兆位超高密度3D垂直RRAM的选择器要求

2018 IEEE Symposium on VLSI Technology Pub Date : 2018-06-01 DOI:10.1109/VLSIT.2018.8510689

Zizhen Jiang, S. Qin, Haitong Li, S. Fujii, Dongjin Lee, S. Wong, H. Wong

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引用次数: 12

摘要

介绍了兆位级超高密度3D垂直电阻随机存取存储器(VRRAM)的选择器要求，包括实际设计考虑因素，如阵列效率(AE)、柱驱动晶体管(柱驱动)和导线/金属平面电阻。我们设计了一种不同于3D NAND的新型芯片架构:(a)在一个块内通过全局字面连接(WPC)连接的分离、方形和大字面(WP)，以最大限度地减少泄漏电流的影响;(b)紧凑的阶梯。开发了一个精确的、计算效率高的电阻网络来模拟该结构的寄生电阻。通过电阻器网络仿真，研究了三维VRRAM的选择器要求。要实现比最先进的3D NAND闪存(> 4.3 Gb/mm2)密度更高的太比特级3D VRRAM，需要选择器非线性(NL)≥102。

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Selector Requirements for Tera-Bit Ultra-High-Density 3D Vertical RRAM

Selector requirements for tera-bit class, ultra-high-density 3D vertical resistive random access memory (VRRAM) are presented, including practical design considerations such as array efficiency (AE), pillar driver transistors (pillar drivers), and wire/metal plane resistances. We design a novel chip architecture that is different from 3D NAND: (a) separated, square and large wordplane (WP) connected by global wordplane connections (WPC) within a block to minimize influence of leakage currents, (b) compact staircase. An accurate, computationally efficient resistor network is developed to model the parasitic resistances of the architecture. Through the resistor network simulations, selector requirements for 3D VRRAM are examined. To achieve tera-bit class 3D VRRAM with density higher than the most advanced 3D NAND flash (> 4.3 Gb/mm2), selector nonlinearity (NL) ≥ 102 is required.

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2018 IEEE Symposium on VLSI Technology

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