Straw: A Stress-Aware WL-Based Read Reclaim Technique for High-Density NAND Flash-Based SSDs

Straw: A Stress-Aware WL-Based Read Reclaim Technique for High-Density NAND Flash-Based SSDs

Although read disturbance has emerged as a major reliability concern, managing read disturbance in modern NAND flash memory has not been thoroughly investigated yet. From a device characterization study using real modern NAND flash memory, we observe that reading a page incurs heterogeneous reliabil...

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Veröffentlicht in:IEEE computer architecture letters 2025-01, Vol.24 (1), p.5-8
Hauptverfasser: Chun, Myoungjun, Lee, Jaeyong, Choi, Inhyuk, Park, Jisung, Kim, Myungsuk, Kim, Jihong
Format: Artikel
Sprache:eng
Schlagworte:
Data reliability
Flash memories
NAND flash memory
read disturbance
Reliability
Reliability engineering
Semiconductor device measurement
Solid modeling
solid-state drive (SSD)
Stacking
Stress
Target tracking
Three-dimensional displays
Tunneling
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Zusammenfassung:Although read disturbance has emerged as a major reliability concern, managing read disturbance in modern NAND flash memory has not been thoroughly investigated yet. From a device characterization study using real modern NAND flash memory, we observe that reading a page incurs heterogeneous reliability impacts on each WL, which makes the existing block-level read reclaim extremely inefficient. We propose a new WL-level read-reclaim technique, called Straw , which keeps track of the accumulated read-disturbance effect on each WL and reclaims only heavily-disturbed WLs. By avoiding unnecessary read-reclaim operations, Straw reduces read-reclaim-induced page writes by 83.6% with negligible storage overhead.
ISSN:1556-6056
DOI:10.1109/LCA.2024.3516205