悬臂NEMS继电器为基础的SRAM设备，提高可靠性

2017 12th International Conference on Design & Technology of Integrated Systems In Nanoscale Era (DTIS) Pub Date : 2017-04-01 DOI:10.1109/DTIS.2017.7930177

S. Bota, J. Verd, Joan Barceló, X. Gili, B. Alorda, G. Torrens, Carol de Benito, J. Segura

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引用次数: 2

摘要

我们分析了在传统CMOS六晶体管SRAM单元中用纳米机电继电器取代选定的MOSFET晶体管的好处。具体来说，我们评估了一种使用65纳米标准CMOS技术设计的悬臂的潜在实现。通过使用纳米机械继电器Verilog-A紧凑型模型进行电路仿真，评估了对静态噪声裕度和写入噪声裕度等各种可靠性指标的影响。比较了65 nm CMOS 6T传统SRAM单元和各种混合存储单元，这些混合存储单元是用悬臂继电器代替选定的MOSFET晶体管构建的。对其他重要的存储单元参数如面积、时序性能和功耗的影响也进行了讨论。

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Cantilever NEMS relay-based SRAM devices for enhanced reliability

We analyze the benefits of replacing selected MOSFET transistors by nanoelectromechanical relays within conventional CMOS six transistor SRAM cells. Specifically, we evaluate a potential implementation that uses a cantilever designed with a 65 nm standard CMOS technology. The impact on various reliability metrics like static noise margin and write noise margin are evaluated from circuit simulations using a nanomechanical relay Verilog-A compact model. Comparisons are performed between a 65 nm CMOS 6T conventional SRAM cell and various hybrid memory cells constructed by replacing selected MOSFET transistors with cantilever relays. The impact on other important memory cell parameters such as area, timing performance and power consumption is also discussed.

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来源期刊

2017 12th International Conference on Design & Technology of Integrated Systems In Nanoscale Era (DTIS)

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