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引用次数: 17
摘要
提出了H.264/AVC中分数阶运动估计和拉格朗日模式判定的高性能体系结构。我们的分数运动估计器采用数学模型来估计四分之一像素位置的SADs,而不是耗时的分数像素插值和二次搜索。计算时间和内存访问需求都大大降低,而质量没有明显下降。我们提出了一种新的模式决策成本函数,它比传统的低复杂度方法具有更好的性能。我们的设计采用台积电0.13 mum CMOS技术合成,在100 MHz下使用56 k门,足以以每秒30帧(fps)的速度处理QUXGA(3200次2400)视频序列。与在相同频率下工作的最先进的设计相比,我们的设计体积缩小了30%,吞吐量提高了18倍,而PSNR差异仅为0.05 db
High Performance Fractional Motion Estimation and Mode Decision for H.264/AVC
We propose a high performance architecture for fractional motion estimation and Lagrange mode decision in H.264/AVC. Instead of time-consuming fractional-pixel interpolation and secondary search, our fractional motion estimator employees a mathematical model to estimate SADs at quarter-pixel position. Both computation time and memory access requirements are greatly reduced without significant quality degradation. We propose a novel cost function for mode decision that leads to much better performance than traditional low complexity method. Synthesized into a TSMC 0.13 mum CMOS technology, our design takes 56 k gates at 100 MHz and is sufficient to process QUXGA (3200times2400) video sequences at 30 frames per second (fps). Compared with a state-of-the-art design operating under the same frequency, ours is 30% smaller and has 18 times more throughput at the expense of only 0.05 db in PSNR difference
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