Title :
CWC: Compressed Write Cache for Improving Storage System Performance
Author :
Wu, Suzhen ; Feng, Dan ; Mao, Bo
Author_Institution :
Wuhan Nat. Lab. for Optoelectron., Wuhan, China
Abstract :
Fast non-volatile storage, such as non-volatile RAM and battery-backed volatile RAM, is widely deployed as the write cache in the storage controller to hide the latency of writes and prevent data loss. Due to the high cost of nonvolatile RAM and the short life of battery, the write cache is always much smaller than the read cache. To extend the size of write cache, we propose a Compressed Write Cache (CWC) in the storage controller using an adaptive compression scheme. Our prototype implementation of CWC and extensive trace-driven evaluation results show that the average user response time reduces by up to 30.1% and the destage count reduces by up to 31.3%. The benchmark experiments show that CWC gets improvement up to 32% in IOPS and 24.2% in average response time while degrades performance by 1.2% in the sequential access case.
Keywords :
cache storage; data compression; random-access storage; adaptive compression scheme; average response time; battery-backed volatile RAM; compressed write cache; data loss prevention; nonvolatile RAM; nonvolatile storage; sequential access case; storage controller; storage system performance improvement; Adaptive control; Batteries; Cache storage; Costs; Degradation; Delay; Programmable control; Prototypes; Size control; System performance; RAID; adaptive compression; performance; storage system; write cache;
Conference_Titel :
Frontier of Computer Science and Technology, 2009. FCST '09. Fourth International Conference on
Conference_Location :
Shanghai
Print_ISBN :
978-0-7695-3932-4
Electronic_ISBN :
978-1-4244-5467-9
DOI :
10.1109/FCST.2009.56
