Low-Power Pass-Transistor Logic-Based Full Adder and 8-Bit Multiplier
Ningyuan Yin, Wanyuan Pan, Yihe Yu, Chengcheng Tang, Zhiyi Yu
Abstract
With the rapid development of information technology, the demand for high-speed and low-power technology for digital signal processing is increasing. Full adders and multipliers are the basic components of signal processing technology. Pass-transistor logic is a promising method for implementing full adder and multiplier circuits due to the low count of transistors and low-power characteristics. In this paper, we present a novel full adder based on pass transistors. The proposed full adder consists of 18 transistors. The post-layout simulation shows a 13.78% of power reduction compared to conventional CMOS full adders. Moreover, we propose an 8-bit signed multiplier based on the proposed full adder. The post-layout simulation shows an 8% power reduction compared to the multiplier produced by the Design Compiler synthesis tool. Compared to the existing work with a similar process, our work achieved only 19.02% of the power-delay product and 3.5% of the area-power product.