2015
DOI: 10.1109/jssc.2014.2352293
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Three-Dimensional 128 Gb MLC Vertical nand Flash Memory With 24-WL Stacked Layers and 50 MB/s High-Speed Programming

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Cited by 189 publications
(109 citation statements)
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“…In the following, we will review the reliability issues in 3D NAND within the same framework adopted so far: we will only discuss issues that become relevant with P/E cycling or repetitive data read, neglecting those associated, for example, with V T placement, string resistance and time-0 variability. Figure 35 shows the endurance performance of a 3D NAND cell as a function of N C [286] and the V T distribution for a NAND array after heavy cycling [22]. Because of the larger cell size, 3D NAND are reported to have better endurance properties with respect to their planar counterpart, as also claimed in [293][294][295][296], where an endurance of 5-7 k P/E cycles is reported for a TLC 3D NAND.…”
Section: D Nand Reliabilitymentioning
confidence: 57%
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“…In the following, we will review the reliability issues in 3D NAND within the same framework adopted so far: we will only discuss issues that become relevant with P/E cycling or repetitive data read, neglecting those associated, for example, with V T placement, string resistance and time-0 variability. Figure 35 shows the endurance performance of a 3D NAND cell as a function of N C [286] and the V T distribution for a NAND array after heavy cycling [22]. Because of the larger cell size, 3D NAND are reported to have better endurance properties with respect to their planar counterpart, as also claimed in [293][294][295][296], where an endurance of 5-7 k P/E cycles is reported for a TLC 3D NAND.…”
Section: D Nand Reliabilitymentioning
confidence: 57%
“…Such a device was shown to exhibit superior performance with respect to a conventional vertical nanowire transistor, because of the high defectivity in the central region that plagued the performance of the latter structure. The gate stack of today's 3D NAND can be based on either a floating gate [23,[287][288][289][290][291], similar to planar NAND devices, or a charge-trap stack similar to an oxide/nitride/oxide (ONO) layer, where the charge is stored in traps within the nitride layer [10,11,22,292].…”
Section: D Nand Reliabilitymentioning
confidence: 99%
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“…The endurance might need to spend several thousands of hours for practical testing of a single NAND device around 2019 [5]. This testing time is going to continuously increase due to the appearance of the high capacity three dimensional flash devices [6,7] beyond the two dimensional process. Consequently, the test cost associated with the increase in testing time could be the most important factor for the device cost [8][9][10].…”
Section: Introductionmentioning
confidence: 99%