H.264/AVC Fractional Motion Estimation Engine with Computation Reusing in HDTV1080P Real-Time Encoding Applications

Yang Song, Ming Shao, Zhenyu Liu, Shen Li, Lingfeng Li, T. Ikenaga, S. Goto
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引用次数: 10

Abstract

H.264/AVC fractional motion estimation (FME) engine for HDTV1080p is proposed in this paper. In order to provide real-time processing capability with reasonable hardware cost, several techniques have been presented. Firstly, the H.264/AVC is optimized and only 1 reference frame and block modes above 8 × 8 are supported. Therefore, the computation is reduced to 11.4% and the PSNR loss is only 0.1dB. Secondly, the lossless inside-mode and cross-mode reusing techniques are adopted, which can reduce about 65% pixel generation and SATD calculation. Thirdly, the lossless optimized FME scheduling is used to remove the pipeline bubbles between adjacent 1/2-pel and 1/4-pel FME. The proposed FME engine is realized with TSMC 0.18¿m 1P6M CMOS technology and costs 203.2K gates and 52.8KB SRAM. Under 200MHz frequency, the proposed FME engine can real-time encode HDTV1080p at 30fps with 236mW power cost.
H.264/AVC分数运动估计引擎在HDTV1080P实时编码应用中的计算重用
提出了用于HDTV1080p的H.264/AVC分数运动估计(FME)引擎。为了在合理的硬件成本下提供实时处理能力,提出了几种技术。首先,对H.264/AVC进行了优化,只支持1个参考帧和8 × 8以上的块模式。因此,计算量减少到11.4%,PSNR损失仅为0.1dB。其次,采用无损内模和交叉模复用技术,可减少约65%的像素生成和SATD计算;第三,采用无损优化FME调度,去除相邻1/2-pel和1/4-pel FME之间的管道气泡。FME引擎采用TSMC 0.18¿m 1P6M CMOS技术实现,成本为203.2K栅极和52.8KB SRAM。在200MHz频率下,FME引擎可以以30fps的速度实时编码HDTV1080p,功耗为236mW。
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