基于机器学习的大容量V-NAND闪存优化技术

ISTFA 2021: Conference Proceedings from the 47th International Symposium for Testing and Failure Analysis Pub Date : 2021-10-31 DOI:10.31399/asm.cp.istfa2021p0020

Jisuk Kim, Earl Kim, Daehyeon Lee, Taeheon Lee, Daesik Ham, Miju Yang, Wanha Hwang, Jaeyoung Kim, Sangyong Yoon, Youngwook Jeong, Eun-Kyoung Kim, Ki-Whan Song, J. Song, Myungsuk Kim, W. Choi

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摘要

在NAND闪存制造过程中，为了优化性能和有效性，需要对数千个内部电子保险丝(eFuse)进行调谐。在本文中，我们提出了一种基于机器学习的优化技术，该技术可以基于深度学习和遗传算法自动调整单个eFuse值。使用最先进的三层单元(TLC) V-NAND闪存晶圆，我们训练了我们的模型并验证了其有效性。实验结果表明，我们的技术可以自动优化NAND闪存，从而使总周转时间(TAT)比基于人工的过程减少70%。

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Machine Learning-Based Optimization Technique for High-Capacity V-NAND Flash Memory

In the NAND flash manufacturing process, thousands of internal electronic fuses (eFuse) should be tuned in order to optimize performance and validity. In this paper, we propose a machine learning-based optimization technique that can automatically tune the individual eFuse value based on a deep learning and genetic algorithm. Using state-of-the-art triple-level cell (TLC) V-NAND flash wafers, we trained our model and validated its effectiveness. The experimental results show that our technique can automatically optimize NAND flash memory, thus reducing total turnaround time (TAT) by 70 % compared with the manual-based process.

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ISTFA 2021: Conference Proceedings from the 47th International Symposium for Testing and Failure Analysis

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