Introduction to HOL: a theorem proving environment for higher order logic
Introduction to HOL: a theorem proving environment for higher order logic
SETHEO: a high-performance theorem prover
Journal of Automated Reasoning
The CADE-14 ATP System Competition
Journal of Automated Reasoning
The CADE-13 ATP System Competition
Journal of Automated Reasoning
Journal of Automated Reasoning
Journal of Automated Reasoning
Solution of the Robbins Problem
Journal of Automated Reasoning
Analytica – An Experiment in Combining Theorem Proving and Symbolic Computation
Journal of Automated Reasoning
The CADE-15 ATP System Competition
Journal of Automated Reasoning
The CADE-16 ATP System Competition
Journal of Automated Reasoning
The KIV-Approach to Software Verification
KORSO - Methods, Languages, and Tools for the Construction of Correct Software
Smart Selective Competition Parallelism ATP
Proceedings of the Twelfth International Florida Artificial Intelligence Research Society Conference
The Search Efficiency of Theorem Proving Strategies
CADE-12 Proceedings of the 12th International Conference on Automated Deduction
Integration of Automated and Interactive Theorem Proving in ILP
CADE-14 Proceedings of the 14th International Conference on Automated Deduction
CODE: A Powerful Prover for Problems of Condensed Detachment
CADE-14 Proceedings of the 14th International Conference on Automated Deduction
Omega: Towards a Mathematical Assistant
CADE-14 Proceedings of the 14th International Conference on Automated Deduction
Annals of Mathematics and Artificial Intelligence
AI Communications
The CADE-20 automated theorem proving competition
AI Communications
AI Communications - CASC
Filter-based resolution principle for lattice-valued propositional logic LP(X)
Information Sciences: an International Journal
The 3rd IJCAR Automated Theorem Proving Competition
AI Communications
The CADE-21 automated theorem proving system competition
AI Communications
On Automating the Calculus of Relations
IJCAR '08 Proceedings of the 4th international joint conference on Automated Reasoning
The 4th IJCAR Automated Theorem Proving System Competition - CASC-J4
AI Communications
Automated verification of refinement laws
Annals of Mathematics and Artificial Intelligence
Evaluating and certifying QBFs: A comparison of state-of-the-art tools
AI Communications
The TPTP Problem Library and Associated Infrastructure
Journal of Automated Reasoning
The CADE-22 automated theorem proving system competition - CASC-22
AI Communications
AI Communications - Practical Aspects of Automated Reasoning
Restricting backtracking in connection calculi
AI Communications - Practical Aspects of Automated Reasoning
Large theory reasoning with SUMO at CASC
AI Communications - Practical Aspects of Automated Reasoning
Diversification and intensification in parallel SAT solving
CP'10 Proceedings of the 16th international conference on Principles and practice of constraint programming
The 5th IJCAR automated theorem proving system competition - CASC-J5
AI Communications
The TPTP world - infrastructure for automated reasoning
LPAR'10 Proceedings of the 16th international conference on Logic for programming, artificial intelligence, and reasoning
Evaluating LTL satisfiability solvers
ATVA'11 Proceedings of the 9th international conference on Automated technology for verification and analysis
Fifty-five solvers in vancouver: the SAT 2004 competition
SAT'04 Proceedings of the 7th international conference on Theory and Applications of Satisfiability Testing
The mathserve system for semantic web reasoning services
IJCAR'06 Proceedings of the Third international joint conference on Automated Reasoning
The CADE-23 Automated Theorem Proving System Competition - CASC-23
AI Communications
Evaluating component solver contributions to portfolio-based algorithm selectors
SAT'12 Proceedings of the 15th international conference on Theory and Applications of Satisfiability Testing
CSR'07 Proceedings of the Second international conference on Computer Science: theory and applications
Machine learning approach to enhance the design of automated theorem provers
ICONIP'12 Proceedings of the 19th international conference on Neural Information Processing - Volume Part II
The 6th IJCAR automated theorem proving system competition --CASC-J6
AI Communications
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A key concern of ATP research is the development of more powerful systems, capable of solving more difficult problems within the same resource limits. In order to build more powerful systems, it is important to understand which systems, and hence which techniques, work well for what types of problems. This paper deals with the empirical evaluation of general purpose ATP systems, to determine which systems work well for what types of problems. This requires also dealing with the issues of assigning ATP problems into classes that are reasonably homogeneous with respect to the ATP systems that (attempt to) solve the problems, and assigning ratings to problems based on their difficulty.