An integrated HDTV predictive pixel compensator for H.264/AVC decoder

2011 IEEE International Conference on IC Design & Technology Pub Date : 2011-05-02 DOI:10.1109/ICICDT.2011.5783228

Ting-Chi Tong, Yun-Nan Chang

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Abstract

In this paper, a highly efficient pixel compensator architecture for the H.264/AVC standard is proposed which can provide both inter and intra prediction functions for luma and chroma components of pixels. By decomposing the algorithms used for both prediction methods into small micro-operation steps, a suitable common arithmetic unit architecture capable for performing these operations has been determined. Next, taking into account the possible reference sample transfer scenario, the overall compensator architecture consists of some buffers and multiple common arithmetic units considering is proposed. Since both arithmetic units and the intermediate data buffer for both inter and intra prediction processes have been shared, our integrated design can achieve more than 31% reduction of gate count compared with the sum of the separate designs. Our design can also lead to more than 37% saving of gate count compared with the previous designs. Our compensator can decode the videos up to HDTV resolution, and be applied for the dedicated H.264 hardware codec for various consumer devices.

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用于H.264/AVC解码器的集成HDTV预测像素补偿器

针对H.264/AVC标准，提出了一种高效的像素补偿器结构，该结构能够同时对像素的亮度和色度分量提供帧间和帧内预测功能。通过将两种预测方法使用的算法分解为小的微操作步骤，确定了能够执行这些操作的合适的通用算术单元体系结构。其次，考虑到可能的参考样本传输情况，提出了由一些缓冲区和多个通用算术单元组成的补偿器总体结构。由于用于内部和内部预测过程的算术单元和中间数据缓冲区都是共享的，因此与单独设计的总和相比，我们的集成设计可以实现门数减少31%以上。与以前的设计相比，我们的设计还可以节省37%以上的门数。我们的补偿器可以将视频解码到HDTV分辨率，并适用于各种消费设备的专用H.264硬件编解码器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 IEEE International Conference on IC Design & Technology

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