Neuro-Symbolic Generative Diffusion Models for Physically Grounded, Robust, and Safe Generation

Despite the remarkable generative capabilities of diffusion models, their integration into safety-critical or scientifically rigorous applications remains hindered by the need to ensure compliance with stringent physical, structural, and operational constraints. To address this challenge, this paper introduces Neuro-Symbolic Diffusion (NSD), a novel framework that interleaves diffusion steps with symbolic optimization, enabling the generation of certifiably consistent samples under user-defined functional and logic constraints. This key feature is provided for both standard and discrete diffusion models, enabling, for the first time, the generation of both continuous (e.g., images and trajectories) and discrete (e.g., molecular structures and natural language) outputs that comply with constraints. This ability is demonstrated on tasks spanning three key challenges: (1) Safety, in the context of non-toxic molecular generation and collision-free trajectory optimization; (2) Data scarcity, in domains such as drug discovery and materials engineering; and (3) Out-of-domain generalization, where enforcing symbolic constraints allows adaptation beyond the training distribution.

@article{christopher2025_2506.01121,
  title={ Neuro-Symbolic Generative Diffusion Models for Physically Grounded, Robust, and Safe Generation },
  author={ Jacob K. Christopher and Michael Cardei and Jinhao Liang and Ferdinando Fioretto },
  journal={arXiv preprint arXiv:2506.01121},
  year={ 2025 }
}