M. Pešić, Bastien Beltrando, Tommaso Rollo, C. Zambelli, A. Padovani, R. Micheloni, R. Maji, Lisa Enman, M. Saly, Yang Ho Bae, Jung Bae Kim, D. Yim, L. Larcher
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引用次数: 0
摘要
3D NAND的持续缩放和存储密度的增加需要最小化和控制可变性源。在各种可靠性挑战中,交叉温度现象被认为是最先进的3D NAND器件可靠性限制因素之一。从交叉温度效应由多晶通道和高温下的保留损失主导的假设出发,我们:(1)捕获并量化Page内细胞间的变异性来源;(2)提供第一种材料和器件驱动的见解(重点是多晶硅)及其对Page和String交叉温度的影响;(3)将它们与tlc编码的3D NAND的故障位联系起来。
Insights into device and material origins and physical mechanisms behind cross temperature in 3D NAND
Continuation of the scaling and increase of the storage density of the 3D NAND requires minimization and control of variability sources. Among the various reliability challenges, cross-temperature phenomena are considered as one of the reliability limiting factors of state-of-the-art 3D NAND devices. Starting from hypothesis that cross temperature effects are dominated by polycrystalline channel and retention loss at elevated temperature, we: (1) capture and quantify cell-to-cell variability sources within the Page; (2) provide first material and device driven insight (focusing on polyslicon) and its impact on cross-temperature along the Page and String and (3) link them with fail-bits of TLC-encoded 3D NAND.
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