VLSI programming of a low-power asynchronous Reed-Solomon decoder for the DCC player

Author

Kessels, Joep

Author_Institution

Philips Res. Lab., Eindhoven, Netherlands

fYear

1995

fDate

30-31 May 1995

Firstpage

44

Lastpage

52

Abstract

A fully asynchronous Reed-Solomon decoder for the DCC player has been designed in the VLSI programming language Tangram. The main design aim was minimal power dissipation. The design decisions leading to a low-power cost-effective design are discussed. The asynchronous circuit has been fabricated and successfully incorporated in a working DCC system. We estimate that this chip is less than 20% larger in area and at a supply voltage of 5 V five times more economic in power consumption than existing clocked implementations. The chip has two power pins: one for a low and one for a high voltage. Depending on the work-load the circuit dynamically selects one of the two supply voltages by means of a power switch. If the chip is operated at 1.5 V and 5 V, the power dissipation is further reduced by a factor 20

Keywords

Reed-Solomon codes; VLSI; asynchronous circuits; decoding; digital audio tape; logic programming; power consumption; DCC player; Tangram; VLSI programming; asynchronous circuit; low-power asynchronous Reed-Solomon decoder; low-power cost-effective design; minimal power dissipation; power consumption; Asynchronous circuits; Computer languages; Decoding; Energy consumption; Power dissipation; Power generation economics; Power system economics; Reed-Solomon codes; Very large scale integration; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Asynchronous Design Methodologies, 1995. Proceedings., Second Working Conference on

Conference_Location

London

Print_ISBN

0-8186-7098-3

Type

conf

DOI

10.1109/WCADM.1995.514641

Filename

514641