HOList: An Environment for Machine Learning of Higher Order Logic Theorem Proving

Kshitij Bansal; Sarah Loos; Markus Rabe; Christian Szegedy; Stewart Wilcox

2019 ICML ICML 2019

HOList: An Environment for Machine Learning of Higher Order Logic Theorem Proving

Abstract

We present an environment, benchmark, and deep learning driven automated theorem prover for higher-order logic. Higher-order interactive theorem provers enable the formalization of arbitrary mathematical theories and thereby present an interesting challenge for deep learning. We provide an open-source framework based on the HOL Light theorem prover that can be used as a reinforcement learning environment. HOL Light comes with a broad coverage of basic mathematical theorems on calculus and the formal proof of the Kepler conjecture, from which we derive a challenging benchmark for automated reasoning approaches. We also present a deep reinforcement learning driven automated theorem prover, DeepHOL, that gives strong initial results on this benchmark.

🌉 Interdisciplinary Bridge — Artificial Intelligence and Reinforcement Learning

🧭 Keyword Pioneer — automated theorem proving

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Data Science & Analytics, Deep Learning, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics

Authors

Kshitij Bansal , Sarah Loos , Markus Rabe , Christian Szegedy , Stewart Wilcox

Topics

Artificial Intelligence > Core AI > Planning Artificial Intelligence > Learning Paradigms > Transfer Learning Reinforcement Learning > Methods > Deep RL Knowledge & Reasoning > Reasoning > Automated Reasoning Artificial Intelligence > Core AI > Reasoning

Keywords

deep reinforcement learning reinforcement learning theorem proving deep learning automated reasoning automated theorem proving theorem prover formal proof higher-order logic

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