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1. Nano-design of ultra-efficient reversible block based on quantum-dot cellular automata

   Reversible logic has recently gained significant interest due to its inherent ability to reduce energy dissipation, which is the primary need for...

   Seyed Sajad Ahmadpour, Nima Jafari Navimipour, ... Senay Yalcin in Frontiers of Information Technology & Electronic Engineering

   Article 27 March 2023

2. Design and implementation of carry-save adder using quantum-dot cellular automata

   Adders are generally made in standard CMOS technology. However, at the nanoscale, CMOS technology faces some issues, such as less control over the...

   Melika Amiri, Massoud Dousti, Majid Mohammadi in The Journal of Supercomputing

   Article 19 July 2023
   

3. An ultra-dense and cost-efficient coplanar RAM cell design in quantum-dot cellular automata technology

   The quantum-dot cellular automata (QCA) are an alternative nanotechnology for overcoming the drawbacks of traditional CMOS technology. QCA is one of...

   Mukesh Patidar, Ankit Jain, ... Nilesh Patidar in The Journal of Supercomputing

   Article 01 November 2023
   

4. Low-power, high-speed, and area-efficient sequential circuits by quantum-dot cellular automata: T-latch and counter study

   Quantum-dot cellular automata (QCA) is a new nanotechnology for the implementation of nano-sized digital circuits. This nanotechnology is remarkable...

   Mohammad Gholami, Zaman Amirzadeh in Frontiers of Information Technology & Electronic Engineering

   Article 27 March 2023

5. Introducing scalable 1-bit full adders for designing quantum-dot cellular automata arithmetic circuits

   Designing logic circuits using complementary metal-oxide-semiconductor (CMOS) technology at the nano scale has been faced with various challenges...

   Hamideh Khajehnasir-Jahromi, Pooya Torkzadeh, Massoud Dousti in Frontiers of Information Technology & Electronic Engineering

   Article 24 August 2022

6. Novel ultra-energy-efficient reversible designs of sequential logic quantum-dot cellular automata flip-flop circuits

   Quantum-dot cellular automata (QCA) is a technological approach to implement digital circuits with exceptionally high integration density, high...

   Mohammed Alharbi, Gerard Edwards, Richard Stocker in The Journal of Supercomputing

   Article Open access 01 March 2023
   

7. Logic Realization of Galois Field for AES SBOX using Quantum Dot Cellular Automata

   With the growing technological trends in VLSI domain, quantum dot cellular automata (QCA) technology is slowly replacing CMOS technology due to its...

   P. Rajasekar, H. Mangalam, C. S. Subash Kumar in The Journal of Supercomputing

   Article 29 August 2022
   

8. Design of novel area-efficient coplanar reversible arithmetic and logic unit with an energy estimation in quantum-dot cellular automata

   A quantum-dot cellular automaton is a new technology that solves all the disputes CMOS technology faces. Quantum-dot cellular automata-based...

   Rama Krishna Reddy Venna, G. Durga Jayakumar in The Journal of Supercomputing

   Article 04 August 2022
   

9. A creative concept for designing and simulating quaternary logic gates in quantum-dot cellular automata

   New technologies such as quantum-dot cellular automata (QCA) have been showing some remarkable characteristics that standard...

   Alireza Navidi, Reza Sabbaghi-Nadooshan, Massoud Dousti in Frontiers of Information Technology & Electronic Engineering

   Article 25 November 2021

10. A modular approach to design ternary content addressable memory architecture in quantum dot cellular automata

    Quantum-dot cellular automata (QCA) is evolving as a prominent field coupled nano-electronic technology to fulfill the demand for low power...

    Mrinal Goswami, Jayanta Pal, ... Prashant Rawat in International Journal of Information Technology

    Article 14 January 2022
    

11. Realization of processing-in-memory using binary and ternary quantum-dot cellular automata

    Processing-in-memory (PIM) is a computing paradigm through which computations and processing can be performed within the memory of a computer,...

    Leila Dehbozorgi, Reza Sabbaghi-Nadooshan, Alireza Kashaninia in The Journal of Supercomputing

    Article 28 October 2021
    

12. Novel optimized low power design of single-precision floating-point adder using Quantum-dot Cellular Automata

    As the fabrication technology goes beyond nano-scale, the VLSI layout design using Complementary Metal Oxide Semiconductor (CMOS) becomes obsolete...

    A. Arunkumar Gudivada, Gnanou Florence Sudha in The Journal of Supercomputing

    Article 11 October 2021
    

13. High performance nanocomparator: a quantum dot cellular automata-based approach

    Quantum dot cellular automata (QCA) are emerging nanotechnology that offers few significant advantages like faster speed, higher circuit density, and...

    Angshuman Khan, Rajeev Arya in The Journal of Supercomputing

    Article 28 June 2021
    

14. Designing a three-level full-adder based on nano-scale quantum dot cellular automata

    Some of the vital problems around the conventional CMOS technology are leakage-power consumption, physical-scalability limits, and short-channel...

    Saeid Seyedi, Nima Jafari Navimipour in Photonic Network Communications

    Article 26 October 2021
    

15. Novel optimized ultra-dense 1-bit magnitude comparator design in quantum-dot cellular automata technology based on MV32 gate

    Quantum-dot cellular automata (QCA) are based on the nanoscale and used as an alternative for Complementary Metal Oxide (CMOS) semiconductor...

    Nehru Kandasamy, Vaishali Dhare, Nagarjuna Telagam in The Journal of Supercomputing

    Article 11 June 2022
    

16. Configurable memory designs in quantum-dot cellular automata

    Quantum-dot cellular automata (QCA) has the capability to scale down beyond the range of CMOS. Besides wide acceptance of QCA, it suffers from...

    Mrinal Goswami, Rohit Tanwar, ... Bibhash Sen in International Journal of Information Technology

    Article 05 May 2021
    

17. Enhancing security in QCA-based circuits using optimal key gate placement

    Quantum-dot Cellular Automata (QCA) is an emerging nanotechnology that explores the potential of using quantum effects to build compact and...

    M. Amutha, K. R. Kavitha in International Journal of Information Security

    Article 17 April 2024
    

18. Novel high-performance QCA Fredkin gate and designing scalable QCA binary to gray and vice versa

    In the design of digital logic circuits, QCA technology is an excellent alternative to CMOS technology. Its advantages over CMOS include low power...

    Behrouz Safaiezadeh, Lauri Kettunen, Majid Haghparast in The Journal of Supercomputing

    Article Open access 22 November 2022
    

19. Design of a multilayer reversible ALU in QCA technology

    A promising alternative for the CMOS technology is the Quantum-dot Cellular Automata (QCA) technology. In this technology, the low-latency,...

    Reza Faraji, Abdalhossein Rezai in The Journal of Supercomputing

    Article 23 April 2024
    

20. A sliced architecture using novel configurable logic modules in quantum dot cellular automata for application of field-programmable gate arrays

    Quantum dot cellular automata (QCA) is an emerging transistor-less paradigm with high chip density, ultra-low power and high-speed computation...

    Pankaj Singh, Rupali Singh in The Journal of Supercomputing

    Article 21 September 2022