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IETE Journal of Research Volume 62, 2016 - Issue 3
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Articles

Reversible Comparator Design Using Quantum Dot-Cellular Automata

Jadav Chandra DasDepartment of Computer Science and Engineering, West Bengal University of Technology, Kolkata, IndiaView further author information
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Debashis DeDepartment of Computer Science and Engineering, West Bengal University of Technology, Kolkata, IndiaView further author information
Pages 323-330 | Published online: 13 Oct 2015

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Bandan Bhoi, Neeraj Kumar Misra & Manoranjan Pradhan. (2017) Design and evaluation of an efficient parity-preserving reversible QCA gate with online testability. Cogent Engineering 4:1.
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Articles from other publishers (39)

Zongwei Li, Shubo Zhang & Bayan Omar Mohammed. (2023) An efficient three-level nano-design for reversible gate using quantum dot-cellular automata with cost analysis. Materials Science and Engineering: B 294, pages 116526.
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Soha Maqbool Bhat, Suhaib Ahmed & Vipan Kakkar. (2022) Design of SSG ‐1 gate‐based cost‐efficient reversible digital circuits using quantum‐dot cellular automata technology . International Journal of Numerical Modelling: Electronic Networks, Devices and Fields 36:2.
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Sadat Riyaz & Vijay Kumar Sharma. (2021) Design of reversible Feynman and double Feynman gates in quantum-dot cellular automata nanotechnology. Circuit World 49:1, pages 28-37.
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Mohsen Vahabi, Ehsan Rahimi, Pavel Lyakhov, Ali Newaz Bahar, Khan A. Wahid & Akira Otsuki. (2023) Novel Quantum-Dot Cellular Automata-Based Gate Designs for Efficient Reversible Computing. Sustainability 15:3, pages 2265.
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Yuexi Yin, Jiaxuan Liu & Chen She. (2022) A new fault-tolerant single-bit comparator in QCA technology using a novel X-NOR gate. Optik 269, pages 169837.
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Nehru Kandasamy, Vaishali Dhare & Nagarjuna Telagam. (2022) Novel optimized ultra-dense 1-bit magnitude comparator design in quantum-dot cellular automata technology based on MV32 gate. The Journal of Supercomputing 78:17, pages 18666-18690.
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Amita Asthana, Anil Kumar & Preeta Sharan. (2022) Novel design of reversible latches using feynman gate and implementation of reversible combinational circuits. International Journal of Information Technology 14:6, pages 2903-2915.
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Yuhan Jiao. (2022) Analysis and design of a new fault‐tolerant digital comparator based on nano‐scale quantum technology. Concurrency and Computation: Practice and Experience 34:20.
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Mohsen Vahabi, Pavel Lyakhov, Ali Newaz Bahar, Akira Otsuki & Khan A. Wahid. (2022) Novel Reversible Comparator Design in Quantum Dot-Cellular Automata with Power Dissipation Analysis. Applied Sciences 12:15, pages 7846.
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Seyed Mahdi Ghadamgahi, Reza Sabbaghi-Nadooshan & Keivan Navi. (2022) Novel single-trit comparator circuits in ternary quantum-dot cellular automata. Analog Integrated Circuits and Signal Processing 111:3, pages 353-370.
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Mukesh Patidar & Namit Gupta. (2021) An ultra-efficient design and optimized energy dissipation of reversible computing circuits in QCA technology using zone partitioning method. International Journal of Information Technology 14:3, pages 1483-1493.
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Sumit Kadam & Vaishali Dhare. (2022) Reversible Logic Based 1-bit Comparator using QCA. Reversible Logic Based 1-bit Comparator using QCA.
Yun Ji. (2021) A new design of fault-tolerant digital comparator based on quantum-dot cellular automata. Analog Integrated Circuits and Signal Processing 109:3, pages 563-570.
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Wenhua Huang, Juan Ren, Jinglong Jiang & J. Cheng. (2021) A fault-tolerant design for a digital comparator based on nano-scale quantum-dotcellular automata. Microelectronics International 38:4, pages 137-143.
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Bikash Debnath, Jadav Chandra Das & Debashis De. (2021) Cryptographic models of nanocommunicaton network using quantum dot cellular automata: A survey. IET Quantum Communication 2:3, pages 98-121.
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Ali Hussien Majeed, Mohd Shamian Zainal, Esam Alkaldy & Danial Md. Nor. (2021) Single-bit comparator in quantum-dot cellular automata (QCA) technology using novel QCA-XNOR gates. Journal of Electronic Science and Technology 19:3, pages 100078.
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Mingming Gao, Jinling Wang, Shaojun Fang, Jingchang Nan & Li Daming. (2020) A New Nano Design for Implementation of a Digital Comparator Based on Quantum-Dot Cellular Automata. International Journal of Theoretical Physics 60:7, pages 2358-2367.
