基于固态硬盘的3D TLC闪存重新编程

Congming Gao, Min Ye, C. Xue, Youtao Zhang, Liang Shi, J. Shu, Jun Yang
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引用次数: 2

摘要

基于NAND闪存的固态硬盘已被广泛采用。SSD的缩放已经从平面(2D)发展到3D堆叠。出于可靠性和其他原因,3D NAND SSD的技术节点比2D大,但可以通过增加每单元比特数来增加数据密度。在这项工作中,我们为3D NAND SSD中的tlc开发了一种新的重编程方案,这样一个单元可以在擦除之前多次编程和重编程。这种重编程可以提高单元的寿命和编程速度,并增加每个程序/擦除周期写入单元的比特量,即有效容量。我们的工作是第一次进行真正的3D NAND SSD测试,以验证重编程操作的可行性。从收集的数据中,我们得出了由于可靠性挑战而执行重编程的限制。此外,一个可重新编程的SSD (ReSSD)被设计用来组织重新编程操作。以RAID 5系统(RSS-RAID)为例,对ReSSD进行了评估。实验结果表明,与传统的基于3D ssd的RAID 5系统相比,RSS-RAID的持久性能提高了35.7%,写性能提高了15.9%,有效容量提高了7.71%,开销可以忽略不计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reprogramming 3D TLC Flash Memory based Solid State Drives
NAND flash memory-based SSDs have been widely adopted. The scaling of SSD has evolved from plannar (2D) to 3D stacking. For reliability and other reasons, the technology node in 3D NAND SSD is larger than in 2D, but data density can be increased via increasing bit-per-cell. In this work, we develop a novel reprogramming scheme for TLCs in 3D NAND SSD, such that a cell can be programmed and reprogrammed several times before it is erased. Such reprogramming can improve the endurance of a cell and the speed of programming, and increase the amount of bits written in a cell per program/erase cycle, i.e., effective capacity. Our work is the first to perform a real 3D NAND SSD test to validate the feasibility of the reprogram operation. From the collected data, we derive the restrictions of performing reprogramming due to reliability challenges. Furthermore, a reprogrammable SSD (ReSSD) is designed to structure reprogram operations. ReSSD is evaluated in a case study in RAID 5 system (RSS-RAID). Experimental results show that RSS-RAID can improve the endurance by 35.7%, boost write performance by 15.9%, and increase effective capacity by 7.71%, with negligible overhead compared with conventional 3D SSD-based RAID 5 system.
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