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Highly stable, dual-port, sub-threshold 7T SRAM cell for ultra-low power application

机译：用于超低功耗应用的高度稳定，双端口，子阈值7T SRAM单元

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As the supply voltage is reducing with feature size, SRAM cell design is going through severe stability issues. The issue becomes worse due to increased variability in below sub-100nm technology. In this paper, we present a highly stable 2-port 7T SRAM cell for ultra-low power in 90nm technology. The dynamic read noise margin is improved by 7X over conventional dual port SRAM. Finally, a 4Kb bit-interleaved SRAM architecture is presented using proposed cell. Experimental results show that memory consumes 1.26pJ/bit at 0.22V supply voltage with 2MHz performance. The dynamic read noise margin is improved by 7X over conventional dual port SRAM. The successful write and read operations can be performed at supply voltage as low as 0.17V. Two level write decoder architecture is used to eliminate the pseudo read problem in unselected columns.

机译：随着电源电压的特征尺寸减少，SRAM Cell Design正在经历严重的稳定性问题。由于低于次级100nm技术的可变性，问题变得更糟。在本文中，我们在90nm技术中为超低功率提供了一个高度稳定的2端口7T SRAM电池。在传统的双端口SRAM上，动态读取噪声裕度得到7倍。最后，使用所提出的单元来呈现4KB位交织的SRAM架构。实验结果表明，存储器消耗1.26pj /位，在0.22V电源电压下，具有2MHz性能。在传统的双端口SRAM上，动态读取噪声裕度得到7倍。可以在低至0.17V的电源电压下执行成功的写入和读取操作。两个级别写入解码器架构用于消除未选择列中的伪读取问题。

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《IEEE International New Circuits and Systems Conference 》|2012年||共4页
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Sil Abhijit; Bakkamanthala Srikanth; karlapudi Swetha; Bayoumi Magdy;
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2. Novel low-power and stable SRAM cells for sub-threshold operation at 45 nm [J] . Gupta Anu, Gupta Priya, Asati Abhijit International journal of electronics . 2018 ,第7a9期

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3. A highly stable reliable SRAM cell design for low power applications [J] . Microelectronics & Reliability . 2020 ,第Feba期

机译：针对低功耗应用的高度稳定可靠的SRAM单元设计
4. Highly stable, dual-port, sub-threshold 7T SRAM cell for ultra-low power application [C] . Sil Abhijit, Bakkamanthala Srikanth, karlapudi Swetha, 10th IEEE International New Circuits and Systems Conference. . 2012

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Highly stable, dual-port, sub-threshold 7T SRAM cell for ultra-low power application

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