Energy Efficient CNTFET Based Full Adder Using Hybrid Logic

Full Adder is the basic element for arithmetic operations used in Very Large Scale Integrated (VLSI) circuits, therefore, optimization of 1-bit full adder cell improves the overall performance of electronic devices. Due to unique mechanical and electrical characteristics, carbon nanotube field effect transistors (CNTFET) are found to be the most suitable alternative for metal oxide field effect transistor (MOSFET). CNTFET transistor utilizes carbon nanotube (CNT) in the channel region. In this paper, high speed, low power and reduced transistor count full adder cell using CNTFET 32nm technology is presented. Two input full swing XOR gate is designed using 4 transistors which is further used to generate Sum and Carry output signals with the help of Gate-Diffusion-Input (GDI) Technique thus reducing the number of transistors involved. Proposed design simulated in Cadence Virtuoso with 32nm CNTFET technology and results is better design as compared to existing circuits in terms of Power, Delay, Power-Delay-Product (PDP), Energy Consumption and Energy-Delay-Product (EDP).