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A symmetric quantum-dot cellular automata design for 5-input majority gate |
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| Authors: | Arman Roohi Hossein Khademolhosseini Samira Sayedsalehi Keivan Navi |
| Affiliation: | 1. Nanotechnology and Quantum Computing Laboratory, Shahid Beheshti University, G. C., Tehran, Iran 2. Department of Computer Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran 3. Department of Electrical and Computer Engineering, Shahid Beheshti University, G. C., Evin, Tehran, Iran |
| Abstract: | By the inevitable scaling down of the feature size of the MOS transistors which are deeper in nanoranges, the CMOS technology has encountered many critical challenges and problems such as very high leakage currents, reduced gate control, high power density, increased circuit noise sensitivity and very high lithography costs. Quantum-dot cellular automata (QCA) owing to its high device density, extremely low power consumption and very high switching speed could be a feasible competitive alternative. In this paper, a novel 5-input majority gate, an important fundamental building block in QCA circuits, is designed in a symmetric form. In addition to the majority gate, a SR latch, a SR gate and an efficient one bit QCA full adder are implemented employing the new 5-input majority gate. In order to verify the functionality of the proposed designs, QCADesigner tool is used. The results demonstrate that the proposed SR latch and full adder perform equally well or in many cases better than previous circuits. |
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