Algebraic Characterization of CNOT-Based Quantum Circuits with its Applications on Logic Synthesis

Author

Saeedi, Mehdi ; Zamani, Morteza Saheb ; Sedighi, Mehdi

Author_Institution

Comput. Eng. Dept., Amirkabir Univ. of Technol., Tehran, Iran

fYear

2007

fDate

29-31 Aug. 2007

Firstpage

339

Lastpage

346

Abstract

The exponential speed up of quantum algorithms and the fundamental limits of current CMOS process for future design technology have directed attentions toward quantum circuits. In this paper, the matrix specification of a broad category of quantum circuits, i.e. CNOT-based circuits, are investigated. We prove that the matrix elements of CNOT-based circuits can only be zeros or ones. In addition, the columns or rows of such a matrix have exactly one element with the value of 1. Furthermore, we show that these specifications can be used to synthesize CNOT-based quantum circuits. In other words, a new scheme is introduced to convert the matrix representation into its SOP equivalent using a novel quantum-based Karnaugh map extension. We then apply a search-based method to transform the obtained SOP into a CNOT-based circuit. Experimental results prove the correctness of the proposed concept.

Keywords

algebraic specification; logic simulation; matrix algebra; quantum gates; CNOT-based quantum circuits; algebraic characterization; logic synthesis; matrix representation; matrix specification; quantum algorithms; quantum-based Karnaugh map extension; search-based method; Application software; Biological system modeling; Biology computing; CMOS logic circuits; CMOS technology; Circuit synthesis; Logic circuits; Logic functions; Quantum computing; Semiconductor device modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

Digital System Design Architectures, Methods and Tools, 2007. DSD 2007. 10th Euromicro Conference on

Conference_Location

Lubeck

Print_ISBN

978-0-7695-2978-3

Type

conf

DOI

10.1109/DSD.2007.4341490

Filename

4341490