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1. Designing a one-bit coplanar QCA ALU using a novel robust area-efficient three-input majority gate design

   Quantum-dot cellular automata (QCA) which is a suitable alternative to conventional CMOS technology is susceptible to some defects in chemical...

   Samira Riki, Fatemeh Serajeh Hassani in The Journal of Supercomputing

   Article 10 May 2023
   

2. Investigating multiple defects on a new fault-tolerant three-input QCA majority gate

   Quantum-dot cellular automata (QCA) are a new technology used to fabricate digital circuits on the nanoscale in place of CMOS technology, which has...

   Seyed Amir Hossein Foroutan, Reza Sabbaghi-Nadooshan, ... Mohammad Bagher Tavakoli in The Journal of Supercomputing

   Article 19 January 2021
   

3. Using a nanoscale technology for designing fault-tolerant 2:1 multiplexer based on a majority gate

   In today’s environment, digital technology and digital computing are unavoidable components of the creation of electronic gadgets. Quantum-dot...

   Rongyi He, **aoqun Wang, Kairui Gao in Photonic Network Communications

   Article 06 July 2022
   

4. The design and implementation of a robust single-layer QCA ALU using a novel fault-tolerant three-input majority gate

   Inverter and majority gates are considered as two important primitive gates for designing logical circuits in the quantum-dot cellular automata (QCA)...

   Seyed-Sajad Ahmadpour, Mohammad Mosleh, Saeed Rasouli Heikalabad in The Journal of Supercomputing

   Article 14 March 2020
   

5. Fast Large-Scale Honest-Majority MPC for Malicious Adversaries

   Protocols for secure multiparty computation enable a set of parties to compute a function of their inputs without revealing anything but the output....

   Koji Chida, Koki Hamada, ... Ariel Nof in Journal of Cryptology

   Article 18 April 2023
   

6. High-Throughput Secure Three-Party Computation with an Honest Majority

   In the setting of secure multiparty computation, a set of parties wish to carry out a joint computation of their inputs while kee** them private....

   Jun Furukawa, Yehuda Lindell, ... Or Weinstein in Journal of Cryptology

   Article 22 May 2023
   

7. 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
   

8. SuperPack: Dishonest Majority MPC with Constant Online Communication

   In this work we present a novel actively secure dishonest majority MPC protocol, SuperPack, whose efficiency improves as the number of honest parties...

   Daniel Escudero, Vipul Goyal, ... Chenkai Weng in Advances in Cryptology – EUROCRYPT 2023

   Conference paper 2023
   

9. Efficient implementation of majority-inverter graph logic and arithmetic functions with memristor arrays

   Zhouchao Gan, Dongdong Zhang, ... **ngsheng Wang in Science China Information Sciences

   Article 24 June 2024

10. Novel design of reversible latches using feynman gate and implementation of reversible combinational circuits

    Quantum Dot Cellular Automata (QCA) technology is gaining popularity for its low power requirements, high speed and efficient miniaturization of...

    Amita Asthana, Anil Kumar, Preeta Sharan in International Journal of Information Technology

    Article 02 September 2022
    

11. Sharing Transformation and Dishonest Majority MPC with Packed Secret Sharing

    In the last few years, the efficiency of secure multi-party computation (MPC) in the dishonest majority setting has increased by several orders of...

    Vipul Goyal, Antigoni Polychroniadou, Yifan Song in Advances in Cryptology – CRYPTO 2022

    Conference paper 2022
    

12. High-performance adder using a new XOR gate in QCA technology

    Quantum-dot Cellular Automata is one of the new nanoscale technologies that have been offered as a viable replacement for CMOS. QCA technology has...

    Ali Majeed, Esam Alkaldy in The Journal of Supercomputing

    Article 14 February 2022
    

13. Cyclic Gate Recurrent Neural Networks for Time Series Data with Missing Values

    Gated Recurrent Neural Networks (RNNs) such as LSTM and GRU have been highly effective in handling sequential time series data in recent years....

    Philip B. Weerakody, Kok Wai Wong, Guan** Wang in Neural Processing Letters

    Article Open access 24 July 2022
    

14. Survey of convolutional neural network accelerators on field-programmable gate array platforms: architectures and optimization techniques

    With the recent advancements in high-performance computing, convolutional neural networks (CNNs) have achieved remarkable success in various vision...

    Hyeonseok Hong, Dahun Choi, ... Hyun Kim in Journal of Real-Time Image Processing

    Article 29 March 2024
    

15. 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
    

16. 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
    

17. Pass Transistor XOR Gate Based Radiation Hardened RO-PUF

    Hardware security is important and need of the hour particularly for low cost electronic devices. Hardware-based encryption designs such as...

    Syed Farah Naz, Sajid Khan, Ambika Prasad Shah in VLSI Design and Test

    Conference paper 2022
    

18. A matrix representation method for decoders using majority gate characteristics in quantum-dot cellular automata

    Quantum-dot cellular automata (QCA) is a highly attractive alternative to CMOS for the future digital circuit design. Current methods for designing...

    Feifei Deng, Guangjun **e, ... Yongqiang Zhang in The Journal of Supercomputing

    Article 13 November 2019
    

19. 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
    

20. Automatic segmentation of COVID-19 from computed tomography images using modified U-Net model-based majority voting approach

    The coronavirus disease (COVID-19) is an important public health problem that has spread rapidly around the world and has caused the death of...

    Murat Uçar in Neural Computing and Applications

    Article 06 August 2022