English

Toward Native Multimodal Modeling: A Roadmap

Computer Vision and Pattern Recognition 2026-05-26 v1

Abstract

Multimodal modeling represents a vital step from modality-agnostic reasoning toward world modeling. While early approaches predominantly rely on late-fusion that assembles encoders and frozen language backbones with output heads, recent efforts have shifted the paradigm toward native multimodal modeling (NMM) with the intrinsic integration of modalities for superior multimodal performance. Despite its potential, the design space of native architectures remains insufficiently defined. In this paper, we present the community with a formalized roadmap for this transition. Specifically, we formally define the architectural nativity, distinguishing mid-fusion and early-fusion from non-native paradigms. We further organize the existing native models through the lens of input-output duality into three categories: (i) Multi-to-Text for cross-modal comprehension with text-only output; (ii) Multi-to-Target for scenario-oriented generation, e.g., image, audio and video generation, and (iii) Multi-to-Multi for unified modeling with symmetric input-output. We deliver a comprehensive and industrial-grade investigation into the transition toward the definitive NMM framework, where understanding and generation seamlessly coexist within a unified transformer paradigm. We systematically unpack the end-to-end pipeline from industrial perspectives from architectural coordination, massive data curation, to full-stack training recipes, inference & deployment, and the comprehensive evaluation for truly native modeling.

Keywords

Cite

@article{arxiv.2605.25343,
  title  = {Toward Native Multimodal Modeling: A Roadmap},
  author = {Siyu An and Junru Lu and Junnan Dong and Qiufeng Wang and Yinghui Li and Weizhi Fei and Zichao Yu and Zheng Yuan and Biao Liu and Haopeng Wang and Renzhao Liang and Yixuan Yang and Yunhang Shen and Bo Ke and Keyu Chen and Linhao Luo and Difan Zou and Xiao Huang and Di Yin and Ruizhi Qiao and Xing Sun},
  journal= {arXiv preprint arXiv:2605.25343},
  year   = {2026}
}

Comments

52 pages, 5 figures, 3 tables, ~300 references