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Progress, Opportunities and Challenges for Beyond CMOS Information Processing Technologies

机译:CMOS信息处理技术以外的进步,机遇和挑战

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摘要

During the past 10 years, a great deal of worldwide research has been expended exploring novel devices using alternative information tokens as a possible replacement for scaled CMOS. The preliminary conclusion coming out of the research thus far is that the novel devices offer additional options to CMOS in the energy-delay tradeoff but do not appear to offer significantly enhanced power delay when operated as an isolated bistable binary switch. This conclusion points the way to other devices that provide higher levels of functionality such as non volatility or more complex gate operations. One specific magnetic nanodevice is called the Spin Torque Logic Device that functions as a majority gate with non volatile state will be described in considerable depth. Small arrays of locally interacting devices may be useful for certain Non Boolean operations and will be described.
机译:在过去的十年中,已经进行了大量的全球研究,以探索使用替代信息令牌作为可缩放CMOS替代品的新型设备。到目前为止,从研究中得出的初步结论是,新型器件在能量延迟折衷方案中为CMOS提供了更多选择,但当作为隔离双稳态二进制开关工作时,似乎并未提供显着增强的功率延迟。该结论为其他提供更高功能级别(例如非易失性或更复杂的栅极操作)的设备指明了道路。一种相当大的磁性纳米器件称为自旋转矩逻辑器件,将以具有非易失性状态的多数门的形式进行描述。局部交互设备的小阵列可能对某些非布尔运算很有用,并将对其进行描述。

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