Design of Reversible Finite Field Arithmetic Circuits with Error Detection

Author

Mathew, Jimson ; Rahaman, Hafizur ; Jose, Babita R. ; Pradhan, Dhiraj K.

Author_Institution

Univ. of Bristol, Bristol

fYear

2008

fDate

4-8 Jan. 2008

Firstpage

453

Lastpage

459

Abstract

Motivated by the potential of reversible computing, we present a systematic method for the designing reversible arithmetic circuits for finite field or Galois fields of form GF(2m). It is shown that an adder over GF(2m) can be designed with m garbage bits and that of a PB multiplier with 2m garbage bits. To tackle the problem of errors in computation, we also extend the circuit with error detection feature. Gate count and technology oriented cost metrics are used for evaluation. The expression for the upper bound for gate size is also derived for special primitive polynomials. Our technique, when compared with existing CAD tool gives the same gate size and quantum cost.

Keywords

Galois fields; adders; error detection; logic circuits; logic design; logic gates; multiplying circuits; polynomials; Galois fields; PB multiplier; adder; error detection; gate count; gate size; gate technology; primitive polynomials; quantum cost; reversible computing; reversible finite field arithmetic circuit design; Adders; Arithmetic; Circuit synthesis; Costs; Design methodology; Error correction; Galois fields; Optical computing; Polynomials; Quantum computing;

fLanguage

English

Publisher

ieee

Conference_Titel

VLSI Design, 2008. VLSID 2008. 21st International Conference on

Conference_Location

Hyderabad

ISSN

1063-9667

Print_ISBN

0-7695-3083-4

Type

conf

DOI

10.1109/VLSI.2008.96

Filename

4450542