Power and Area Efficient Four-Bit Vedic Multiplier Implemented Using a Modified Five-Bit Adder with CMOS and TG Configuration

Abstract

Vedic multipliers are incredibly fast, efficient, and flexible, perfect for efficiently handling tasks like signal processing. Vedic multipliers are the go-to choice for maximizing performance and efficiency in digital designs, as the existing method adders like Carry Look-Ahead Adder (CLA), a Carry Skip Adder (CSA), or a Ripple Carry Adder (RCA) have more delay, area and power. The project proposal presents a novel 4-bit Vedic multiplier essential to system functionality. Optimizing the balancing area and delay is necessary for improving the system as a whole. This project aims to strike this balance, significantly improving the performance of digital systems. Here, a 5-bit adder with a unique configuration is used in place of a Carry Look-Ahead Adder (CLA), a Carry Skip Adder (CSA), or a Ripple Carry Adder (RCA). Using CMOS & TG Configuration, all other internal structures have been created. Performance comparisons of the CMOS and TG 5-bit Adders with the adders above are shown in terms of power, latency, and area. Various adders: 5-bit Adder with CMOS & TG design, the CMOS & TG based CLA, the CSA, and the RCA, are also involved in the multiplier's adder unit selection process. The new multiplier provides the perfect answer for energy-efficient designs by combining low power consumption with small size.