JISE


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Journal of Information Science and Engineering, Vol. 31 No. 2, pp. 547-572


HR6TAP: A Hybrid RAID6 Storage Architecture Tracking Data to Any Point-in-time for Enterprise Applications


LINGFANG ZENG1, CHAO JIN2, BHARADWAJ VEERAVALLI3 AND DAN FENG1 
1Wuhan National Laboratory for Optoelectronics 
School of Computer 
Huazhong University of Science and Technology 
Wuhan, 430074 P.R. China 
2Data Storage Institute 
117608 Singapore 
3Department of Electrical and Computer Engineering 
National University of Singapore 
117576 Singapore 
E-mail: {lfzeng; dfeng}@hust.edu.cn; jin_chao@dsi.a-star.edu.sg; elebv@nus.edu.sg


    Both physical disk failure and logical errors may cause data loss for enterprise applications. It is imperative to adequately detect anomalous events and identify malicious activity that would affect Cloud users’ data assets. It is therefore becoming increasingly important for RAID-based storage systems to be able to track data changing of any pointin- time and to provide Continuous Data Protection (CDP). We propose a novel hybrid RAID6 architecture, referred to as, HR6TAP, which is able to provide block level data changing information for detection and subsequent analysis of incidents and to recover data from both arbitrary two concurrent disk failures and logical errors. We developed three flavors of HR6TAP, that is, HR6TAP-RL/SL/ML, which have their own characteristics. Extensive trace-driven evaluations by using DBT-2 and file system benchmarks demonstrate that the proposed HR6TAP scheme outperforms existing HDD-based or SSD-based RAID6 in terms of performance, energy efficiency, failure recovery ability and reliability.


Keywords: redundant arrays of independent disks, solid state drive, hard disk drive, performance evaluation, reliability analysis

  Retrieve PDF document (JISE_201502_11.pdf)