A 124 Mpixels/s VLSI Design for Histogram-Based Joint Bilateral Filtering

Author

Tseng, Yu-Cheng ; Hsu, Po-Hsiung ; Chang, Tian-Sheuan

Author_Institution

Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan

Volume

20

Issue

11

fYear

2011

Firstpage

3231

Lastpage

3241

Abstract

This paper presents an efficient and scalable design for histogram-based bilateral filtering (BF) and joint BF (JBF) by memory reduction methods and architecture design techniques to solve the problems of high memory cost, high computational complexity, high bandwidth, and large range table. The presented memory reduction methods exploit the progressive computing characteristics to reduce the memory cost to 0.003%-0.020%, as compared with the original approach. Furthermore, the architecture design techniques adopt range domain parallelism and take advantage of the computing order and the numerical properties to solve the complexity, bandwidth, and range-table problems. The example design with a 90-nm complementary metal-oxide-semiconductor process can deliver the throughput to 124 Mpixels/s with 356-K gate counts and 23-KB on-chip memory.

Keywords

CMOS integrated circuits; VLSI; computational complexity; filtering theory; integrated circuit design; storage management; VLSI design; architecture design technique; architecture design techniques computational complexity; complementary metal-oxide-semiconductor process; histogram-based joint bilateral filtering; joint BF; memory reduction method; on-chip memory; progressive computing characteristics; range-table problem; size 90 nm; Acceleration; Bandwidth; Computational complexity; Convolution; Histograms; Kernel; Pixel; Bilateral filtering (BF); integral histogram (IH); very-large-scale-integration (VLSI) design;

fLanguage

English

Journal_Title

Image Processing, IEEE Transactions on

Publisher

ieee

ISSN

1057-7149

Type

jour

DOI

10.1109/TIP.2011.2159226

Filename

5872041