Designing nanotechnology QCA–multiplexer using majority function-based NAND for quantum computing

Jeon, Jun-Cheol

doi:10.1007/s11227-020-03341-8

Cited by 38 publications

(17 citation statements)

References 23 publications

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“…Moreover, the use of semiconductor nanomaterials in the field of quantum computing has increased overall processing speeds with better accuracy and transmissibility. These technologies offer the creation of different components and communication protocols at the nano level, which is often called the internet of nano things [ 23 ]. This area is still in a continuous development and improvement phase with the potential for telecommunication, industrial, and medical applications.…”

Section: Nanotechnology Applicationsmentioning

confidence: 99%

Nanotechnology: A Revolution in Modern Industry

Malik¹,

2023

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Nanotechnology, contrary to its name, has massively revolutionized industries around the world. This paper predominantly deals with data regarding the applications of nanotechnology in the modernization of several industries. A comprehensive research strategy is adopted to incorporate the latest data driven from major science platforms. Resultantly, a broad-spectrum overview is presented which comprises the diverse applications of nanotechnology in modern industries. This study reveals that nanotechnology is not limited to research labs or small-scale manufacturing units of nanomedicine, but instead has taken a major share in different industries. Companies around the world are now trying to make their innovations more efficient in terms of structuring, working, and designing outlook and productivity by taking advantage of nanotechnology. From small-scale manufacturing and processing units such as those in agriculture, food, and medicine industries to larger-scale production units such as those operating in industries of automobiles, civil engineering, and environmental management, nanotechnology has manifested the modernization of almost every industrial domain on a global scale. With pronounced cooperation among researchers, industrialists, scientists, technologists, environmentalists, and educationists, the more sustainable development of nano-based industries can be predicted in the future.

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Section: Nanotechnology Applicationsmentioning

confidence: 99%

Nanotechnology: A Revolution in Modern Industry

Malik¹,

2023

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“…A multi-layered crossover is a stereoscopic structure, which is built of several layers. The logical intersection of the wires is updated on the basis of QCA synchronization; namely, the cells in the switch and hold phases can cross cells in the release and relax phases, respectively [26][27][28]. The logical method of crossing wires is more reliable and tolerant than other crossover methods in the modelling process.…”

Section: Wire Crossing In Qcamentioning

confidence: 99%

Design and Evaluation of Cell Interaction Based Vedic Multiplier Using Quantum-Dot Cellular Automata

Safoev

Jeon

2020

Electronics

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A multiplier is one of the main units for digital signal processing and communication systems. In this paper, a high speed and low complexity multiplier is designed on the basis of quantum-dot cellular automata (QCA), which is considered promising nanotechnology. We focus on Vedic multiplier architectures according to Vedic mathematics from ancient Indian sculptures. In fact, an adder is an important block in the design of almost all types of multipliers and a ripple carry adder is used to design simple multiplier implementations. However, a high-speed multi-bit multiplier requires high-speed adder owing to carry propagation. Cell-interaction-based QCA adders have better improvements over conventional majority-gate-based adders. Therefore, a two-bit Vedic multiplier is proposed in QCA and it is used to implement a four-bit form of the multiplier. The proposed architecture has a lower cell count and area compared to other existing structures. Moreover, simulation results demonstrate that the proposed design is sustainable and can be used to realize complex circuit designs for QCA communication networks.

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“…The proposed work explores the Reversible Arthimetic Processor (RAP) architecture design and synthesis based on QCA technology. Moreover, the QCA architecture of Reversible Multiplexer (RM) and Reversible Functional Gate (RFG) are designed which are more effective than the commonly used multiplexer [15], [16] and reversible logic based multiplexers [10], [17]- [20] for the proposed RAP. The major contribution of RAP based QCA technology is summarized below.…”

Section: Introductionmentioning

confidence: 99%

Reversible Arithmetic Processor Using Quantum Dot Cellular Automata

Sanki

Bevara

Shakamuri

et al. 2022

Preprint

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Quantum dot Cellular Automata (QCA) may be viewed as the potential digital logic design alternative to supplant the current CMOS Technology. The logical design is based on the polarization of electrons to transfer information which results in a huge improved performance metric in terms of speed, power & area. This paper focuses on the design of a Reversible Arithmetic Processor (RAP) with Reversible Multiplexer (RM) and Reversible Functional Gate (RFG) in QCA. The QCA Designer-E simulation tool has been used to design and verify all the proposed architecture and the energy dissipation has been simulated using a coherent vector energy engine setup. The total and average energy dissipation per cycle of our proposed RAP using QCA are 3 . 9 1 × 1 0 − 1 ev and 3 . 5 6 × 1 0 − 2 ev respectively. Regarding cell count, area, latency, and energy dissipation, the proposed architecture beats out the existing architecture.

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Designing nanotechnology QCA–multiplexer using majority function-based NAND for quantum computing

Cited by 38 publications

References 23 publications

Nanotechnology: A Revolution in Modern Industry

Nanotechnology: A Revolution in Modern Industry

Design and Evaluation of Cell Interaction Based Vedic Multiplier Using Quantum-Dot Cellular Automata

Reversible Arithmetic Processor Using Quantum Dot Cellular Automata

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