) Add the k variables to the tabu list • Return to 1 with the solution s

  20. Hybridization Tabu + B&B

  21. Outline • Existing hybridizations • New hybridization • Tri-valued Tabu Search • Hybridization Tabu + B&B • Experimental results • Conclusions

  22. Experimental results • Evaluate the hybrid algorithm w.r.t. a standard Tabu Search • Benchmarks: SAT 2003 competition

  23. Experimental results 1 000 000 of flips (1 backtrack = 1 flip)

  24. Conclusions • Preliminary study of a hybridization between Tabu and B&B with a new resolution work • Improvement of the standard tabu search • Worst results than the best SAT solvers

  25. Future Works • General theoretical framework for hybrid CSP solvers • Based on K.R. Apt’s chaotic iteration • LS + CP • [ICLP2004 with E. Monfroy and T. Lambert] • Study of the parameters (balancing between the two stages of the algorithm), • Hybridization of other methods with the same resolution framework (Walksat + B&B…)

  26. University of Angers (France) Combination of Exact and Approximate Methods for SAT and MAX-SAT Problems Frédéric Lardeux, Frédéric Saubion andJin-Kao Hao

More Related