Asynchronous Counter in QCA Technology Using Novel D Flip-Flop

Abstract

Abstract A strong need for high-speed and low-power consumption devices seems inevitable due to the high speed of technological advancement in the field of microelectronics. Designers are highly interested in designing and making nanoscale devices. The Quantum Cellular Automaton (QCA) is known as one of these technologies, which makes it feasible to implement digital circuits with a high operating speed. In this paper a 4-bits counter, a 3-bits bidirectional counter, a 4-bits counter with a reset terminal, and a 4-bit counter with both set and reset terminals are designed using the proposed D-latch to demonstrate that these circuits function accurately in more complex circuits. According to the results, the area was respectively reduced by 8.33% and 15.38% with a 4.76% reduction in the delay rate in the proposed 4-bits counter and 3-bits bidirectional counter compared to the best previous designs. All the designs and simulation results is being done in the QCAPro and QCADesigner software.