Low-power and low-complexity architecture for H.264/AVC video decoder

2007 50th Midwest Symposium on Circuits and Systems Pub Date : 2007-08-01 DOI:10.1109/MWSCAS.2007.4488785
Li-Hsun Chen, O. Chen
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Abstract

This work proposes an architecture for the H.264/AVC video decoder, of which each functional unit is modularly pipelined and optimized to reduce its hardware complexity. The local buffers are adequately allocated to expedite data communication and to minimize the data access from external memory, thereby to raise computation efficiency and to lower power consumption. By using the cell library of the TSMC 0.25 mum CMOS technology, the proposed hardware core of the H.264/AVC video decoder with a die size of 12.86 mum2 consumes 217.2 mW at 2.5 V and 27 MHz to yield a decoding throughput rate of 30 CIF frames per second. As compared to the conventional H.264/AVC video decoder, the proposed video decoder takes less power and hardware cost.
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H.264/AVC视频解码器的低功耗、低复杂度架构
本文提出了一种H.264/AVC视频解码器的体系结构,其中每个功能单元都是模块化的流水线化和优化,以降低其硬件复杂性。充分分配本地缓冲区,以加快数据通信速度,最大限度地减少外部存储器对数据的访问,从而提高计算效率,降低功耗。采用台积电0.25 μ m CMOS技术的单元库,提出的H.264/AVC视频解码器的硬件核心,其芯片尺寸为12.86 μ m,在2.5 V和27 MHz下消耗217.2 mW,解码吞吐率为每秒30 CIF帧。与传统的H.264/AVC视频解码器相比,该解码器功耗低,硬件成本低。
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2007 50th Midwest Symposium on Circuits and Systems
2007 50th Midwest Symposium on Circuits and Systems
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