DocumentCode
3203402
Title
A Low Power, Fully Pipelined JPEG-LS Encoder for Lossless Image Compression
Author
Li, XiaoWen ; Chen, Xinkai ; Xie, Xiang ; Li, GuoLin ; Li Zhang ; Zhang, Chun ; Wang, ZhiHua
Author_Institution
Tsinghua Univ., Beijing
fYear
2007
fDate
2-5 July 2007
Firstpage
1906
Lastpage
1909
Abstract
By analyzing the features unfit for parallel computation and low power implementation, a VLSI architecture of JPEG-LS encoder for lossless image compression is proposed in this paper. It functionally consists of four parts: Mode decision module, clock controller, three linear parallel pipelines, and a two-tier data packer. Computations are organized in a fully pipelined style in these modules, so that real time data processing can be achieved. The clock management scheme with four interlaced clock domains and a dedicated clock controller is applied to ensure the bottleneck calculation, reduce the clock frequency on non-critical paths, and shut off the working clocks of idle modules, which reduces 15.7% of overall power consumption. The proposed JPEG-LS encoder with the features of low power and high processing speed, has been applied in a wireless endoscopy system.
Keywords
VLSI; clocks; data compression; endoscopes; image coding; low-power electronics; medical image processing; VLSI architecture; bottleneck calculation; clock management scheme; dedicated clock controller; fully pipelined JPEG-LS encoder; interlaced clock; lossless image compression; low power JPEG-LS encoder; real time data processing; wireless endoscopy system; Clocks; Computer architecture; Concurrent computing; Data processing; Energy management; Frequency; Image analysis; Image coding; Pipelines; Very large scale integration; JPEG-LS; clock management scheme; fully pipelined architecture; low power application; real time data processing;
fLanguage
English
Publisher
ieee
Conference_Titel
Multimedia and Expo, 2007 IEEE International Conference on
Conference_Location
Beijing
Print_ISBN
1-4244-1016-9
Electronic_ISBN
1-4244-1017-7
Type
conf
DOI
10.1109/ICME.2007.4285048
Filename
4285048
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