UQ-Guided Hyperparameter Optimization for Iterative Learners
Abstract
Hyperparameter Optimization (HPO) plays a pivotal role in unleashing the potential of iterative machine learning models. This paper addresses a crucial aspect that has largely been overlooked in HPO: the impact of uncertainty in ML model training. The paper introduces the concept of uncertainty-aware HPO and presents a novel approach called the UQ-guided scheme for quantifying uncertainty. This scheme offers a principled and versatile method to empower HPO techniques in handling model uncertainty during their exploration of the candidate space.By constructing a probabilistic model and implementing probability-driven candidate selection and budget allocation, this approach enhances the quality of the resulting model hyperparameters. It achieves a notable performance improvement of over 50\% in terms of accuracy regret and exploration time.
Cite
Text
Liu et al. "UQ-Guided Hyperparameter Optimization for Iterative Learners." Neural Information Processing Systems, 2024. doi:10.52202/079017-0013Markdown
[Liu et al. "UQ-Guided Hyperparameter Optimization for Iterative Learners." Neural Information Processing Systems, 2024.](https://mlanthology.org/neurips/2024/liu2024neurips-uqguided/) doi:10.52202/079017-0013BibTeX
@inproceedings{liu2024neurips-uqguided,
title = {{UQ-Guided Hyperparameter Optimization for Iterative Learners}},
author = {Liu, Jiesong and Zhang, Feng and Guan, Jiawei and Shen, Xipeng},
booktitle = {Neural Information Processing Systems},
year = {2024},
doi = {10.52202/079017-0013},
url = {https://mlanthology.org/neurips/2024/liu2024neurips-uqguided/}
}