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Application of Feedback Switch Logic for the Design of Low Power High Speed ALU


Affiliations
1 Indian Institute of Technology, Roorkee, India
2 Department of Electronics and Computer Engineering, Indian Institute of Technology, Roorkee, Uttarakhand, India
     

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Low power and high speed requirement is a challenging task in design of ALUs. Supply voltage scaling is promising approach because it reduces switching activities and active power but it degrades the performance and robustness. Recently a new dynamic like static circuit family called Feedback-Switch Logic (FSL) has been proposed. FSL is suitable for high speed and low power because it offers fast switching, reduced capacitance and input-switching dependent activity factor without the need of clock connection. This paper presents design of low power high speed 32-bit ALU based on static CMOS and FSL logics at 90nm CMOS process in CADENCE design tool. Simulation results shows that the design of ALU using FSL achieves 14% reduction in delay but at the cost of 8% increased power consumption compared to static CMOS logic.

Keywords

ALU, Feedback Switch Logic, High Speed, Low Power.
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  • Application of Feedback Switch Logic for the Design of Low Power High Speed ALU

Abstract Views: 227  |  PDF Views: 2

Authors

Patanjali Prakash
Indian Institute of Technology, Roorkee, India
Ashok K. Saxena
Department of Electronics and Computer Engineering, Indian Institute of Technology, Roorkee, Uttarakhand, India

Abstract


Low power and high speed requirement is a challenging task in design of ALUs. Supply voltage scaling is promising approach because it reduces switching activities and active power but it degrades the performance and robustness. Recently a new dynamic like static circuit family called Feedback-Switch Logic (FSL) has been proposed. FSL is suitable for high speed and low power because it offers fast switching, reduced capacitance and input-switching dependent activity factor without the need of clock connection. This paper presents design of low power high speed 32-bit ALU based on static CMOS and FSL logics at 90nm CMOS process in CADENCE design tool. Simulation results shows that the design of ALU using FSL achieves 14% reduction in delay but at the cost of 8% increased power consumption compared to static CMOS logic.

Keywords


ALU, Feedback Switch Logic, High Speed, Low Power.