- Authors:
- Nabila Abdessaied,
- Rolf Drechsler
This book presents a new optimization flow for quantum circuits realization. At the reversible level, optimization algorithms are presented to reduce the quantum cost. Then, new mapping approaches to decompose reversible circuits to quantum circuits using different quantum libraries are described. Finally, optimization techniques to reduce the quantum cost or the delay are applied to the resulting quantum circuits. Furthermore, this book studies the complexity of reversible circuits and quantum circuits from a theoretical perspective.
Index Terms
- Reversible and Quantum Circuits: Optimization and Complexity Analysis
Recommendations
Designing new ternary reversible subtractor circuits
The reducing of the width of quantum reversible circuits makes multiple-valued reversible logic a very promising research area. Ternary logic is one of the most popular types of multiple-valued reversible logic, along with the Subtractor, which is among ...
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 as well as ultra low power VLSI circuits. Recently, several researchers have focused ...