Record link: 
http://hdl.handle.net/20.500.12708/205066
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Title: 
Scaling CheckMate for Game-Theoretic Security
en
Citation: 
Rain, S., Brugger, L. S., Petković Komel, A., Kovács, L., & Rawson, M. (2024). Scaling CheckMate for Game-Theoretic Security. In N. Bjorner, M. Heule, & A. Voronkov (Eds.), Proceedings of 25th Conference on Logic for Pro gramming, Artificial Intelligence and Reasoning (pp. 222–231). https://doi.org/10.29007/llnq
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Publisher DOI: 
10.29007/llnq
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Publication Type: 
Inproceedings - Full-Paper Contribution
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Language: 
English
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Authors: 
Rain, Sophie 
Brugger, Lea Salome 
Petković Komel, Anja 
Kovács, Laura 
Rawson, Michael 
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Organisational Unit: 
E192-04 - Forschungsbereich Formal Methods in Systems Engineering 
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Published in: 
Proceedings of 25th Conference on Logic for Pro gramming, Artificial Intelligence and Reasoning 
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Volume: 
100
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Date (published): 
2024
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Event name: 
25th International Conference on Logic for Programming, Artificial Intelligence and Reasoning (LPAR 2024) 
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Event date: 
26-May-2024 - 31-May-2024
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Event place: 
Mauritius
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Number of Pages: 
10
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Peer reviewed: 
Yes
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Keywords: 
automated reasoning; blockchain protocols; game theoretic security; incentive compatibility; protocol verification
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Abstract: 
We present the CheckMate tool for automated verification of game-theoretic security properties, with application to blockchain protocols. CheckMate applies automated reasoning techniques to determine whether a game-theoretic protocol model is game-theoretically secure, that is, Byzantine fault tolerant and incentive compatible. We describe CheckMate’s input format and its various components, modes, and output. CheckMate is evaluated on 15 benchmarks, including models of decentralized protocols, board games, and game-theoretic examples.
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Research Areas: 
Logic and Computation: 50%
Mathematical and Algorithmic Foundations: 50%
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Science Branch: 
1020 - Informatik: 80%
1010 - Mathematik: 20%
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Appears in Collections:
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