Ultralow Voltage Crossbar Nonvolatile Memory Based on Energy-Reversible NEM Switches

Akarvardar K.; Wong H.-S. P.

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Ultralow Voltage Crossbar Nonvolatile Memory Based on Energy-Reversible NEM Switches

机译：基于能量可逆NEM开关的超低压纵横开关非易失性存储器

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A novel nonvolatile nanoelectromechanical (NEM) memory (nRAM) is introduced. Differently than the previously proposed NEM memories, the nRAM achieves the nonvolatility via workfunction engineering and eliminates the need for cell selection devices in a crossbar array using a displacement current-based read scheme. Furthermore, the configuration of the nRAM is such that the elastic potential energy due to the beam bending is reversibly used for switching, which enables to combine ultralow operation voltages with high switching speed. For $F = hbox{20} hbox{nm}$ feature size and optimized margins, the nRAM cell is estimated to operate at $pm$180 mV, dissipate 10 aJ switching energy, and achieve $≪$ 10 ns switching delay.

机译：介绍了一种新型的非易失性纳米机电（NEM）存储器（nRAM）。与以前提出的NEM存储器不同，nRAM通过功函数工程实现了非易失性，并消除了使用基于位移电流的读取方案在交叉开关阵列中使用单元选择设备的需求。此外，nRAM的构造使得由于束弯曲而产生的弹性势能可逆地用于切换，这使得能够将超低工作电压与高切换速度结合。对于$ F = hbox {20} hbox {nm} $的特征尺寸和优化的裕度，nRAM单元的工作电压为$ pm $ 180 mV，耗散10 aJ的开关能量，并实现$≪ $$ 10 ns的开关延迟。

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来源
《Electron Device Letters, IEEE》 |2009年第6期|p.626-628|共3页
作者
Akarvardar K.; Wong H.-S. P.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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关键词
Low voltage; nanoelectromechanical systems (NEMS); nonvolatile (NV) memory;

机译：低压;纳米机电系统（NEMS）;非易失性（NV）存储器;

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Ultralow Voltage Crossbar Nonvolatile Memory Based on Energy-Reversible NEM Switches

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