A Highly Efficient VLSI Architecture for H.264/AVC Level 5.1 CABAC Decoder

Author

Liao, Yuan-Hsin ; Li, Gwo-Long ; Chang, Tian-Sheuan

Author_Institution

PixArt Imagine, Inc., Hsinchu, Taiwan

Volume

22

Issue

2

fYear

2012

Firstpage

272

Lastpage

281

Abstract

In this paper, a high throughput context-based adaptive binary arithmetic coding decoder design is proposed. This decoder employs a syntax element prediction method to solve pipeline hazard problems. It also uses a new hybrid memory two-symbol parallel decoding in order to enhance performance as well as to reduce costs. The critical path delay of the two-symbol binary arithmetic decoding engine is improved by 28% with an efficient mathematical transform. Experimental results show that the throughput of our proposed design can reach 485.76 Mbins/s in the high bit-rate coding and 446.2 Mbins/s on average at 264MHz operating frequency, which is sufficient to support H.264/AVC level 5.1 real-time decoding.

Keywords

VLSI; adaptive codes; arithmetic codes; decoding; real-time systems; video coding; CABAC decoder; H.264/AVC; VLSI architecture; context-based adaptive binary arithmetic coding; parallel decoding; real-time decoding; syntax element prediction; Context; Context modeling; Decoding; Hardware; Pipeline processing; Switches; Syntactics; Binary arithmetic coding; CABAC; H.264/AVC; entropy decoding; syntax parsing;

fLanguage

English

Journal_Title

Circuits and Systems for Video Technology, IEEE Transactions on

Publisher

ieee

ISSN

1051-8215

Type

jour

DOI

10.1109/TCSVT.2011.2160752

Filename

5934379