It has been widely observed that there is no single “dominant ” SAT solver; instead, different solvers perform best on different instances. Rather than following the traditional approach of choosing the best solver for a given class of instances, we advocate making this deci-sion online on a per-instance basis. Building on previous work, we describe SATzilla, an automated approach for constructing per-instance algorithm portfolios for SAT that use so-called empirical hardness models to choose among their constituent solvers. This approach takes as input a distribution of problem instances and a set of component solvers, and con-structs a portfolio optimizing a given objective function (such as mean runtime, percent of instances solved, or s...
Abstract. In recent years, portfolio approaches to solving SAT prob-lems and CSPs have become increa...
The past few years have seen an enormous progress in the performance of Boolean satisfiability (SAT)...
Nowadays, powerful parallel SAT solvers are based on an algorithm portfolio. The alternative approac...
In practical applications, some important classes of problems are NP-complete. Although no worst-cas...
Hard combinatorial problems such as propositional satisfiability are ubiquitous. The holy grail are ...
The AI community has achieved great success in designing high-performance algorithms for hard combin...
The success of portfolio approaches in SAT solving relies on the observation that different SAT solv...
Different solvers for computationally difficult problems such as satisfiability (SAT) perform best o...
The abundance of algorithms developed to solve different problems has given rise to an important res...
The success of portfolio approaches in SAT solving relies on the observation that different SAT solv...
Designing high-performance solvers for computationally hard problems is a difficult and often time...
Abstract. Recent research in areas such as SAT solving and Integer Linear Programming has shown that...
Traditionally, the propositional satisfiability problem (SAT) was attacked with systematic search al...
Nguyen Dang: is a Leverhulme Early Career Fellow.Competitions such as the MiniZinc Challenges or the...
Abstract. In recent years, portfolio approaches to solving SAT prob-lems and CSPs have become increa...
Abstract. In recent years, portfolio approaches to solving SAT prob-lems and CSPs have become increa...
The past few years have seen an enormous progress in the performance of Boolean satisfiability (SAT)...
Nowadays, powerful parallel SAT solvers are based on an algorithm portfolio. The alternative approac...
In practical applications, some important classes of problems are NP-complete. Although no worst-cas...
Hard combinatorial problems such as propositional satisfiability are ubiquitous. The holy grail are ...
The AI community has achieved great success in designing high-performance algorithms for hard combin...
The success of portfolio approaches in SAT solving relies on the observation that different SAT solv...
Different solvers for computationally difficult problems such as satisfiability (SAT) perform best o...
The abundance of algorithms developed to solve different problems has given rise to an important res...
The success of portfolio approaches in SAT solving relies on the observation that different SAT solv...
Designing high-performance solvers for computationally hard problems is a difficult and often time...
Abstract. Recent research in areas such as SAT solving and Integer Linear Programming has shown that...
Traditionally, the propositional satisfiability problem (SAT) was attacked with systematic search al...
Nguyen Dang: is a Leverhulme Early Career Fellow.Competitions such as the MiniZinc Challenges or the...
Abstract. In recent years, portfolio approaches to solving SAT prob-lems and CSPs have become increa...
Abstract. In recent years, portfolio approaches to solving SAT prob-lems and CSPs have become increa...
The past few years have seen an enormous progress in the performance of Boolean satisfiability (SAT)...
Nowadays, powerful parallel SAT solvers are based on an algorithm portfolio. The alternative approac...