Many applications of automated deduction require reasoning in first-order logic modulo background theories, in particular some form of integer arithmetic. A major unsolved research challenge is to design theorem provers that are "reasonably complete" even in the presence of free function symbols ranging into a background theory sort. The hierarchic superposition calculus of Bachmair, Ganzinger, and Waldmann already supports such symbols, but, as we demonstrate, not optimally. This paper aims to rectify the situation by introducing a novel form of clause abstraction, a core component in the hierarchic superposition calculus for transforming clauses into a form needed for internal operation. We argue for the benefits of the resulting calculus...
International audienceWe recently designed two calculi as stepping stones towards superposition for ...
Motivated by applications of first-order theorem proving to software analysis, we introduce a new in...
International audienceWe designed a superposition calculus for a clausal fragment of extensional pol...
Many applications of automated deduction require reasoning in first-order logic modulo background th...
International audienceMany applications of automated deduction require reasoning in first-order logi...
Many applications of automated deduction require reasoning in first-order logic modulo background th...
De-partment of Broadband, Communications and the Digital Economy and the Australian Research Council...
Abstract. Many applications of automated deduction and verification require reasoning in combination...
International audienceMany applications of automated deduction and verification require reasoning in...
The hierarchic superposition calculus over a theory T, called SUP(T), enables sound reasoning on the...
Many applications of automated deduction require reasoning in first-order logic modulo background th...
AbstractThis paper describes a superposition calculus where quantifiers are eliminated lazily. Super...
International audienceSuperposition is among the most successful calculi for first-order logic. Its ...
We extend previous results on theorem proving for first-order clauses with equality to hierarchic fi...
Abstract. The concept of redundancy and simplification has been an ongoing theme in Harald Ganzinger...
International audienceWe recently designed two calculi as stepping stones towards superposition for ...
Motivated by applications of first-order theorem proving to software analysis, we introduce a new in...
International audienceWe designed a superposition calculus for a clausal fragment of extensional pol...
Many applications of automated deduction require reasoning in first-order logic modulo background th...
International audienceMany applications of automated deduction require reasoning in first-order logi...
Many applications of automated deduction require reasoning in first-order logic modulo background th...
De-partment of Broadband, Communications and the Digital Economy and the Australian Research Council...
Abstract. Many applications of automated deduction and verification require reasoning in combination...
International audienceMany applications of automated deduction and verification require reasoning in...
The hierarchic superposition calculus over a theory T, called SUP(T), enables sound reasoning on the...
Many applications of automated deduction require reasoning in first-order logic modulo background th...
AbstractThis paper describes a superposition calculus where quantifiers are eliminated lazily. Super...
International audienceSuperposition is among the most successful calculi for first-order logic. Its ...
We extend previous results on theorem proving for first-order clauses with equality to hierarchic fi...
Abstract. The concept of redundancy and simplification has been an ongoing theme in Harald Ganzinger...
International audienceWe recently designed two calculi as stepping stones towards superposition for ...
Motivated by applications of first-order theorem proving to software analysis, we introduce a new in...
International audienceWe designed a superposition calculus for a clausal fragment of extensional pol...