Synthesis and optimization of reversible circuits—a survey
Reversible logic circuits have been historically motivated by theoretical research in low-
power electronics as well as practical improvement of bit manipulation transforms in …
power electronics as well as practical improvement of bit manipulation transforms in …
BDD-based synthesis of reversible logic for large functions
Reversible logic is the basis for several emerging technologies such as quantum computing,
optical computing, or DNA computing and has further applications in domains like low …
optical computing, or DNA computing and has further applications in domains like low …
Design of reversible sequential circuits optimizing quantum cost, delay, and garbage outputs
Reversible logic has shown potential to have extensive applications in emerging
technologies such as quantum computing, optical computing, quantum dot cellular automata …
technologies such as quantum computing, optical computing, quantum dot cellular automata …
Synthesis of quantum circuits for linear nearest neighbor architectures
While a couple of impressive quantum technologies have been proposed, they have several
intrinsic limitations which must be considered by circuit designers to produce realizable …
intrinsic limitations which must be considered by circuit designers to produce realizable …
One-pass design of reversible circuits: Combining embedding and synthesis for reversible logic
Reversible computation is a heavily investigated emerging technology due to its promising
characteristics in low-power design, its application in quantum computations, and several …
characteristics in low-power design, its application in quantum computations, and several …
Design of efficient reversible logic-based binary and BCD adder circuits
Reversible logic is gaining significance in the context of emerging technologies such as
quantum computing since reversible circuits do not lose information during computation and …
quantum computing since reversible circuits do not lose information during computation and …
Exact reordering of circuit lines for nearest neighbor quantum architectures
Research in the domain of quantum computation is mainly driven by their promising
applications eg, for factorization or database search. At the same time, physical …
applications eg, for factorization or database search. At the same time, physical …
[PDF][PDF] Revkit: a Toolkit for reversible circuit design.
In recent years, research in the domain of reversible circuit design has attracted significant
attention leading to many different approaches for eg synthesis, optimization, simulation …
attention leading to many different approaches for eg synthesis, optimization, simulation …
An exact method for design exploration of quantum-dot cellular automata
Quantum-dot Cellular Automata (QCA) are an emerging computation technology in which
basic states are represented by nanosize particles and logic operations are conducted …
basic states are represented by nanosize particles and logic operations are conducted …
RevKit: An open source toolkit for the design of reversible circuits
In recent years, research in the domain of reversible circuit design has attracted significant
attention leading to many different approaches eg for synthesis, optimization, simulation …
attention leading to many different approaches eg for synthesis, optimization, simulation …