A novel reversible synthesis of array multiplier

Abstract

Quantum computation has seen immense progress which has popularised logic synthesis with the help of reversible circuits. A reversible circuit is implemented with multiple special types of quantum gates, known as k-CNOT gates. Ion trapping or nuclear magnetic resonance are newer technologies required to emulate quantum gates. This paper presents a reversible synthesis of array multipliers based on Booths Algorithm implemented with reversible k-CNOT gates. Our work has been simulated using the online quantum simulator davyw and its features have been compared with existing reversible array multipliers.