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

Patanjali Prakash; Ashok K. Saxena

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

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.