Title :
Efficient encoder design for JPEG2000 EBCOT context formation
Author :
Chi-Chin Chang ; Sau-Gee Chen ; Jui-Chiu Chiang
Author_Institution :
VIA Technol., Inc., Tappei, Taiwan
Abstract :
JPEG2000 is the state-of-the-art compression standard. Its high performance is achieved by using EBCOT algorithm. In this paper, we present two methods to improve the computation efficiency, hardware utilization and area reduction for pass-parallel context formations (CF) of EBCOT. The first one called Sample-Parallel Pass-Type Decision (SPPD) method improves the performance in deciding the pass types of all four samples in the same column, while the second one called Column-Based Pass-Parallel Coding (CBPC) method codes all four samples in the same column concurrently. Simulation results based on TSMC CMOS 0.15μm process indicate that the CF architecture based on the proposed techniques reduces 13.83% of the encoding time, 18.28% of the hardware cost, and increase 34.78% of the hardware utilization, compared to the original pass-parallel CF.
Keywords :
CMOS integrated circuits; data compression; discrete wavelet transforms; image coding; quantisation (signal); CBPC method; CF architecture; EBCOT algorithm; JPEG2000 EBCOT context formation; SPPD method; TSMC CMOS 0.15μm process; area reduction; column-based pass-parallel coding method; compression standard; computation efficiency improvement; discrete wavelet transform; efficient encoder design; hardware utilization; pass-parallel context formations; sample-parallel pass-type decision method; scalar quantization; Clocks; Computer architecture; Context; Encoding; Hardware; Signal processing algorithms; Transform coding;
Conference_Titel :
Signal Processing Conference, 2007 15th European
Conference_Location :
Poznan
Print_ISBN :
978-839-2134-04-6
