Enterprise AI Analysis
Proposing and solving olympiad geometry with guided tree search
Mathematics olympiads are prestigious competitions in which both proposing and solving problems are highly honoured. Building artificial intelligence systems capable of addressing these olympiad-level challenges remains an open frontier in automated reasoning, particularly in geometry due to its unique blend of numerical precision and spatial intuition. Here we show that TongGeometry, a neuro-symbolic system using guided tree search, both discovers and proves olympiad-level geometry theorems. Within the same computational budget as existing state-of-the-art systems, TongGeometry establishes a larger repository of geometry theorems: 6.7 billion requiring auxiliary constructions, including 4.1 billion exhibiting geometric symmetry. Among these, three of TongGeometry's discoveries were selected for regional mathematical olympiads, appearing in a national team qualifying exam in China and a top civil olympiad in the USA. Guided by fine-tuned large language models, TongGeometry solved all International Mathematical Olympiad geometry problems in the IMO-AG-30 benchmark, outperforming average top human competitors on this specific dataset. It also surpasses the existing state of the art across a broader spectrum of olympiad-level problems and requires only consumer-grade computing resources. These results demonstrate that TongGeometry operates as both a mathematical discoverer and a solver, becoming an artificial intelligence system to achieve this dual capability. The deployment of a preliminary system based on TongGeometry demonstrates practical applications and opens fresh possibilities for artificial-intelligence-assisted mathematical research and education.
Executive Impact & Core Metrics
Our AI analysis of 'Proposing and solving olympiad geometry with guided tree search' reveals profound implications for enterprise strategy, operational efficiency, and innovation. Key metrics underscore the potential for transformative change.
6.7B
Geometry Problems Discovered
100%
% IMO-AG-30 Solved
38 min
Min Avg Solve Time
Deep Analysis & Enterprise Applications
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TongGeometry integrates neural networks for guided search with symbolic logic for precise reasoning, achieving a powerful synergy in complex problem-solving.
The system advances automated reasoning by tackling geometry problems that demand both logical rigor and creative auxiliary constructions.
TongGeometry acts as a mathematical discoverer, generating a vast repository of new theorems, many with desirable properties like symmetry.
The preliminary system shows practical applications in mathematical education, offering AI-assisted research and problem generation for students and coaches.
Unprecedented Problem Generation Scale
6.7 Billion Theorems DiscoveredTongGeometry autonomously generated 6.7 billion geometry problems requiring auxiliary constructions, with 4.1 billion exhibiting mathematical symmetry. This scale far exceeds previous attempts, providing a rich dataset for mathematical exploration.
Enterprise Process Flow
Data-Driven Search Prior
→
Symmetric Diagram Generation
→
Auxiliary Construction Detection
→
Problem Formulation (Proposing)
→
Neural-Guided Tree Search (Solving)
→
Formal Proof Generation
| Comparison Point | TongGeometry | AlphaGeometry | Human Gold Medalist Avg |
|---|---|---|---|
| IMO-AG-30 Solved |
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| MO-TG-225 Solved |
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| Resource Efficiency |
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Real-World Impact: Olympiad Problem Selection
Three of TongGeometry's autonomously discovered problems were selected for prestigious mathematical olympiads: one for the 2024 National High School Mathematics League (Beijing) and two for the 2024 US Ersatz Math Olympiad shortlist.
Key Takeaway: AI-generated problems meet human expert standards for creativity and challenge.
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