Comprehensive and comparative analysis of QCA-based circuit designs for next-generation computation
For the past several decades, VLSI design has been focused on lowering the size, power,
and delay. As of now, this miniaturization does not seems to be a possible way to address …
and delay. As of now, this miniaturization does not seems to be a possible way to address …
Defects of quantum dot cellular automata computing devices: an extensive review, evaluation, and future directions
Quantum dot cellular automata (QCA), a nanoscale technology, are more prone to faults due
to their diminutive size and precise fabrication process. The defects of QCA circuits have …
to their diminutive size and precise fabrication process. The defects of QCA circuits have …
[HTML][HTML] Quantum-Dot CA-Based Fredkin Gate and Conservative D-latch for Reliability-Based Information Transmission on Reversible Computing
JC Jeon - Electronics, 2024 - mdpi.com
Reversible computation is very important to minimize energy dissipation and prevent
information loss not only in quantum computing but also in digital computing. Therefore …
information loss not only in quantum computing but also in digital computing. Therefore …
Fredkin gate based energy efficient reversible D flip flop design in quantum dot cellular automata
The latest developments in the electronics industry demands for ultra-low power dissipation
circuit designing. Reversible logic, an emerging technology for designing digital circuits, is …
circuit designing. Reversible logic, an emerging technology for designing digital circuits, is …
Realization of processing-in-memory using binary and ternary quantum-dot cellular automata
Abstract Processing-in-memory (PIM) is a computing paradigm through which computations
and processing can be performed within the memory of a computer, server, or related …
and processing can be performed within the memory of a computer, server, or related …
Novel Feynman-based reversible and fault-tolerant nano-communication arithmetic architecture based on QCA technology
Quantum-dot cellular automata (QCA) has advantages such as low energy dissipation and
high density as a suitable alternative to CMOS technology. The arithmetic element is one …
high density as a suitable alternative to CMOS technology. The arithmetic element is one …
QCA-based ram design using a resilient reversible gate with improved performance
Reversible logic and Quantum dot cellular automata are the prospective pillars of quantum
computing. These paradigms can potentially reduce the size and power of the future chips …
computing. These paradigms can potentially reduce the size and power of the future chips …
Odd Counter: New Design and Performance Analysis using Carbon Nano Tube Transistors for High Performance Applications
Recent advances in CMOS technologies and beyond CMOS technologies have enabled the
researchers to design the circuits for High Performance Applications. This research paper is …
researchers to design the circuits for High Performance Applications. This research paper is …
Reversible logic based single layer flip flops and shift registers in QCA framework for the application of nano-communication
Abstract Quantum Dot Cellular Automata (QCA) and reversible logic are promising
paradigms which can effectively substitute the conventional Complementary Metal Oxide …
paradigms which can effectively substitute the conventional Complementary Metal Oxide …
[PDF][PDF] Design of reversible and non-reversible binary to gray and gray to binary converter using quantum Dot cellular automata
RE Ravindran, C Santhosh, SS Teja, SA Sujash… - Int J, 2020 - academia.edu
The advancement in technology increases day by day, that the conventional based CMOS
VLSI technology reached its peak due to physical limits like power dissipation and size. In …
VLSI technology reached its peak due to physical limits like power dissipation and size. In …