Solving the hard Satisfiability Problem is time consuming even for modest-sized problem instances. Solving the Random L-SAT Problem is especially difficult due to the ratio of clauses to variables. This report presents a parallel synchronous simulated annealing method for solving the Random L-SAT Problem on a large-scale distributed-memory multiprocessor. In particular, we use a parallel synchronous simulated annealing procedure, called Generalized Speculative Computation, which guarantees the same decision sequence as sequential simulated annealing. To demonstrate the performance of the parallel method, we have selected problem instances varying in size from 100-variables/425-clauses to 5000-variables/21,250-clauses. Experimental results o...
AbstractWe report results from large-scale experiments in satisfiability testing. As has been observ...
AbstractIn this paper, we establish some bounds for the probability that stimulated annealing produc...
International audienceRecent attempts to create versions of Satisfiability (SAT) solvers that exploi...
Simulated annealing is known to be an efficient method for combinatorial optimization problems. Its ...
We show how to exploit the 32/64 bit architecture of modern computers to accelerate some of the algo...
International audienceThis paper presents a detailed analysis of the scalability and par-allelizatio...
AbstractWe describe the design and implementation of a highly optimized, multithreaded algorithm for...
In spite of its computational complexity, the SATisfiability problem is a great and competitive appr...
Simulated annealing is an attractive, but expensive, heuristic for approximating the solution to com...
Li, XiaomingThe Boolean Satisfiability Problem (SAT) is a well-known and core problem in computer sc...
We study the satisfiability of random Boolean expressions built from many clauses with K...
Propositional satisfiability (SAT) is one of the most fundamental problems in computer science. The ...
This work studies how grid and cloud computing can be applied to efficiently solving propositional s...
In this work, we will look at a class of very hard practical problems which can, currently, only be ...
Recent attempts to create versions of Satisfiability (SAT) solvers that exploit parallel hardware an...
AbstractWe report results from large-scale experiments in satisfiability testing. As has been observ...
AbstractIn this paper, we establish some bounds for the probability that stimulated annealing produc...
International audienceRecent attempts to create versions of Satisfiability (SAT) solvers that exploi...
Simulated annealing is known to be an efficient method for combinatorial optimization problems. Its ...
We show how to exploit the 32/64 bit architecture of modern computers to accelerate some of the algo...
International audienceThis paper presents a detailed analysis of the scalability and par-allelizatio...
AbstractWe describe the design and implementation of a highly optimized, multithreaded algorithm for...
In spite of its computational complexity, the SATisfiability problem is a great and competitive appr...
Simulated annealing is an attractive, but expensive, heuristic for approximating the solution to com...
Li, XiaomingThe Boolean Satisfiability Problem (SAT) is a well-known and core problem in computer sc...
We study the satisfiability of random Boolean expressions built from many clauses with K...
Propositional satisfiability (SAT) is one of the most fundamental problems in computer science. The ...
This work studies how grid and cloud computing can be applied to efficiently solving propositional s...
In this work, we will look at a class of very hard practical problems which can, currently, only be ...
Recent attempts to create versions of Satisfiability (SAT) solvers that exploit parallel hardware an...
AbstractWe report results from large-scale experiments in satisfiability testing. As has been observ...
AbstractIn this paper, we establish some bounds for the probability that stimulated annealing produc...
International audienceRecent attempts to create versions of Satisfiability (SAT) solvers that exploi...