H.264/SVC的高效前向二维DCT模块架构

Proceedings of 2010 21st IEEE International Symposium on Rapid System Protyping Pub Date : 2010-06-08 DOI:10.1109/RSP.2010.5656330

R. Husemann, M. Majolo, V. Roesler, J. V. D. Lima, A. Susin

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引用次数: 1

摘要

新兴的H.264 SVC(可伸缩视频编码)标准指定了一种编码器解决方案，负责生成多层流，为现代多媒体应用程序提供了额外的灵活性。不同层之间增加的数据依赖性要求显著的整体编码器性能。为了在实时应用中使用SVC解决方案，我们提出了一种优化的计算正演二维离散余弦变换模块的硬件实现。提出的解决方案引入了一个快速的流水线架构，专门用于探索硬件并行性和克服内存访问延迟，在一个时钟周期内有效地处理多达8个像素样本。实际结果表明，该方案在提高SVC编码器性能的同时，降低了对编码器复杂度的影响。

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Highly efficient forward two-dimensional DCT module architecture for H.264/SVC

The emerging H.264 SVC (Scalable Video Coding) standard specifies an encoder solution responsible for generating a multi-layer stream, which provides extra flexibility for modern multimedia applications. The increased data dependency among different layers demands a significant overall encoder performance. Aiming the use of an SVC solution in real-time applications we propose an optimized hardware implementation of the computational forward two-dimensional discrete cosine transform module. The proposed solution introduces a fast pipelined architecture specially designed to explore hardware parallelism and to surmount memory access delays, processing efficiently up to eight pixel samples in a clock cycle. Practical results confirm the proposal as a high efficient solution able to speedup SVC encoder performance with reduced impacts in complexity.

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Proceedings of 2010 21st IEEE International Symposium on Rapid System Protyping

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