NS-FTL: Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN

Wei Chun Cheng; Shuo Han Chen; Yuan Hao Chang; Kuan Hsun Chen; Jian Jia Chen; Tseng Yi Chen; Ming Chang Yang; Wei Kuan Shih

doi:10.1109/NVMSA51238.2020.9188172

NS-FTL: Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN

Wei Chun Cheng, Shuo Han Chen, Yuan Hao Chang, Kuan Hsun Chen, Jian Jia Chen, Tseng Yi Chen, Ming Chang Yang, Wei Kuan Shih

Department of Computer Science and Information Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

Non-Volatile random access memory (NVRAM) has been regarded as a promising DRAM alternative with its nonvolatility, near-zero idle power consumption, and byte addressability. In particular, some NVRAM devices, such as Spin Torque Transfer (STT) RAM, can provide the same or better access performance and lower power consumption when compared with dynamic random access memory (DRAM). These nice features make NVRAM become an attractive DRAM replacement on NAND flash storage for resolving the management overhead of the flash translation layer (FTL). For instance, when adopting NVRAM for storing the mapping entries of FTL, the overheads of loading and storing the mapping entries between the non-volatile NAND flash and the volatile DRAM can be eliminated. Nevertheless, due to the limited lifetime constraint of NVRAM, the bit-level update behavior of FTL may lead to the issue of uneven bit-level wearing and the lifetime capacity of those less-worn NVRAM cells could be underutilized. Such an observation motivates this study to utilize the emerging NAND-like Spin Torque Transfer memory (NAND-SPIN) for alleviating the uneven bit-level wearing of NVRAM-based FTL and making the best of the lifetime capacity of each NAND-SPIN cell. The experimental results show that the proposed design can effectively avoid the uneven bit-level wearing, when compared with page-based FTL on NAND-SPIN.

Original language	English
Title of host publication	Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781728184821
DOIs	https://doi.org/10.1109/NVMSA51238.2020.9188172
State	Published - Aug 2020
Event	9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020 - Virtual, Seoul, Korea, Republic of Duration: 19 Aug 2020 → 21 Aug 2020

Publication series

Name	Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020

Conference

Conference	9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020
Country/Territory	Korea, Republic of
City	Virtual, Seoul
Period	19/08/20 → 21/08/20

Keywords

FTL
NAND Flash
NAND-SPIN
NVRAM

Access to Document

10.1109/NVMSA51238.2020.9188172

Cite this

Cheng, W. C., Chen, S. H., Chang, Y. H., Chen, K. H., Chen, J. J., Chen, T. Y., Yang, M. C., & Shih, W. K. (2020). NS-FTL: Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN. In Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020 [9188172] (Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/NVMSA51238.2020.9188172

Cheng, Wei Chun ; Chen, Shuo Han ; Chang, Yuan Hao et al. / NS-FTL : Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN. Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020. Institute of Electrical and Electronics Engineers Inc., 2020. (Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020).

@inproceedings{aeb36b463c394d7683823385103b0006,

title = "NS-FTL: Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN",

abstract = "Non-Volatile random access memory (NVRAM) has been regarded as a promising DRAM alternative with its nonvolatility, near-zero idle power consumption, and byte addressability. In particular, some NVRAM devices, such as Spin Torque Transfer (STT) RAM, can provide the same or better access performance and lower power consumption when compared with dynamic random access memory (DRAM). These nice features make NVRAM become an attractive DRAM replacement on NAND flash storage for resolving the management overhead of the flash translation layer (FTL). For instance, when adopting NVRAM for storing the mapping entries of FTL, the overheads of loading and storing the mapping entries between the non-volatile NAND flash and the volatile DRAM can be eliminated. Nevertheless, due to the limited lifetime constraint of NVRAM, the bit-level update behavior of FTL may lead to the issue of uneven bit-level wearing and the lifetime capacity of those less-worn NVRAM cells could be underutilized. Such an observation motivates this study to utilize the emerging NAND-like Spin Torque Transfer memory (NAND-SPIN) for alleviating the uneven bit-level wearing of NVRAM-based FTL and making the best of the lifetime capacity of each NAND-SPIN cell. The experimental results show that the proposed design can effectively avoid the uneven bit-level wearing, when compared with page-based FTL on NAND-SPIN. ",

keywords = "FTL, NAND Flash, NAND-SPIN, NVRAM",

author = "Cheng, {Wei Chun} and Chen, {Shuo Han} and Chang, {Yuan Hao} and Chen, {Kuan Hsun} and Chen, {Jian Jia} and Chen, {Tseng Yi} and Yang, {Ming Chang} and Shih, {Wei Kuan}",

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Cheng, WC, Chen, SH, Chang, YH, Chen, KH, Chen, JJ, Chen, TY, Yang, MC & Shih, WK 2020, NS-FTL: Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN. in Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020., 9188172, Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020, Institute of Electrical and Electronics Engineers Inc., 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020, Virtual, Seoul, Korea, Republic of, 19/08/20. https://doi.org/10.1109/NVMSA51238.2020.9188172

NS-FTL: Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN. / Cheng, Wei Chun; Chen, Shuo Han; Chang, Yuan Hao et al.
Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020. Institute of Electrical and Electronics Engineers Inc., 2020. 9188172 (Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Chen, Jian Jia

AU - Chen, Tseng Yi

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AB - Non-Volatile random access memory (NVRAM) has been regarded as a promising DRAM alternative with its nonvolatility, near-zero idle power consumption, and byte addressability. In particular, some NVRAM devices, such as Spin Torque Transfer (STT) RAM, can provide the same or better access performance and lower power consumption when compared with dynamic random access memory (DRAM). These nice features make NVRAM become an attractive DRAM replacement on NAND flash storage for resolving the management overhead of the flash translation layer (FTL). For instance, when adopting NVRAM for storing the mapping entries of FTL, the overheads of loading and storing the mapping entries between the non-volatile NAND flash and the volatile DRAM can be eliminated. Nevertheless, due to the limited lifetime constraint of NVRAM, the bit-level update behavior of FTL may lead to the issue of uneven bit-level wearing and the lifetime capacity of those less-worn NVRAM cells could be underutilized. Such an observation motivates this study to utilize the emerging NAND-like Spin Torque Transfer memory (NAND-SPIN) for alleviating the uneven bit-level wearing of NVRAM-based FTL and making the best of the lifetime capacity of each NAND-SPIN cell. The experimental results show that the proposed design can effectively avoid the uneven bit-level wearing, when compared with page-based FTL on NAND-SPIN.

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Cheng WC, Chen SH, Chang YH, Chen KH, Chen JJ, Chen TY et al. NS-FTL: Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN. In Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020. Institute of Electrical and Electronics Engineers Inc. 2020. 9188172. (Proceedings - 9th IEEE Non-Volatile Memory Systems and Applications Symposium, NVMSA 2020). doi: 10.1109/NVMSA51238.2020.9188172

NS-FTL: Alleviating the Uneven Bit-Level Wearing of NVRAM-based FTL via NAND-SPIN

Abstract

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Keywords

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