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EMC$^2$: Efficient MCMC Negative Sampling for Contrastive Learning with Global Convergence

Machine Learning 2024-04-17 v1 Artificial Intelligence Computer Vision and Pattern Recognition Optimization and Control

Abstract

A key challenge in contrastive learning is to generate negative samples from a large sample set to contrast with positive samples, for learning better encoding of the data. These negative samples often follow a softmax distribution which are dynamically updated during the training process. However, sampling from this distribution is non-trivial due to the high computational costs in computing the partition function. In this paper, we propose an Efficient Markov Chain Monte Carlo negative sampling method for Contrastive learning (EMC2^2). We follow the global contrastive learning loss as introduced in SogCLR, and propose EMC2^2 which utilizes an adaptive Metropolis-Hastings subroutine to generate hardness-aware negative samples in an online fashion during the optimization. We prove that EMC2^2 finds an O(1/T)\mathcal{O}(1/\sqrt{T})-stationary point of the global contrastive loss in TT iterations. Compared to prior works, EMC2^2 is the first algorithm that exhibits global convergence (to stationarity) regardless of the choice of batch size while exhibiting low computation and memory cost. Numerical experiments validate that EMC2^2 is effective with small batch training and achieves comparable or better performance than baseline algorithms. We report the results for pre-training image encoders on STL-10 and Imagenet-100.

Keywords

Cite

@article{arxiv.2404.10575,
  title  = {EMC$^2$: Efficient MCMC Negative Sampling for Contrastive Learning with Global Convergence},
  author = {Chung-Yiu Yau and Hoi-To Wai and Parameswaran Raman and Soumajyoti Sarkar and Mingyi Hong},
  journal= {arXiv preprint arXiv:2404.10575},
  year   = {2024}
}

Comments

20 pages

R2 v1 2026-06-28T15:55:52.055Z