An efficient design of 4-bit serial input parallel output/serial output shift register in quantum-dot cellular automata

机译：量子点元胞自动机中4位串行输入并行输出/串行输出移位寄存器的高效设计

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The VLSI technology that is in place today caters to almost all technology based products but as the need for speed and space increases VLSI technology might not be able to keep up with the demand. There are a lot of alternatives that are being researched on but very few can match VLSI in terms of performance. Technologies such as nanotechnology, photonics, quantum computing look promising in that regard. Quantum-dot Cellular Automata(QCA) is one such technology which possibly can replace VLSI at the same time provides higher processing speed while occupying lesser space. In this paper we propose a design for[1)Serial Input Parallel Output (SlPO)and [1)Serial Input Serial Output (SISO) registers with the help of QCA technology.

机译：当今使用的VLSI技术可以满足几乎所有基于技术的产品，但是随着速度和空间需求的增加，VLSI技术可能无法满足需求。有许多替代方案正在研究中，但在性能方面却很少能与VLSI相匹配。在这方面，纳米技术，光子学，量子计算等技术看起来很有前途。量子点元胞自动机（QCA）是一种可以同时替代VLSI的技术，它可以提供更高的处理速度，同时占用更少的空间。在本文中，我们借助QCA技术提出了一种针对[1]串行输入并行输出（SlPO）和[1]串行输入串行输出（SISO）寄存器的设计。

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《International Conference on Computing for Sustainable Global Development》|2016年|2736-2738|共3页
会议地点 New Delhi(IN)
作者
Ashwin Padmanabhan; Allen Vivean Miranda; T. Srinivas;
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Dept of Electronics and Communication The Oxford College of Engineering Bangalore India;

Applied Photonics lab Indian Institute of science Bangalore India;

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Decision support systems; Handheld computers;

机译：决策支持系统；手提电脑;

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1. An Optimized Design of Serial-Input-Serial-Output (SISO) and Parallel-Input-Parallel-Output (PIPO) Shift Registers Based on Quantum Dot Cellular Automata Nanotechnology [J] . Li Ting, Kornovich Roy International Journal of Theoretical Physics: A Journal of Original Research and Reviews in Theoretical Physics and Related Mathematics, Dedicated to the Unification of Physics . 2019,第11期

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2. Novel circuit design of serial-parallel multiplier in quantum-dot cellular automata technology [J] . Iman Edrisi Arani, Abdalhossein Rezai Journal of Computational Electronics . 2018,第4期

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3. 4-Bit serial shift register with reset ability and 4-bit LFSR in QCA technology using minimum number of cells and delay [J] . Roshan Mojtaba Gholamnia, Gholami Mohammad Computers and Electrical Engineering . 2019,第期

机译：使用最小单元格数和延迟，4位串行移位寄存器，重置能力和4位LFSR中的QCA技术中的LFSR
4. An efficient design of 4-bit serial input parallel output/serial output shift register in quantum-dot cellular automata [C] . Ashwin Padmanabhan, Allen Vivean Miranda, T. Srinivas International Conference on Computing for Sustainable Global Development . 2016

机译：Quantum-Dot Cellular自动机中的4位串行输入并行输出/串行输出移位寄存器的高效设计
5. Efficient design and implementation of the MPI-IO parallel input/output interface [D] . Brodowicz, Maciej 1998

机译：MPI-IO并行输入/输出接口的高效设计和实现
6. Design and implementation of an efficient single layer five input majority voter gate in quantum-dot cellular automata [O] . Ali Newaz Bahar, Sajjad Waheed -1

机译：量子点元胞自动机中高效单层五输入多数表决器的设计与实现
7. Design and implementation of an efficient single layer five input majority voter gate in quantum-dot cellular automata [O] . 2016

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An efficient design of 4-bit serial input parallel output/serial output shift register in quantum-dot cellular automata

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