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A selective review on statistical methods for massive data computation: distributed computing, subsampling, and minibatch techniques

Author

Listed:
  • Xuetong Li
  • Yuan Gao
  • Hong Chang
  • Danyang Huang
  • Yingying Ma
  • Rui Pan
  • Haobo Qi
  • Feifei Wang
  • Shuyuan Wu
  • Ke Xu
  • Jing Zhou
  • Xuening Zhu
  • Yingqiu Zhu
  • Hansheng Wang

Abstract

This paper presents a selective review of statistical computation methods for massive data analysis. A huge amount of statistical methods for massive data computation have been rapidly developed in the past decades. In this work, we focus on three categories of statistical computation methods: (1) distributed computing, (2) subsampling methods, and (3) minibatch gradient techniques. The first class of literature is about distributed computing and focuses on the situation, where the dataset size is too huge to be comfortably handled by one single computer. In this case, a distributed computation system with multiple computers has to be utilized. The second class of literature is about subsampling methods and concerns about the situation, where the blacksample size of dataset is small enough to be placed on one single computer but too large to be easily processed by its memory as a whole. The last class of literature studies those minibatch gradient related optimization techniques, which have been extensively used for optimizing various deep learning models.

Suggested Citation

  • Xuetong Li & Yuan Gao & Hong Chang & Danyang Huang & Yingying Ma & Rui Pan & Haobo Qi & Feifei Wang & Shuyuan Wu & Ke Xu & Jing Zhou & Xuening Zhu & Yingqiu Zhu & Hansheng Wang, 2024. "A selective review on statistical methods for massive data computation: distributed computing, subsampling, and minibatch techniques," Statistical Theory and Related Fields, Taylor & Francis Journals, vol. 8(3), pages 163-185, July.
    • Handle: RePEc:taf:tstfxx:v:8:y:2024:i:3:p:163-185
    DOI: 10.1080/24754269.2024.2343151
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