基于HfOx的无单元选择器的高性价比三维交叉点结构垂直电阻随机存取存储器

2012 International Electron Devices Meeting Pub Date : 2012-12-01 DOI:10.1109/IEDM.2012.6479083

Hong-Yu Chen, Shimeng Yu, B. Gao, Peng Huang, Jinfeng Kang, H. Wong

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引用次数: 133

摘要

采用具有成本效益的制造工艺，演示了用于3D交叉点架构的双层堆叠HfOx垂直RRAM。电极/氧化物界面工程使用的钛层导致非线性I-V适合无选择器阵列。制备的HfOx垂直RRAM具有良好的复位电流(108个周期)、半选择读干扰抗扰(>109个周期)、保持(>105s @125℃)等性能。此外，针对三维交叉点结构，提出了一种独特的写/读方案。分析表明，对于这种3D无选择器阵列，来自非线性I-V的大Ron (~100kΩ)有助于减少偷行路径电流，并且使用金属平面作为字线的低互连电阻减少了互连上的不良电压降。作为保守估计，仿真结果表明，没有小区选择器的mb级阵列是可以实现的。

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HfOx based vertical resistive random access memory for cost-effective 3D cross-point architecture without cell selector

Double-layer stacked HfOx vertical RRAM is demonstrated for 3D cross-point architecture using a cost-effective fabrication process. Electrode/oxide interface engineering using TiON layer results in non-linear I-V suitable for the selector-less array. The fabricated HfOx vertical RRAM shows excellent performances such as reset current (<;50μA), switching speed (~50ns), switching endurance (>108 cycles), half-selected read disturbance immunity (>109 cycles), retention (>105s @125oC). Moreover, a unique write/read scheme is proposed for 3D cross-point architecture. Analysis shows that for such 3D selector-less array, a large Ron (~100kΩ) from the non-linear I-V helps reduce the sneak path current, and a low interconnect resistance using metal planes as word lines reduces the undesirable voltage drop on the interconnect. As a conservative estimate, simulation shows that Mb-scale array without cell selector is achievable.

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2012 International Electron Devices Meeting

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