This paper attempts to address the question of how best to assure the correctness of saturation-based automated theorem provers using our experience with developing the theorem prover Vampire. We describe the techniques we currently employ to ensure that Vampire is correct and use this to motivate future challenges that need to be addressed to make this process more straightforward and to achieve better correctness guarantees
AbstractInteractive theorem provers require too much effort from their users. We have been developin...
Clause selection is one of the main heuristic decision points in navigating proof search of saturati...
We present a formalization in Isabelle/HOL of a comprehensive framework for proving the completeness...
Many applications of formal methods require automated reasoning about system properties, such as sys...
In this paper we give a short introduction in first-order theorem proving and the use of the theorem...
AbstractThis paper describes the study of some specific test problems in automated theorem proving. ...
Modern saturation-based Automated Theorem Provers typically implement the superposition calculus for...
Recently, a new reasoning framework, called AVATAR, integrating first-order theorem proving with SAT...
This paper aims to do two things. Firstly, it discusses how the VAMPIRE automatic theorem prover bot...
International audienceWe present a formalization in Isabelle/HOL of a comprehensive framework for pr...
First-order Automated Theorem Proving (ATP) is one of the oldest and most developed areas of automat...
This paper summarizes the theoretical foundations and basic methodology of automated theorem-proving...
We present a framework for formal refutational completeness proofs of abstract provers that implemen...
Automated theorem proving is one of the central areas of computer mathematics. It studies methods an...
Interactive theorem provers require too much effort from their users. We have been developing a syst...
AbstractInteractive theorem provers require too much effort from their users. We have been developin...
Clause selection is one of the main heuristic decision points in navigating proof search of saturati...
We present a formalization in Isabelle/HOL of a comprehensive framework for proving the completeness...
Many applications of formal methods require automated reasoning about system properties, such as sys...
In this paper we give a short introduction in first-order theorem proving and the use of the theorem...
AbstractThis paper describes the study of some specific test problems in automated theorem proving. ...
Modern saturation-based Automated Theorem Provers typically implement the superposition calculus for...
Recently, a new reasoning framework, called AVATAR, integrating first-order theorem proving with SAT...
This paper aims to do two things. Firstly, it discusses how the VAMPIRE automatic theorem prover bot...
International audienceWe present a formalization in Isabelle/HOL of a comprehensive framework for pr...
First-order Automated Theorem Proving (ATP) is one of the oldest and most developed areas of automat...
This paper summarizes the theoretical foundations and basic methodology of automated theorem-proving...
We present a framework for formal refutational completeness proofs of abstract provers that implemen...
Automated theorem proving is one of the central areas of computer mathematics. It studies methods an...
Interactive theorem provers require too much effort from their users. We have been developing a syst...
AbstractInteractive theorem provers require too much effort from their users. We have been developin...
Clause selection is one of the main heuristic decision points in navigating proof search of saturati...
We present a formalization in Isabelle/HOL of a comprehensive framework for proving the completeness...