Pdf Design And Implementation Of A Quantum Multiplexer

Pdf Design And Implementation Of A Quantum Multiplexer This paper discusses and evaluates two multiplexer (mux) architectures: an innovative and effective 4×1 mux structure and an 8×1 mux structures using qca technology. Rapid progress in the field of nanotechnology includes using quantum dotcellular automata (qca) as a replacement for conventional transistor based complementary metal oxide semiconductor (cmos) circuits in the construction of nano circuits.

Pdf Design Of Reversible Quantum Ternary Multiplexer And Demultiplexer This paper discusses and evaluates two multiplexer (mux) architectures: an innovative and effective 4×1 mux structure and an 8×1 mux structures using qca technology. Design and implementation reversible multiplexer using quantum dot cellular automata approach. In this paper, the design of quantum dot cellular automata based (2x1) and (4x1) multiplexer is presented. the proposed design saves upto 63.15% number of qca cells and 66% of area compared to previous design approaches. the designs are simulated using the qcadesigner 2.0.3 software. New 4:1 qca multiplexer has been built using the proposed structure. the output waveforms showed the wonderful performance of the proposed design in terms of the number of cells, area, and latency. copyright © 2020 institute of advanced engineering and science. all rights reserved.

Pdf Design And Implementation Reversible Multiplexer Using Quantum In this paper, the design of quantum dot cellular automata based (2x1) and (4x1) multiplexer is presented. the proposed design saves upto 63.15% number of qca cells and 66% of area compared to previous design approaches. the designs are simulated using the qcadesigner 2.0.3 software. New 4:1 qca multiplexer has been built using the proposed structure. the output waveforms showed the wonderful performance of the proposed design in terms of the number of cells, area, and latency. copyright © 2020 institute of advanced engineering and science. all rights reserved. In the following subsections, we introduce the design of a scalable ternary quantum reversible 3 ×1 multiplexer as a fundamental building block, and extend it to construct generalized n × 1 multiplexers. Quantum cellular automata is a promising nanotechnology that has been recognized as one of the top six emerging technology in future computers. we have developed a new methodology in design qca 2:1 mux having better area efficiency and less input to output delay. A detailed design methodology is provided, including cell configuration, majority logic implementation, and optimization strategies. the proposed design is simulated and validated using qcadesigner, and its performance is compared with existing qca based multiplexer designs. Combinational quantum circuits are essential for quantum computation; and quantum multiplexer circuit is one of the important combinational circuits. in this paper, we have presented the synthesis of quantum multiplexer circuit in detail.

Quantum Multiplexer At Robert Leverett Blog In the following subsections, we introduce the design of a scalable ternary quantum reversible 3 ×1 multiplexer as a fundamental building block, and extend it to construct generalized n × 1 multiplexers. Quantum cellular automata is a promising nanotechnology that has been recognized as one of the top six emerging technology in future computers. we have developed a new methodology in design qca 2:1 mux having better area efficiency and less input to output delay. A detailed design methodology is provided, including cell configuration, majority logic implementation, and optimization strategies. the proposed design is simulated and validated using qcadesigner, and its performance is compared with existing qca based multiplexer designs. Combinational quantum circuits are essential for quantum computation; and quantum multiplexer circuit is one of the important combinational circuits. in this paper, we have presented the synthesis of quantum multiplexer circuit in detail.

Quantum Multiplexer At Robert Leverett Blog A detailed design methodology is provided, including cell configuration, majority logic implementation, and optimization strategies. the proposed design is simulated and validated using qcadesigner, and its performance is compared with existing qca based multiplexer designs. Combinational quantum circuits are essential for quantum computation; and quantum multiplexer circuit is one of the important combinational circuits. in this paper, we have presented the synthesis of quantum multiplexer circuit in detail.