Design of High-Speed Quaternary D Flip-Flop Based on Multiple-valued Current-mode

Abstract

A new type of quaternary D flip-flop based on multiple-valued current-mode is presented for high-speed sequential circuit in VLSI systems. It employs master-slave mode and dynamic multiple-valued source-coupled logic. A distinguishable multiple-valued interval, fast switch speed and compact structure are obtained by combining source-coupled logic with differential-pair circuit. The performance evaluation is carried out with HSPICE using 0.18μm CMOS process. A performance comparison with those issued in some references is conducted. The delay in our design is about 74% reduced by comparison with the corresponding binary implementation. The circuitry proposed is simplicity, regularity, and modularity, so well suited for VLSI implementation. Quaternary logic seems to be a potential and feasible method of high-performance VLSI systems.