Low Power 2:1 MUX for Barrel Shifter

P. Khandekar, S. Subbaraman
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引用次数: 26

Abstract

Adiabatic switching techniques based on energy recovery principle are one of the innovative solutions at circuit and logic level to achieve reduction in power. Many researchers had taken adder as a benchmark circuit but advantage of adiabatic can be taken only for a large digital circuit. Barrel shifter is an important block in the processor design and not much effort has been done to minimize itpsilas power dissipation. A barrel shifter needs nlog2n MUX for n-bit shifting and therefore designing a MUX for low power to use it as a repetitive block in the barrel shifter will considerably reduce the simulation time. This paper compares conventional CMOS based design with adiabatic All the circuits are designed using cell based design approach and 180 nm device size in Cadence. The outcome of this research work will provide guidelines for designing barrel shifter using ultra low power MUX .
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低功率2:1 MUX换档器
基于能量回收原理的绝热开关技术是电路和逻辑层面实现功耗降低的创新解决方案之一。许多研究人员都将加法器作为基准电路,但绝热的优势只能用于大型数字电路。桶式移位器是处理器设计中的一个重要模块,在最小化其功耗方面做得并不多。桶移器需要nlog2n MUX进行n位移位,因此设计一个低功耗的MUX,将其用作桶移器中的重复块,将大大减少仿真时间。所有电路均采用基于单元的设计方法,采用Cadence公司的180nm器件尺寸设计。本文的研究结果将为超低功率MUX的换缸器设计提供指导。
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