Quantum Ternary Circuit Synthesis Using Projection Operations
Abstract
Basic logic gates and their operations in ternary quantum domain are involved in the synthesis of ternary quantum circuits. Only a few works define ternary algebra for ternary quantum logic realization. In this paper, a ternary logic function is expressed in terms of projection operations including a new one. A method to realize new multi-qutrit ternary gates in terms of generalized ternary gates and projection operations is also presented. We also introduced ten simplification rules for reducing ancilla qutrits and gate levels. Our method yields lower gate cost and fewer gate levels and ancilla qutrits than that obtained by earlier methods for the ternary benchmark circuits. The qutrit ternary sum function is synthesized without any ancilla qutrit by our proposed methodology.
Keywords
Cite
@article{arxiv.1205.2390,
title = {Quantum Ternary Circuit Synthesis Using Projection Operations},
author = {Sudhindu Bikash Mandal and Amlan Chakrabarti and Susmita Sur-Kolay},
journal= {arXiv preprint arXiv:1205.2390},
year = {2012}
}