Quantum circuit synthesis using classes of GF(3) reversible fast spectral transforms

Author

Al-Rabadi, Anas N.

fYear

2004

fDate

19-22 May 2004

Firstpage

87

Lastpage

93

Abstract

Novel quantum circuit synthesis, using reversible Davio expansions, is introduced. The new method uses two planes to synthesize the quantum circuits: (1) a reversible butterfly circuit plane; and (2) a plane of quantum gates to perform additions and multiplications. Since the reduction of power consumption is a major requirement for circuit design of future technologies, such as in quantum circuits, the main features of several future technologies must include reversibility, and thus the new synthesis method, using reversible butterfly circuits, can play an important role in the synthesis of circuits that consume minimal power.

Keywords

Galois fields; adders; logic design; low-power electronics; multiplying circuits; quantum gates; GF(3) reversible fast spectral transforms; addition circuits; multiplication circuits; power consumption reduction; quantum circuit synthesis; quantum gates plane; reversibility; reversible Davio expansions; reversible butterfly circuit plane; Buildings; Circuit synthesis; Circuit testing; Energy consumption; Galois fields; Moore´s Law; Quantum computing; Signal synthesis; Switches; Very large scale integration;

fLanguage

English

Publisher

ieee

Conference_Titel

Multiple-Valued Logic, 2004. Proceedings. 34th International Symposium on

ISSN

0195-623X

Print_ISBN

0-7695-2130-4

Type

conf

DOI

10.1109/ISMVL.2004.1319925

Filename

1319925