Solving olympiad geometry without human demonstrations
Google (United States) · New York University
Abstract
Abstract Proving mathematical theorems at the olympiad level represents a notable milestone in human-level automated reasoning 1–4 , owing to their reputed difficulty among the world’s best talents in pre-university mathematics. Current machine-learning approaches, however, are not applicable to most mathematical domains owing to the high cost of translating human proofs into machine-verifiable format. The problem is even worse for geometry because of its unique translation challenges 1,5 , resulting in severe scarcity of training data. We propose AlphaGeometry, a theorem prover for Euclidean plane geometry that sidesteps the need for human demonstrations by synthesizing millions of theorems and proofs across…
Citation impact
- FWCI
- 76.47
- Percentile
- 100%
- References
- 51
Authors
5Topics & keywords
- Olympiad
- Mathematical proof
- Automated theorem proving
- Computer science
- Gas meter prover
- Euclidean geometry
- Artificial intelligence
- Calculus (dental)