利用伪nMOS单元降低内容可寻址存储器的功耗

2019 International Conference on Emerging Trends in Science and Engineering (ICESE) Pub Date : 2019-09-01 DOI:10.1109/ICESE46178.2019.9194694

N.Naveen Kumar, K.Suresh Kumar, R.Manasa Reddy

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引用次数: 1

摘要

内容地址存储器的巨大容量广泛分布在充电和充电的最大限度上，这款游戏遵循最大限度的路线。新的小功耗内容地址存储单元沿着单个位边架构通过打破凸轮设计的这种差异能力来调度。这种调度的内容地址存储单元可以中断几乎一半的大型交互填充，并且通常转换大约两条对等的总线线路。所述内容地址存储器会话路由架构是固定的伪N金属氧化物半导体感测框架，沿占用方式回收以强制绕过通常在同一线路中的转换。内容地址存储器位于互补金属氧化物半导体作用于2.5伏电源电压之间。这个计划的内容地址存储器的能力利用率为16.38mW，最低300mhz操作。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Reducing Power in Content-Addressable Memory by pseudo nMOS Cell

content address memory a huge bulk of power is broadly distribute charge and recharging utmost of this game follow on utmost course. That new small power content address memory cell along a individual bit edge architecture act scheduled via break this difference capability of the cam design. This scheduled content address memory cell can break almost half of huge co-actions filling and the ordinarily convert about two reciprocal bus lines follows. The content address memory conversation route architecture is fixed pseudo N metal oxide semiconductor sense framework along a preoccupation way is recycled to forcefully bypass the ordinarily convert in same lines. The content address memory arrangement is situated on Complementary Metal-Oxide Semiconductor action among2.5Volts power supply voltage. The capability utilization of this scheduled content address memory is 16.38mW bottom 300mhz operations.

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2019 International Conference on Emerging Trends in Science and Engineering (ICESE)

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