Random Coordinate Underdamped Langevin Monte Carlo

Zhiyan Ding, Qin Li, Jianfeng Lu, Stephen Wright

AISTATS 2021 pp. 2701-2709

/aistats/2021/ding2021aistats-random/

Abstract

The Underdamped Langevin Monte Carlo (ULMC) is a popular Markov chain Monte Carlo sampling method. It requires the computation of the full gradient of the log-density at each iteration, an expensive operation if the dimension of the problem is high. We propose a sampling method called Random Coordinate ULMC (RC-ULMC), which selects a single coordinate at each iteration to be updated and leaves the other coordinates untouched. We investigate the computational complexity of RC-ULMC and compare it with the classical ULMC for strongly log-concave probability distributions. We show that RC-ULMC is always cheaper than the classical ULMC, with a significant cost reduction when the problem is highly skewed and high dimensional. Our complexity bound for RC-ULMC is also tight in terms of dimension dependence.

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Cite

Text

Ding et al. "Random Coordinate Underdamped Langevin Monte Carlo." Artificial Intelligence and Statistics, 2021.

Markdown

[Ding et al. "Random Coordinate Underdamped Langevin Monte Carlo." Artificial Intelligence and Statistics, 2021.](https://mlanthology.org/aistats/2021/ding2021aistats-random/)

BibTeX

@inproceedings{ding2021aistats-random,
  title     = {{Random Coordinate Underdamped Langevin Monte Carlo}},
  author    = {Ding, Zhiyan and Li, Qin and Lu, Jianfeng and Wright, Stephen},
  booktitle = {Artificial Intelligence and Statistics},
  year      = {2021},
  pages     = {2701-2709},
  volume    = {130},
  url       = {https://mlanthology.org/aistats/2021/ding2021aistats-random/}
}