H.264/AVC QFHD编码器的帧内预测结构

28th Picture Coding Symposium Pub Date : 2010-12-01 DOI:10.1109/PCS.2010.5702533

Gang He, Dajiang Zhou, Jinjia Zhou, S. Goto

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引用次数: 10

摘要

本文提出了一种高性能的支持H.264/AVC的帧内预测体系结构。提出的MB/块协同重排序可以避免数据依赖，提高管道利用率。因此，实时4k×2k编码的时间约束可以在质量损失可以忽略不计的情况下实现。16×16预测引擎和8×8预测引擎并行工作，用于预测和系数生成。对于全流水线架构，还设计了一种重排序交错重构。处理一个宏块(MB)只需要160个周期。预测和重构模块的硬件利用率几乎为100%。此外，为了节省硬件成本，提出了pe可重用8×8内预测器和混合SAD和SATD模式决策。该设计采用90nm CMOS技术实现，采用113.2k栅极，以60fps的速度编码4k×2k视频序列，工作频率为310MHz。

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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Intra prediction architecture for H.264/AVC QFHD encoder

This paper proposes a high-performance intra prediction architecture that can support H.264/AVC high profile. The proposed MB/block co-reordering can avoid data dependency and improve pipeline utilization. Therefore, the timing constraint of real-time 4k×2k encoding can be achieved with negligible quality loss. 16×16 prediction engine and 8×8 prediction engine work parallel for prediction and coefficients generating. A reordering interlaced reconstruction is also designed for fully pipelined architecture. It takes only 160 cycles to process one macroblock (MB). Hardware utilization of prediction and reconstruction modules is almost 100%. Furthermore, PE-reusable 8×8 intra predictor and hybrid SAD & SATD mode decision are proposed to save hardware cost. The design is implemented by 90nm CMOS technology with 113.2k gates and can encode 4k×2k video sequences at 60 fps with operation frequency of 310MHz.

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28th Picture Coding Symposium

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