A novel design of collapsed supply and boosted bit-line swing write driver for fast write access 9T SRAM

IF 1.5 Q2 ENGINEERING, MULTIDISCIPLINARY

Engineering Research Express Pub Date : 2024-07-10 DOI:10.1088/2631-8695/ad5e5c

Chokkakula Ganesh, Aruru Sai Kumar, Sk Shoukath Vali, Girija Sravani Kondaveeti, Girish Wadhwa and Srinivasa Rao Karumuri

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Abstract

This work presents a collapsed supply and boosted bit-line swing (CSBBS) write driver circuit, with the specific goal of enhancing write performance. The write ability of SRAM cells is gravely affected by device parameter variations in deep sub-threshold region of operations. The collapsed supply and boosted bit-line swing are key features aimed at achieving improvements in speed and efficiency during the memory write process. In comparison to conventional, Ultra dynamic scaled supply write (UDSS), Negative charge-boosted bit line (NCBBL), and Reconfigurable negative bit line collapsed supply (RNBLCS) write driver circuits, Proposed collapsed supply and boosted bit-line swing (CSBBS) for 9T SRAM cell has optimized write access delays of 0.74X, 0.41X, 0.32X and 0.21X, improvement in write margin (WM) of 1.51X, 1.34X, 1.22X and 1.12X respectively. The CSBBS Write driver circuit is implemented using custom compiler (Synopsys) through a 28 nm BSIM4 model card for bulk CMOS. MC simulation results are monitored on Cosmoscope wave viewer (Synopsys).

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用于快速写入访问 9T SRAM 的新型折叠式供电和升压位线摆动写入驱动器设计

这项研究提出了一种塌缩电源和提升位线摆幅（CSBBS）写入驱动电路，其具体目标是提高写入性能。SRAM 单元的写入能力受到深亚阈值工作区器件参数变化的严重影响。在存储器写入过程中，塌缩电源和增强位线摆动是旨在提高速度和效率的关键特性。与传统的超动态按比例供电写入（UDSS）、负电荷增强位线（NCBBL）和可重构负位线塌缩供电（RNBLCS）写入驱动电路相比，针对 9T SRAM 单元提出的塌缩供电和增强位线摆幅（CSBBS）优化了写入访问延迟，分别为 0.74X、0.41X、0.41X。74X、0.41X、0.32X 和 0.21X，写裕量 (WM) 分别提高了 1.51X、1.34X、1.22X 和 1.12X。CSBBS 写入驱动电路是使用定制编译器（Synopsys）通过 28 纳米 BSIM4 模型卡（用于体 CMOS）实现的。MC 仿真结果通过 Cosmoscope 波形查看器（Synopsys）进行监控。

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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来源期刊

Engineering Research Express Engineering-Engineering (all)

CiteScore

2.20

自引率

5.90%

发文量

192