一种具有简化最佳匹配搜索电路的高帧率密集运动矢量场生成处理器

2009 IEEE Asian Solid-State Circuits Conference Pub Date : 2009-12-22 DOI:10.1109/ASSCC.2009.5357145

Yuta Okano, T. Shibata

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引用次数: 6

摘要

开发了一种采用高效数据处理方案的高帧率密集运动矢量场生成处理器。在每个像素位置检测运动矢量(MV)的计算结果在相邻位置重复使用。结果，在没有数据重用的情况下，MV检测的最佳匹配搜索电路的大小减少到原来的1/10。这使我们能够在一个芯片上实现两个毫伏计算单元，而不会造成面积损失，除了头上处理的初始阶段外，每个时钟周期都可以产生双毫伏。因此，与之前的架构相比，帧率提高了23%[1]，而晶体管总数减少了41%。采用0.18 μm - 5金属CMOS工艺设计并制作了原型芯片。实验证明，该芯片可以在时钟频率为100 MHz的情况下，以1060帧/秒的帧率从256×256-size运动图像的所有像素点生成运动矢量。

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A high-frame-rate dense motion vector field generation processor with simplified best-match searching circuitries

A high-frame-rate dense motion vector field generation processor employing an efficient data manipulation scheme has been developed. The computation result of detecting a motion vector (MV) at each pixel location is reused in the adjacent location. As a result, the size of a best-match searching circuitry for MV detection has been reduced to 1/10 of that without data reuse. This allows us to implement two MV calculation units on a chip without area penalty, enabling dual MV generation at every clock cycle except for the initial period of over head processing. As a result, the frame rate has been increased by 23% as compared to the previous architecture [1], while the total number of transistors has been reduced by 41%. A prototype chip was designed and fabricated in a 0.18-μm 5-metal CMOS technology. It was experimentally demonstrated that the chip can generate motion vectors from all pixel sites of 256×256-size motion images at a frame rate of 1060 frames/sec with a clock frequency of 100 MHz.

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2009 IEEE Asian Solid-State Circuits Conference

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