George Tsoukalas, Jasper Lee, John Jennings, Jimmy Xin, Michelle Ding, Michael Jennings, Amitayush Thakur, Swarat Chaudhuri
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PutnamBench: Evaluating Neural Theorem-Provers on the Putnam Mathematical Competition
We present PutnamBench, a new multilingual benchmark for evaluating the
ability of neural theorem-provers to solve competition mathematics problems.
PutnamBench consists of 1697 hand-constructed formalizations of 640 theorems
sourced from the William Lowell Putnam Mathematical Competition, the premier
undergraduate-level mathematics competition in North America. All the theorems
have formalizations in Lean 4 and Isabelle; a substantial subset also has Coq
formalizations. Proving the theorems requires significant problem-solving
ability and proficiency in a broad range of topics taught in undergraduate
mathematics courses. We use PutnamBench to evaluate several established neural
and symbolic theorem-provers. These approaches can only solve a handful of the
PutnamBench problems, establishing the benchmark as a difficult open challenge
for research on neural theorem-proving. PutnamBench is available at
https://github.com/trishullab/PutnamBench.