CSEA: A Fine-Grained Framework of Climate-Season-Based Energy-Aware in Cloud Storage Systems

• Published in: Computer journal Vol. 67; no. 2; pp. 423 - 436
• Main Authors: Yuan, Zhu, Lv, Xueqiang, Xie, Ping, Ge, Haojie, You, Xindong
• Format: Journal Article
• Language: English
• Published: Oxford University Press 17.02.2024
• Subjects: fusion feature; saving energy consumption and operating cost; data distribution; fine-grained framework; data classification
• ISSN: 0010-4620; 1460-2067
• DOI: 10.1093/comjnl/bxac184

Continuous data scale growth increases energy consumption and operating cost that cannot be ignored in cloud storage systems. Previous studies have shown that analyzing the characteristics of I/O access and mining data features is effective for reasonable data distribution in storage systems. The granularity and criterion of classification are the key factors in determining the data distribution. To decrease energy consumption and operating cost, this paper puts forward a fine-grained framework of the climatic-season-based energy-aware in cloud storage system called CSEA. The framework concludes the following three aspects: (i) data feature mining. CSEA discovers potential data features by analyzing data access to provide help with data classification. (ii) K-means clustering algorithm. CSEA uses an unsupervised data classification algorithm in machine learning to divide data into categories based on seasonal characteristics by gathering real I/O access. (iii) data distribution of fine-grained. On the basis of seasonal features, CSEA fuses regional features to further refine the data distribution granularity to save on energy consumption and operating cost. Simulation experiments using extended CloudSimDisk and the constructed mathematical models indicate that CSEA reduces the energy consumption and operating cost compared with the single data classification standard and coarse-grained data distribution.