English

NNiT: Width-Agnostic Neural Network Generation with Structurally Aligned Weight Spaces

Machine Learning 2026-03-03 v1 Artificial Intelligence

Abstract

Generative modeling of neural network parameters is often tied to architectures because standard parameter representations rely on known weight-matrix dimensions. Generation is further complicated by permutation symmetries that allow networks to model similar input-output functions while having widely different, unaligned parameterizations. In this work, we introduce Neural Network Diffusion Transformers (NNiTs), which generate weights in a width-agnostic manner by tokenizing weight matrices into patches and modeling them as locally structured fields. We establish that Graph HyperNetworks (GHNs) with a convolutional neural network (CNN) decoder structurally align the weight space, creating the local correlation necessary for patch-based processing. Focusing on MLPs, where permutation symmetry is especially apparent, NNiT generates fully functional networks across a range of architectures. Our approach jointly models discrete architecture tokens and continuous weight patches within a single sequence model. On ManiSkill3 robotics tasks, NNiT achieves >85% success on architecture topologies unseen during training, while baseline approaches fail to generalize.

Keywords

Cite

@article{arxiv.2603.00180,
  title  = {NNiT: Width-Agnostic Neural Network Generation with Structurally Aligned Weight Spaces},
  author = {Jiwoo Kim and Swarajh Mehta and Hao-Lun Hsu and Hyunwoo Ryu and Yudong Liu and Miroslav Pajic},
  journal= {arXiv preprint arXiv:2603.00180},
  year   = {2026}
}
R2 v1 2026-07-01T10:56:23.238Z