AbstractMany problems in operations research and hardware design are combinatorial problems which can be seen as search problems with constraints. We present an application of CHIP (Constraint Handling In Prolog) to large problems in disjunctive scheduling, graph coloring, and firmware design. chip is a constraint logic-programming language combining the declarative aspects of PROLOG with the efficiency of constraint-solving techniques. It is shown that it allows a natural expression of problems to be executed as efficiently as special-purpose programs written in procedural languages
Combinatorial problems appear in many areas in science, engineering, biomedicine, business, and oper...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
This paper describes the design, implementation, and applications of the constraint logic language c...
The paper discusses a new trend in the modelling software for combinatorial and mixed combinatorial-...
A logic view of 0-1 integer programming problems, providing new insights into the structure of probl...
Real life applications involve entities and algorithms that are complex to model and implement. Logi...
AbstractThis paper describes the design, implementation, and applications of the constraint logic la...
Constraint logic programming has become a promising new technology for solving complex combinatorial...
This chapter addresses the integration of constraints and search into programming lan-guages from th...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
Constraint logic programming (CLP) has become a promising new technology for solving complex combina...
Constraint Satisfaction Problems typically exhibit strong combinatorial explosion. In this paper we ...
We provide a method whereby, given mode and (upper approximation) type information, we can detect p...
In this article we illustrate that Constraint Logic Programming (CLP) systems allow easy expression ...
AbstractWe show how an extended Prolog can be exploited to implement different electronic CAD tools....
Combinatorial problems appear in many areas in science, engineering, biomedicine, business, and oper...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
This paper describes the design, implementation, and applications of the constraint logic language c...
The paper discusses a new trend in the modelling software for combinatorial and mixed combinatorial-...
A logic view of 0-1 integer programming problems, providing new insights into the structure of probl...
Real life applications involve entities and algorithms that are complex to model and implement. Logi...
AbstractThis paper describes the design, implementation, and applications of the constraint logic la...
Constraint logic programming has become a promising new technology for solving complex combinatorial...
This chapter addresses the integration of constraints and search into programming lan-guages from th...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
Constraint logic programming (CLP) has become a promising new technology for solving complex combina...
Constraint Satisfaction Problems typically exhibit strong combinatorial explosion. In this paper we ...
We provide a method whereby, given mode and (upper approximation) type information, we can detect p...
In this article we illustrate that Constraint Logic Programming (CLP) systems allow easy expression ...
AbstractWe show how an extended Prolog can be exploited to implement different electronic CAD tools....
Combinatorial problems appear in many areas in science, engineering, biomedicine, business, and oper...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
This paper describes the design, implementation, and applications of the constraint logic language c...