Efficient Implementation of Controlled Operations for Multivalued Quantum Logic

Author

Rosenbaum, David ; Perkowski, Marek

Author_Institution

Dept. of Comput. Sci., Portland State Univ., Portland, OR

fYear

2009

Firstpage

86

Lastpage

91

Abstract

This paper presents a new quantum array that can be used to control a single-qudit Hermitian operator for an odd radix r > 2 by n controls using Theta(n^log ₂ ^r+2) single-qudit controlled gates with one control and no ancilla qudits. This quantum array is more practical than existing quantum arrays of the same complexity because it does not require the use of small roots of the operation that is being implemented. Another quantum array is also presented that implements a single-qudit operator with n controls for any radix r > 2 using lceillog_r-1nrceil ancilla qudits and Theta(n^log _r-1 ²⁺¹) single-qudit gates with one control.

Keywords

circuit complexity; logic arrays; mathematical operators; multivalued logic; quantum gates; circuit complexity; multivalued quantum logic gate; quantum array; single-qudit Hermitian operator; single-qudit controlled gate; Arithmetic; Circuit synthesis; Computer science; Logic arrays; Logic circuits; Multivalued logic; Quantum computing; Controlled; Logic; Multivalued; Operation; Quantum;

fLanguage

English

Publisher

ieee

Conference_Titel

Multiple-Valued Logic, 2009. ISMVL '09. 39th International Symposium on

Conference_Location

Naha, Okinawa

ISSN

0195-623X

Print_ISBN

978-1-4244-3841-9

Electronic_ISBN

0195-623X

Type

conf

DOI

10.1109/ISMVL.2009.27

Filename

5010380