Extended version of our CADE-25 conference paper, 15 pagesWe consider feasibility of linear integer programs in the context of verification systems such as SMT solvers or theorem provers. Although satisfiability of linear integer programs is decidable, many state-of-the-art solvers neglect termination in favor of efficiency. It is challenging to design a solver that is both terminating and practically efficient. Recent work by Jovanovic and de Moura constitutes an important step into this direction. Their algorithm CUTSAT is sound, but does not terminate, in general. In this paper we extend their CUTSAT algorithm by refined inference rules, a new type of conflicting core, and a dedicated rule application strategy. This leads to our algorith...
Abstract. Developing reliable programs and proving their total correctness is hard. Not only do we h...
Recent advances in solving propositional satisfiability problems (SAT) have extended their applicati...
International audienceThis paper describes a novel decision procedure for quantifier-free linear int...
We consider feasibility of linear integer programs in the context of verification systems such as SM...
International audienceWe consider feasibility of linear integer problems in the context of verificat...
In this thesis, we present new decision procedures for linear arithmetic in the context of SMT solve...
A fundamental problem in program verification con-cerns the termination of simple linear loops of th...
International audienceOff-the-shelf linear programming (LP) solvers trade soundness for speed: for e...
Abstract. Polynomial constraint-solving plays a prominent role in sev-eral areas of engineering and ...
We present a new approach to proving non-termination of non-deterministic integer programs. Our tech...
Numerical computations form an essential part of almost any real-world program. Traditional approach...
Abstract. Current mixed-integer linear programming solvers are based on linear programming routines ...
Abstract. Proving program termination is typically done by finding a well-founded ranking function f...
Proving program termination is typically done by finding a well-founded ranking function for the pro...
International audienceWe propose a new quantifier elimination algorithm for the theory of linear rea...
Abstract. Developing reliable programs and proving their total correctness is hard. Not only do we h...
Recent advances in solving propositional satisfiability problems (SAT) have extended their applicati...
International audienceThis paper describes a novel decision procedure for quantifier-free linear int...
We consider feasibility of linear integer programs in the context of verification systems such as SM...
International audienceWe consider feasibility of linear integer problems in the context of verificat...
In this thesis, we present new decision procedures for linear arithmetic in the context of SMT solve...
A fundamental problem in program verification con-cerns the termination of simple linear loops of th...
International audienceOff-the-shelf linear programming (LP) solvers trade soundness for speed: for e...
Abstract. Polynomial constraint-solving plays a prominent role in sev-eral areas of engineering and ...
We present a new approach to proving non-termination of non-deterministic integer programs. Our tech...
Numerical computations form an essential part of almost any real-world program. Traditional approach...
Abstract. Current mixed-integer linear programming solvers are based on linear programming routines ...
Abstract. Proving program termination is typically done by finding a well-founded ranking function f...
Proving program termination is typically done by finding a well-founded ranking function for the pro...
International audienceWe propose a new quantifier elimination algorithm for the theory of linear rea...
Abstract. Developing reliable programs and proving their total correctness is hard. Not only do we h...
Recent advances in solving propositional satisfiability problems (SAT) have extended their applicati...
International audienceThis paper describes a novel decision procedure for quantifier-free linear int...