English

A Partition Cover Approach to Tokenization

Computation and Language 2025-09-30 v3 Artificial Intelligence Data Structures and Algorithms

Abstract

Tokenization is the process of encoding strings into tokens of a fixed vocabulary size, and is widely utilized in Natural Language Processing applications. The leading tokenization algorithm today is Byte-Pair Encoding (BPE), which formulates the tokenization problem as a compression problem and tackles it by performing sequences of merges. In this work, we formulate tokenization as an optimization objective, show that it is NP-hard via a simple reduction from vertex cover, and propose a polynomial-time greedy algorithm GreedTok. Our formulation naturally relaxes to the well-studied weighted maximum coverage problem which has a simple (11/e)(1 - 1/e)-approximation algorithm GreedWMC. Through empirical evaluations on real-world corpora, we show that GreedTok outperforms BPE and Unigram on compression and achieves a covering score comparable to GreedWMC. Finally, our extensive pre-training for two transformer-based language models with 1 billion parameters, comparing the choices of BPE and GreedTok as the tokenizer, shows that GreedTok achieves a lower bit per byte even when we control for either the total dataset proportion or total training tokens.

Keywords

Cite

@article{arxiv.2501.06246,
  title  = {A Partition Cover Approach to Tokenization},
  author = {Jia Peng Lim and Shawn Tan and Davin Choo and Hady W. Lauw},
  journal= {arXiv preprint arXiv:2501.06246},
  year   = {2025}
}

Comments

NeurIPS 2025

R2 v1 2026-06-28T21:03:01.906Z