Synthesis of reversible circuits is an active research area motivated by its applications eg in
quantum computation or low-power design. The number of used circuit lines is thereby a …

Reversible logic became a promising alternative to traditional circuits because of its
applications eg in low-power design and quantum computation. As a result, design of …

Additional lines are required to implement an irreversible function as a reversible circuit. The
emphasis, particularly in automated synthesis methods, has been on using the minimal …

Reversible computation is a heavily investigated emerging technology due to its promising
characteristics in low-power design, its application in quantum computations, and several …

Motivated by its application in several emerging technologies, the synthesis of reversible
circuits has received significant attention in the last decade. The proposed methods can …

Reversible circuits are an emerging technology where all computations are performed in an
invertible manner. Motivated by their promising applications, eg in the domain of quantum …

Many reversible circuit synthesis procedures have been proposed. A common feature of
most methods is that the initial specification must be a completely-specified reversible …

This paper presents a new algorithm MP (multiple pass) to synthesize large reversible
binary circuits without ancilla bits. The MMD algorithm requires to store a truth table (or a …

Recently, one of the main criteria used to evaluate reversible circuit designs is quantum cost.
In this paper, an approach to reducing quantum cost of small-width reversible circuits is …

Reversible logic has applications in various research areas including low-power design and
quantum computation. In this paper, a rule-based optimization approach for reversible …