DGFN: Double Generative Flow Networks

Abstract

Deep learning is emerging as an effective tool in drug discovery, with potential applications in both predictive and generative models. Generative Flow Networks (GFlowNets/GFNs) are a recently introduced method recognized for the ability to generate diverse candidates, in particular in small molecule generation tasks. In this work, we introduce double GFlowNets (DGFNs). Drawing inspiration from reinforcement learning and Double Deep Q-Learning, we introduce a target network used to sample trajectories, while updating the main network with these sampled trajectories. Empirical results confirm that DGFNs effectively enhance exploration in sparse reward domains and high-dimensional state spaces, both challenging aspects of de-novo design in drug discovery.

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Cite

Text

Lau et al. "DGFN: Double Generative Flow Networks." NeurIPS 2023 Workshops: GenBio, 2023.

Markdown

[Lau et al. "DGFN: Double Generative Flow Networks." NeurIPS 2023 Workshops: GenBio, 2023.](https://mlanthology.org/neuripsw/2023/lau2023neuripsw-dgfn-a/)

BibTeX

@inproceedings{lau2023neuripsw-dgfn-a,
  title     = {{DGFN: Double Generative Flow Networks}},
  author    = {Lau, Elaine and Vemgal, Nikhil Murali and Precup, Doina and Bengio, Emmanuel},
  booktitle = {NeurIPS 2023 Workshops: GenBio},
  year      = {2023},
  url       = {https://mlanthology.org/neuripsw/2023/lau2023neuripsw-dgfn-a/}
}