基于率失真优化的1.264块大小决策VLSI体系结构

2006 International Symposium on Intelligent Signal Processing and Communications Pub Date : 2006-12-01 DOI:10.1109/ISPACS.2006.364732

R. Hashimoto, K. Katou, G. Fujita, T. Onoye

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引用次数: 2

摘要

提出了一种基于率失真(RD)优化的H.264块大小决策的硬件实现方法。与传统的基于SAD/SATD的方法相比，RD成本用于块大小决策的PSNR可提高2.0 dB。然而，由于只有在完成块的整个编码过程后才能确定失真，因此计算块的RD成本会产生相当大的计算成本。因此，该方法简化了VLC过程，我们的硬件采用7阶段流水线架构进行成本计算。因此，所提出的架构可以由20k门实现，在23.7 MHz工作下以30 fps的速率实时处理SD (720times480)帧

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VLSI Architecture of 1.264 Block Size Decision based on Rate-Distortion Optimization

A novel approach to hardware implementation of H.264 block size decision is proposed, which is based on rate-distortion (RD) optimization. Utilization of RD cost for block size decision can improve up to 2.0 dB of PSNR in compared with conventional SAD/SATD based approaches. However, calculation of RD cost for a block incurs considerable computational costs since distortion can be determined only after completing the whole encoding processes of the block. Thus the proposed approach simplifies VLC process and our hardware employs 7 stage pipeline architecture for the cost calculation. As a result, the proposed architecture, which can be implemented by 20k gates, achieves real-time processing of SD (720times480) frames at a rate of 30 fps in 23.7 MHz operation

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2006 International Symposium on Intelligent Signal Processing and Communications

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