This introductory textbook is written primarily for undergraduate students of physics,
mathematics, computer science and other related disciplines. It is also expected to be …

Quantum circuits of many qubits are extremely difficult to realize; thus, the number of qubits
is an important metric in a quantum circuit design. Further, scalable and reliable quantum …

Reversible logic has emerged as a promising computing paradigm having applications in
quantum computing, optical computing, dissipation less computing and low power …

As a result of the recent development of quantum computers, there has been a rise in
interest in both reversible logic synthesis and optimization strategies. Because every …

Power dissipation problem is one of the most challenging problems in designing
conventional electronic circuits. One of the best approaches to overcome this problem is to …

Today, reversible logic can be used for designing low-power CMOS circuits, optical data
processing, DNA computations, biological researches, quantum circuits and …

Reversible logic is a promising field of research that finds applications in low power
computing, quantum computing, optical computing, and other emerging computing …

Reversible computing is one of the most promising technologies in the design of low‐power
digital circuits, optical information processing, quantum computing, DNA computing, digital …

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Quantum circuits for performing an arithmetic operation are necessary for the
implementation of quantum computing peripherals. An effective quantum circuit can be …