New 4T-based DRAM cell designs

ACM Great Lakes Symposium on VLSI Pub Date : 2014-05-20 DOI:10.1145/2591513.2591515

Wei Wei, K. Namba, F. Lombardi

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引用次数: 1

Abstract

Dynamic Random Access Memories (DRAM) are widely used in processor design. Different cells have been proposed in the past to overcome concerns associated with low retention time, degradation in performance due to process variations and susceptibility to soft errors. This paper proposes two novel DRAM cells (referred to as 4TI and 4T1D) that utilize the techniques of gated diode and forward body-biasing to overcome the above issues. The designs of these cells are evaluated by HSPICE simulation; different figures of merits (such as Read delay, Write delay, retention time, power dissipation, critical charge and layout area) are assessed and a comparative analysis of the proposed cells with existing cells is pursued. The 4TI cell achieves the best power dissipation, while the 4T1D achieves the best retention time, the highest critical charge and the least average Read delay. An extensive simulation based evaluation of process variations is also presented to confirm that using static and Monte Carlo based analysis, the proposed cells are likely to be less affected by process variations (in threshold voltage and effective channel length) than the other cells found in the technical literature.

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新的基于4t的DRAM单元设计

动态随机存取存储器(DRAM)广泛应用于处理器设计中。过去已经提出了不同的电池来克服与低保留时间相关的问题，由于工艺变化和易受软错误影响而导致的性能下降。本文提出了两种新的DRAM单元(称为4TI和4T1D)，它们利用门控二极管和正向体偏置技术来克服上述问题。通过HSPICE仿真对这些单元的设计进行了评价;评估了不同的优点(如读延迟、写延迟、保持时间、功耗、临界电荷和布局面积)，并对所提出的电池与现有电池进行了比较分析。4TI电池具有最佳的功耗，而4T1D电池具有最佳的保持时间、最高的临界电荷和最小的平均读延迟。还提出了基于工艺变化的广泛模拟评估，以确认使用静态和基于蒙特卡罗的分析，所提出的单元可能比技术文献中发现的其他单元受工艺变化(阈值电压和有效通道长度)的影响更小。

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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ACM Great Lakes Symposium on VLSI

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