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A. Arunkumar Gudivada & Gnanou Florence Sudha. (2020) Novel optimized tree-based stack-type architecture for 2n-bit comparator at nanoscale with energy dissipation analysis. The Journal of Supercomputing 77:5, pages 4659-4680.
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Suhaib Ahmed, Soha Maqbool Bhat & Vipan Kakkar. (2020) Design of Efficient 1-bit Comparator in Quantum dot Cellular Automata Nano-computing. Design of Efficient 1-bit Comparator in Quantum dot Cellular Automata Nano-computing.
Biplab Das & Debashis De. (2020) Router design for nano-communication using actin quantum cellular automata. IET Nanobiotechnology 14:7, pages 609-616.
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Debashis De & Jadav Chandra Das. (2019) Nanocomputing channel fidelity of QCA code converter circuits under thermal randomness. Journal of Computational Electronics 19:1, pages 419-434.
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Trailokya Nath Sasamal, Ashutosh Kumar Singh & Anand MohanTrailokya Nath Sasamal, Ashutosh Kumar Singh & Anand Mohan. 2020. Quantum-Dot Cellular Automata Based Digital Logic Circuits: A Design Perspective. Quantum-Dot Cellular Automata Based Digital Logic Circuits: A Design Perspective 47 61 .
Kunal Das, Arindam Sadhu, Debashis De & Jadav Chandra Das. (2019) Design and simulation of priority based dual port memory in quantum dot cellular automata. Microprocessors and Microsystems 69, pages 118-137.
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Tapatosh Sadhu, Biplab Das, Timam Ghosh & Debashis De. (2017) XOR transform with actin quantum automata for better security against cryptanalysis. Microsystem Technologies 25:5, pages 1705-1717.
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Jadav Chandra Das & Debashis De. (2018) Design of single layer banyan network using quantum-dot cellular automata for nanocommunication. Optik 172, pages 892-907.
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Trailokya Nath Sasamal, Ashutosh Kumar Singh & Umesh Ghanekar. (2017) Toward Efficient Design of Reversible Logic Gates in Quantum-Dot Cellular Automata with Power Dissipation Analysis. International Journal of Theoretical Physics 57:4, pages 1167-1185.
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Tapatosh Sadhu, Biplab Das, Debashis De & Jadav Chandra Das. (2017) Design of binary subtractor using actin quantum cellular automata. IET Nanobiotechnology 12:1, pages 32-39.
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Jadav Chandra Das & Debashis De. (2017) Circuit switching with Quantum-Dot Cellular Automata. Nano Communication Networks 14, pages 16-28.
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Jadav Chandra Das & Debashis De. (2017) Reversible binary subtractor design using quantum dot-cellular automata. Frontiers of Information Technology & Electronic Engineering 18:9, pages 1416-1429.
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Jadav Chandra Das & Debashis De. (2017) Nanocommunication network design using QCA reversible crossbar switch. Nano Communication Networks 13, pages 20-33.
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Debashis De & Jadav Chandra Das. (2017) Design of novel carry save adder using quantum dot-cellular automata. Journal of Computational Science 22, pages 54-68.
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Jadav Chandra Das & Debashis De. (2017) Atbash cipher design for secure nanocommunication using QCA. Nanomaterials and Energy 6:1, pages 36-47.
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Jadav Chandra Das, Bikash Debnath & Debashis De. (2017) Reversible gate-based cipher text using QCA for nanocommunication. Nanomaterials and Energy 6:1, pages 7-16.
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Jadav Chandra Das & Debashis De. (2017) QCA based design of reversible carry lookahead generator. QCA based design of reversible carry lookahead generator.
Bikash Debnath, Jadav Chandra Das & Debashis De. (2017) Fingerprint authentication using QCA technology. Fingerprint authentication using QCA technology.
Bikash Debnath, Jadav Chandra Das & Debashis De. (2017) Reversible logic‐based image steganography using quantum dot cellular automata for secure nanocommunication. IET Circuits, Devices & Systems 11:1, pages 58-67.
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Biplab Das, Jadav Chandra Das, Debashis De & Avijit Kumar Paul. 2017. Computational Intelligence, Communications, and Business Analytics. Computational Intelligence, Communications, and Business Analytics 121 133 .
Jadav Chandra Das & Debashis De. (2016) Operational efficiency of novel SISO shift register under thermal randomness in quantum-dot cellular automata design. Microsystem Technologies.
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Jadav Chandra Das & Debashis De. (2015) User Authentication Based on Quantum-Dot Cellular Automata Using Reversible Logic for Secure Nanocommunication. Arabian Journal for Science and Engineering 41:3, pages 773-784.
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