Affiliation:
1. National Chiao-Tung University, Hsinchu, Taiwan
Abstract
Multilevel flash memory cells double or even triple storage density, producing affordable solid-state disks for end users. As flash memory endures only limited program-erase cycles, solid-state disks employ wear-leveling methods to prevent any portions of flash memory from being retired prematurely. Modern solid-state disks must consider wear evenness at both block and channel levels. This study first presents a block-level wear-leveling method whose design has two new ideas. First, the proposed method reuses the intelligence available in flash-translation layers so it does not require any new data structures. Second, it adaptively tunes the threshold of block-level wear leveling according to the runtime write pattern. This study further introduces a new channel-level wear-leveling strategy, because block-level wear leveling is confined to a channel, but realistic workloads do not evenly write all channels. The proposed method swaps logical blocks among channels for achieving an eventually-even state of channel lifetimes. A series of trace-driven simulations show that our wear-leveling method outperforms existing approaches in terms of wear evenness and overhead reduction.
Funder
ADATA Technology Co., Ltd.
National Science Council Taiwan
Publisher
Association for Computing Machinery (ACM)
Subject
Hardware and Architecture,Software
Cited by
15 articles.
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