In modern energy-saving replication storage systems, a primary group of disks is always powered up to serve incoming requests while other disks are often spun down to save energy during slack periods. However, since new writes cannot be immediately synchronized into all disks, system reliability is degraded. In this paper, we develop a high-reliability and energy-efficient replication storage system, named RERAID, based on RAID10. RERAID employs part of the free space in the primary disk group and uses erasure coding to construct a code cache at the front end to absorb new writes. Since code cache supports failure recovery of two or more disks by using erasure coding, RERAID guarantees a reliability comparable with that of the RAID10 storage system. In addition, we develop an algorithm, called erasure coding write (ECW), to buffer many small random writes into a few large writes, which are then written to the code cache in a parallel fashion sequentially to improve the write performance. Experimental results show that RERAID significantly improves write performance and saves more energy than existing solutions.

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reraid algorithm failure recovery code cache erasure coding write ecw reliability write performance highreliability and energyefficient replication storage system random solutions periods

Da-ping Li,Xiao-yang Qu,Chang-sheng Xie,Chao Yin,Ji-guang Wan,Jun Wang,.A reliable and energy-efficient storage system with erasure coding cache. 18 (9),1370–1384.

Da-ping Li, et al."A reliable and energy-efficient storage system with erasure coding cache" 18

Da-ping Li,Xiao-yang Qu,Chang-sheng Xie,Chao Yin,Ji-guang Wan,Jun Wang,"A reliable and energy-efficient storage system with erasure coding cache"