Low power dynamic ternary logic

Abstract

A new dynamic ternary logic and its circuit structures have been developed to achieve the goal of low power dissipation and high operation speed. Based on the selected ternary algebra, a dynamic ternary logic system can be implemented by simple ternary gates (STGs), with positive or negative ternary inverters connected to all the input terminals. An overlapped four-phase clocking scheme is needed, and the connection of different circuit blocks has to follow the permitted fan-out diagrams. As compared to the static ternary logic, the dynamic ternary logic has a lower DC power dissipation and an operation speed approximately twice as fast. Typical powerdelay product of a simple ternary inverter in 2 µm CMOS is 3 fJ. Moreover, as compared with binary circuits, the ternary circuit has better performances of the power-delay product and less terminal leads per functional circuit. These features make the dynamic logic circuits quite attractive in VLSI/ULSI applications.