Graph Representations for Higher-Order Logic and Theorem Proving

Aditya Paliwal; Sarah Loos; Markus Rabe; Kshitij Bansal; Christian Szegedy

2020 AAAI AAAI 2020

Graph Representations for Higher-Order Logic and Theorem Proving

Abstract

Abstract This paper presents the first use of graph neural networks (GNNs) for higher-order proof search and demonstrates that GNNs can improve upon state-of-the-art results in this domain. Interactive, higher-order theorem provers allow for the formalization of most mathematical theories and have been shown to pose a significant challenge for deep learning. Higher-order logic is highly expressive and, even though it is well-structured with a clearly defined grammar and semantics, there still remains no well-established method to convert formulas into graph-based representations. In this paper, we consider several graphical representations of higher-order logic and evaluate them against the HOList benchmark for higher-order theorem proving.

🌉 Interdisciplinary Bridge — Artificial Intelligence and Deep Learning and Knowledge & Reasoning

🧭 Keyword Pioneer — formula representation

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Aditya Paliwal , Sarah Loos , Markus Rabe , Kshitij Bansal , Christian Szegedy

Topics

Artificial Intelligence > Core AI > Planning Deep Learning > Architectures > Graph Neural Networks Knowledge & Reasoning > Reasoning > Automated Reasoning Knowledge & Reasoning > Reasoning > Formal Methods Artificial Intelligence > Core AI > Knowledge Representation

Keywords

theorem proving knowledge representation formal methods automated reasoning formal verification proof search higher-order logic graph neural network formula representation holist benchmark

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