Learning Straight Flows by Learning Curved Interpolants
Abstract
Flow matching models typically use linear interpolants to define the forward/noise addition process. This, together with the independent coupling between noise and target distributions, yields a vector field which is often non-straight. Such curved fields lead to a slow inference/generation process. In this work, we propose to learn flexible (potentially curved) interpolants in order to learn straight vector fields to enable faster generation. We formulate this via a multi-level optimization problem and propose an efficient approximate procedure to solve it. Our framework provides an end-to-end and simulation-free optimization procedure, which can be leveraged to learn straight line generative trajectories.
Cite
Text
Shankar and Geffner. "Learning Straight Flows by Learning Curved Interpolants." ICLR 2025 Workshops: DeLTa, 2025.Markdown
[Shankar and Geffner. "Learning Straight Flows by Learning Curved Interpolants." ICLR 2025 Workshops: DeLTa, 2025.](https://mlanthology.org/iclrw/2025/shankar2025iclrw-learning/)BibTeX
@inproceedings{shankar2025iclrw-learning,
title = {{Learning Straight Flows by Learning Curved Interpolants}},
author = {Shankar, Shiv and Geffner, Tomas},
booktitle = {ICLR 2025 Workshops: DeLTa},
year = {2025},
url = {https://mlanthology.org/iclrw/2025/shankar2025iclrw-learning/}
}