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引用次数: 0

摘要

由于掺杂随机波动引起的阈值电压变化和芯片上大量单元导致的扰动增加影响了SRAM电路读、写和保持操作的稳定性。作为芯片内体积最小、数量最多的模块,SRAM存储单元的稳定性,无论是用于配置链还是存储阵列,都是保证整个芯片功能正确的前提。大多数关于SRAM电路抗扰性的文章都集中在改变电路结构上,如使用7T、8T或10T存储单元,或增加读写辅助电路。然而,这种结构变化会显著增加面积和芯片泄漏电流。本文从定量分析和仿真的角度分析了尺寸和阈值电压对其运行稳定性的影响。并基于28nm CMOS选择了最佳SRAM 6T存储单元尺寸。
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A Size Optimization Scheme of SRAM 6T Memory Cell
The threshold voltage variations due to the random doping fluctuation and the increasing disturb due to the large number of cells on the chip affect the stability of the read, write, and hold operations of the SRAM circuit. As the smallest size and most numerous module within the chip, the stability of the SRAM memory cell, whether it is used in the configuration chain or in the storage array, is a prerequisite of the whole chip correct function. Most of the articles about the immunity of SRAM circuits focus on changing the circuit structure, such as using 7T, 8T, or 10T memory cells, or adding read and write assist circuits. However, such structural changes can significantly increase the area and the chip leakage current. In this paper, the impact of the size and threshold voltage on its operational stability is analyzed from the perspective of quantitative analysis and simulation. And the optimal SRAM 6T memory cell size is selected based on 28nm CMOS.
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