Optimizing Tail Latency of LDPC based Flash Memory Storage Systems Via Smart Refresh

Abstract

Flash memory has been developed with bit density improvement, technology scaling, and 3D stacking. With this trend, its reliability has been degraded significantly. Error correction code, low density parity code (LDPC), which has strong error correction capability, has been employed to solve this issue. However, one of the critical issues of LDPC is that it would introduce a long decoding latency on devices with low reliability. In this case, tail latency would happen, which will significantly impact the quality of service (QoS). In this work, a set of smart refresh schemes is proposed to optimize the tail latency. The basic idea of the work is to refresh data when the accessed data has a long decoding latency. Two smart refresh schemes are proposed for this work: The first refresh scheme is designed to refresh long access latency data when it is accessed several times for access performance optimization; The second refresh scheme is designed to periodical detecting data with extremely long access latency and refreshing them for tail latency optimization. Experiment results show that the proposed schemes are able to significantly improve the tail latency and access performance with little overhead.