Quantum Circuit Optimization

Abstract:
Describing a scalable protocol for optimizing the quantum cost of the 3-bit reversible circuits built using NCT library. This technique takes into account a group theory approach. The algorithm analyzes the equivalent quantum circuits obtained by decomposing the reversible circuit to its elementary quantum gates and
then applies optimization rules to reduce the number of the used elementary quantum gates.

Dr. Rasha Montaser, PhD on Quantum computing. currently Instructor of computer science at Faculty of Science Alexandria university. Manager of the Center of excellence for quantum computing in the faculty of science at Alexandria university. previously worked as Intermediate instructor at Zewail city of science and technology in Alexandria university till 2017. Interested in quantum circuit designing and optimization, publications: Montaser, R., Younes, A., Abdel-Aty, M.: Improving the quantum cost of NCT-based reversible circuit. Quant. Inf. Process., Springer 14(2), 325–351 (2013), Montaser, R., Younes, A., Abdel-Aty, M.: New designs of universal reversible gate library. Quantum Matter, American Scientific Publishers 6, 1-8 (2017), Montaser, R., Younes, A., Abdel-Aty, M.: New Design of Reversible Full Adder/Subtractor Using R Gate, International Journal of Theoretical Physics, springer 58: 167–183 (2019).

Moderators: Pawel Gora, CEO of Quantum AI Foundation, Kareem ElSafty, organizor of QEgypt,
Dr. Sebastian Zajac, member of QPoland