AbstractThe DPLL procedure is the basis of some of the most successful propositional satisfiability solvers to date. Although originally devised as a proof-procedure for first-order logic, it has been used almost exclusively for propositional logic so far because of its highly inefficient treatment of quantifiers, based on instantiation into ground formulas. The FDPLL calculus by Baumgartner was the first successful attempt to lift the procedure to the first-order level without resorting to ground instantiations. FDPLL lifts to the first-order case the core of the DPLL procedure, the splitting rule, but ignores other aspects of the procedure that, although not necessary for completeness, are crucial for its effectiveness in practice.In this...
We present a new calculus for first-order theorem proving with equality, ME+Sup, which generalizes b...
We present a new calculus for first-order theorem proving with equality, ME+Sup, which generalizes b...
Abstract. Many applications of automated deduction require reasoning modulo some form of integer ari...
The DPLL procedure is the basis of some of the most successful propositional satisfiability solvers ...
The DPLL procedure is the basis of some of the most successful propositional satisfiability solvers ...
AbstractThe DPLL procedure is the basis of some of the most successful propositional satisfiability ...
Darwin is the first implementation of the Model Evolution Calculus by Baumgartner and Tinelli. The M...
Darwin is the first implementation of the Model Evolution Calculus by Baumgartner and Tinelli. The M...
In many theorem proving applications, a proper treatment of equational theories or equality is manda...
Many applications of automated deduction require reasoning modulo background theories, in particular...
AbstractIn many theorem proving applications, a proper treatment of equational theories or equality ...
Abstract. In many theorem proving applications, a proper treatment of equa-tional theories or equali...
Many applications of automated deduction require reasoning modulo background theories, in particular...
Darwin is the first implementation of the Model Evolution Calculus by Baumgartner and Tinelli. The M...
In many theorem proving applications, a proper treatment of equational theories or equality is manda...
We present a new calculus for first-order theorem proving with equality, ME+Sup, which generalizes b...
We present a new calculus for first-order theorem proving with equality, ME+Sup, which generalizes b...
Abstract. Many applications of automated deduction require reasoning modulo some form of integer ari...
The DPLL procedure is the basis of some of the most successful propositional satisfiability solvers ...
The DPLL procedure is the basis of some of the most successful propositional satisfiability solvers ...
AbstractThe DPLL procedure is the basis of some of the most successful propositional satisfiability ...
Darwin is the first implementation of the Model Evolution Calculus by Baumgartner and Tinelli. The M...
Darwin is the first implementation of the Model Evolution Calculus by Baumgartner and Tinelli. The M...
In many theorem proving applications, a proper treatment of equational theories or equality is manda...
Many applications of automated deduction require reasoning modulo background theories, in particular...
AbstractIn many theorem proving applications, a proper treatment of equational theories or equality ...
Abstract. In many theorem proving applications, a proper treatment of equa-tional theories or equali...
Many applications of automated deduction require reasoning modulo background theories, in particular...
Darwin is the first implementation of the Model Evolution Calculus by Baumgartner and Tinelli. The M...
In many theorem proving applications, a proper treatment of equational theories or equality is manda...
We present a new calculus for first-order theorem proving with equality, ME+Sup, which generalizes b...
We present a new calculus for first-order theorem proving with equality, ME+Sup, which generalizes b...
Abstract. Many applications of automated deduction require reasoning modulo some form of integer ari...