Add to ORKGThis paper presents a novel, complete, and flexible optimization algorithm, which relies on recursive executions that re-constrains a model-checking procedure based on Satisfiability Modulo Theories (SMT). This SMT-based optimization technique is able to optimize a wide range of functions, including non-linear and non-convex problems using fixed-point arithmetic. Although SMT-based optimization is not a new technique, this work is the pioneer in solving non-linear and non-convex problems based on SMT; previous applications are only able to solve integer and rational linear problems. The proposed SMT-based optimization algorithm is compared to other traditional optimization techniques. Experimental results show the efficiency and effectivene...
International audienceFormal methods in software and hardware design often generate formulas that ne...
Incremental linearization is a conceptually simple, yet effective, technique that we have recently p...
In the contexts of automated reasoning (AR) and formal verification (FV),important { decision} probl...
This paper presents a novel, complete, and flexible optimization algorithm, which relies on recursiv...
This paper describes three variants of a counterexample guided inductive optimization (CEGIO) approa...
We address the problem of determining the satisfiability of a Boolean combination of convex constrai...
This paper describes a method for combining "off-the-shelf" SAT and constraint solvers for building ...
This paper describes a method for combining "off-the-shelf" SAT and constraint solvers for building ...
Abstract. In the last decade we have witnessed an impressive progress in the expressiveness and effi...
Satisfiability Modulo Theories (SMT) refers to the problem of determin-ing whether a first-order for...
Abstract. This paper describes a method for combining “off-the-shelf ” SAT and constraint solvers fo...
We present new methods for solving the Satisfiability Modulo Theories problem over the theory of Qua...
AbstractFormal methods in software and hardware design often generate formulas that need to be valid...
Abstract—Satisfiability Modulo Theories (SMT) is a decision problem for logical formulas over one or...
Formal methods are becoming increasingly important for debugging and verifying hardware and software...
International audienceFormal methods in software and hardware design often generate formulas that ne...
Incremental linearization is a conceptually simple, yet effective, technique that we have recently p...
In the contexts of automated reasoning (AR) and formal verification (FV),important { decision} probl...
This paper presents a novel, complete, and flexible optimization algorithm, which relies on recursiv...
This paper describes three variants of a counterexample guided inductive optimization (CEGIO) approa...
We address the problem of determining the satisfiability of a Boolean combination of convex constrai...
This paper describes a method for combining "off-the-shelf" SAT and constraint solvers for building ...
This paper describes a method for combining "off-the-shelf" SAT and constraint solvers for building ...
Abstract. In the last decade we have witnessed an impressive progress in the expressiveness and effi...
Satisfiability Modulo Theories (SMT) refers to the problem of determin-ing whether a first-order for...
Abstract. This paper describes a method for combining “off-the-shelf ” SAT and constraint solvers fo...
We present new methods for solving the Satisfiability Modulo Theories problem over the theory of Qua...
AbstractFormal methods in software and hardware design often generate formulas that need to be valid...
Abstract—Satisfiability Modulo Theories (SMT) is a decision problem for logical formulas over one or...
Formal methods are becoming increasingly important for debugging and verifying hardware and software...
International audienceFormal methods in software and hardware design often generate formulas that ne...
Incremental linearization is a conceptually simple, yet effective, technique that we have recently p...
In the contexts of automated reasoning (AR) and formal verification (FV),important { decision} probl...