3D resistive RAM cell design for high-density storage class memory—a review

被引:0
作者
Boris Hudec
Chung-Wei Hsu
I-Ting Wang
Wei-Li Lai
Che-Chia Chang
Taifang Wang
Karol Fröhlich
Chia-Hua Ho
Chen-Hsi Lin
Tuo-Hung Hou
机构
[1] National Chiao-Tung University,Department of Electronics Engineering and Institute of Electronics
[2] Slovak Academy of Sciences,Institute of Electrical Engineering
[3] Winbond Electronics Corporation,undefined
来源
Science China Information Sciences | 2016年 / 59卷
关键词
RRAM; ReRAM; resistive switching; crossbar; cross-point; storage class memory; 3D integration; atomic layer deposition; selector;
D O I
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中图分类号
学科分类号
摘要
In this article, we comprehensively review recent progress in the ReRAM cell technology for 3D integration focusing on a material/device level. First we briefly mention pioneering work on high-density crossbar ReRAM arrays which paved the way to 3D integration. We discuss the two main proposed 3D integration schemes—3D horizontally stacked ReRAM vs 3D Vertical ReRAM and their respective advantages and disadvantages. We follow with the detailed memory cell design on important work in both areas, utilizing either filamentary or interface-limited switching mechanisms. We also discuss our own contributions on HfO2-based filamentary 3D Vertical ReRAM as well as TaOx/TiO2 bilayer-based self-rectifying 3D Vertical ReRAM. Finally, we summarize the present status and provide an outlook for the nearterm future.
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