将逻辑晶体管转变为安全，多时间可编程，嵌入式非易失性存储器元件，用于14纳米FINFET技术及以后

2019 Symposium on VLSI Technology Pub Date : 2019-06-01 DOI:10.23919/VLSIT.2019.8776510

F. Khan, D. Moy, D. Anand, E. Schroeder, R. Katz, L. Jiang, E. Banghart, N. Robson, T. Kirihata

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引用次数: 7

摘要

描述了一种安全的多时间可编程存储器(MTPM)解决方案，适用于14nm及以上的FINFET节点，它将制造的标准逻辑晶体管转变为嵌入式非易失性存储器(eNVM)元件，而无需任何工艺加法器或额外掩模。这些逻辑晶体管，当用作eNVM元件时，被称为“电荷陷阱晶体管”(cts)。概述了采用逻辑晶体管作为MTPM所需的技术突破。引入了一种名为“自加热温度辅助擦除”(STAR)的擦除技术，与传统方法的< 50%擦除效率相比，该技术可实现100%的擦除效率，从而实现ctt的MTPM功能。硬件结果第一次证明了$> 10^{4}$程序/擦除周期的持久性。125°C下的数据保留寿命> 10年，可扩展到7纳米。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Turning Logic Transistors into Secure, Multi-Time Programmable, Embedded Non-Volatile Memory Elements for 14 nm FINFET Technologies and Beyond

Described is a secure, multi-time programmable memory (MTPM) solution for the 14 nm FINFET node and beyond, which turns as-fabricated standard logic transistors into embedded non-volatile memory (eNVM) elements, without the need for any process adders or additional masks. These logic transistors, when employed as eNVM elements, are dubbed “Charge Trap Transistors” (CTTs). Outlined are the technological breakthroughs required for employing logic transistors as an MTPM. An erase technique, called “Self-heating Temperature Assisted eRase” (STAR), is introduced which enables 100% erase efficiency, as compared to $< 50\%$ erase efficiency using conventional methods, in turn enabling MTPM functionality in CTTs. For the first time, hardware results demonstrate an endurance of $> 10^{4}$ program/erase cycles. Data retention lifetime of $> 10$ years at 125°C and scalability to 7 nm have been confirmed.

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2019 Symposium on VLSI Technology

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