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Tiny language models

Author

Listed:
  • Gross, Ronit D.
  • Tzach, Yarden
  • Halevi, Tal
  • Koresh, Ella
  • Kanter, Ido

Abstract

A prominent achievement of Natural Language Processing (NLP) is its ability to understand and generate meaningful human language. This capability relies on complex feedforward transformer block architectures pre-trained on Large Language Models (LLMs). However, LLM pre-training is currently feasible only for a few dominant companies due to the immense computational resources required, limiting broader research participation. This creates a critical need for more accessible alternatives. In this study, we explore whether Tiny Language Models (TLMs) exhibit the same key qualitative features of LLMs. We demonstrate that TLMs exhibit a clear performance gap between pre-trained and non-pre-trained models across classification tasks, indicating the effectiveness of pre-training, even at a tiny scale. The performance gap increases with the size of the pre-training dataset and with greater overlap between tokens in the pre-training and classification datasets. Furthermore, the classification accuracy achieved by a pre-trained deep TLM architecture can be replicated through a soft committee of multiple, independently pre-trained shallow architectures, enabling low-latency TLMs without affecting classification accuracy. Our results are based on pre-training BERT-6 and variants of BERT-1 on subsets of the Wikipedia dataset and evaluating their performance on FewRel, AGNews, and DBPedia classification tasks. Future research on TLM is expected to further illuminate the mechanisms underlying NLP, especially given that its biologically inspired models suggest that TLMs may be sufficient for children or adolescents to develop language.

Suggested Citation

  • Gross, Ronit D. & Tzach, Yarden & Halevi, Tal & Koresh, Ella & Kanter, Ido, 2026. "Tiny language models," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 681(C).
  • Handle: RePEc:eee:phsmap:v:681:y:2026:i:c:s037843712500754x
    DOI: 10.1016/j.physa.2025.131102
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    References listed on IDEAS

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    1. Tevet, Ofek & Gross, Ronit D. & Hodassman, Shiri & Rogachevsky, Tal & Tzach, Yarden & Meir, Yuval & Kanter, Ido, 2024. "Efficient shallow learning mechanism as an alternative to deep learning," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 635(C).
    2. Gross, Ronit D. & Halevi, Tal & Koresh, Ella & Tzach, Yarden & Kanter, Ido, 2025. "Low-latency vision transformers via large-scale multi-head attention," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 675(C).
    3. Koresh, Ella & Gross, Ronit D. & Meir, Yuval & Tzach, Yarden & Halevi, Tal & Kanter, Ido, 2025. "Unified CNNs and transformers underlying learning mechanism reveals multi-head attention modus vivendi," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 666(C).
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