مشخصات پژوهش

An essential reason for implementing multilevel processing systems is to reduce the number of semiconductor elements and hence the complexity of the system. Multilevel processing systems are realized much easier by carbon nanotube field effect transistors (CNTFET) than by MOSFET transistors due to the CNTFET transistors’ adjustable threshold voltage capabilities. This paper presents an efficient quaternary full-adder based on CNTFET technology that consists of two half-adder blocks, a quaternary decoder, and a carry generator circuit. The proposed architecture combines the base-two and base-four circuit design techniques to take full advantage of both techniques, namely, simple implementation and low chip area occupation of the entire proposed quaternary full-adder. The proposed structure is evaluated using a Stanford 32nm CNTFET library in HSPICE software. The simulation results for the proposed full-adder structure that utilizes a 0.9-V supply voltage reveal that the power consumption, propagation delay, and energy index are equal to 2.67 μW, 40 ps, and 10.68 aJ, respectively.