Paper Detail

ARM: An AutoRegressive Large Multimodal Model with Unified Discrete Representations

Junke Wang, Xiao Wang, Jiacheng Pan, Xuefeng Hu, Feng Li, Jingxiang Sun, Chaorui Deng, Zilong Chen, Yunpeng Chen, Kaibin Tian, Matthew Gwilliam, Hao Chen, Danhui Guan, Kun Xu, Weilin Huang, Zuxuan Wu, Haoqi Fan, Yu-Gang Jiang, Zhenheng Yang

arxiv Score 8.3

Published 2026-06-09 · First seen 2026-06-10

General AI

Abstract

This paper introduces ARM, a discrete representation-based AutoRegressive Model that unifies image understanding, generation, and editing within a next-token prediction framework. ARM is built on three efforts: first, we train a discrete semantic visual tokenizer that maps images into compact token sequences. Our tokenizer is supervised with multiple objectives that jointly promote semantic discriminability, language alignment and faithful reconstruction, thereby supporting diverse tasks in a shared latent space. With this, we train a 7B autoregressive model over large-scale text and image token sequences, seamlessly developing vision-language perception and generation capabilities. Finally, to further improve preference-aligned behavior for text-to-image generation and instruction-guided editing, ARM applies reinforcement learning (RL) to optimize task-level objectives such as visual quality, instruction adherence, and edit consistency. Surprisingly, the results show that RL not only substantially improves performance on the target tasks (e.g., raising WISE overall from 0.50 to 0.56, GEdit-Bench-EN G_O from 5.75 to 6.68), but also induces cross-task synergy between text-to-image generation and editing. Collectively, these findings highlight autoregressive modeling, when paired with strong representations and preference optimization, as a scalable foundation for multimodal intelligence. Code: https://github.com/wdrink/ARM.

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BibTeX

@article{wang2026arm,
  title = {ARM: An AutoRegressive Large Multimodal Model with Unified Discrete Representations},
  author = {Junke Wang and Xiao Wang and Jiacheng Pan and Xuefeng Hu and Feng Li and Jingxiang Sun and Chaorui Deng and Zilong Chen and Yunpeng Chen and Kaibin Tian and Matthew Gwilliam and Hao Chen and Danhui Guan and Kun Xu and Weilin Huang and Zuxuan Wu and Haoqi Fan and Yu-Gang Jiang and Zhenheng Yang},
  year = {2026},
  abstract = {This paper introduces ARM, a discrete representation-based AutoRegressive Model that unifies image understanding, generation, and editing within a next-token prediction framework. ARM is built on three efforts: first, we train a discrete semantic visual tokenizer that maps images into compact token sequences. Our tokenizer is supervised with multiple objectives that jointly promote semantic discriminability, language alignment and faithful reconstruction, thereby supporting diverse tasks in a sh},
  url = {https://arxiv.org/abs/2606.11188},
  keywords = {cs.CV},
  eprint = {2606.11188},
  archiveprefix = {arXiv},
}

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