容差运动估计体系结构

G. Varatkar, Naresh R Shanbhag
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引用次数: 5

摘要

在本文中,我们研究了一种误差弹性运动估计体系结构的能量效率和变化容忍度之间的权衡。错误弹性是通过算法噪声容忍(ANT)来实现的,其中使用主绝对差和(MSAD)块的输入下采样副本(ISR)来检测和纠正MSAD块中的错误。这种体系结构被称为ISR-ANT。在存在工艺变化的情况下,ISR-ANT架构的平均峰值信噪比(PSNR)在130nm IBM制程技术中比传统架构提高了1.8dB。此外,在慢角处的PSNR变化也比传统架构减少了7倍,同时实现了33%的功耗降低。
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Variation-Tolerant Motion Estimation Architecture
In this paper, we study the trade-off between energy-efficiency and variation-tolerance of an error-resilient motion estimation architecture. Error-resiliency is incorporated via algorithmic noise-tolerance (ANT) where an input subsampled replica (ISR) of the main sum-of-absolute-difference(MSAD) block is employed for detecting and correcting errors in the MSAD block. This architecture is referred to as ISR-ANT. In the presence of process variations, the average peak signal-to-noise ratio (PSNR) of ISR-ANT architecture increases by up to 1.8dB over that of the conventional architecture in 130nm IBM process technology. Furthermore, the PSNR variation is also reduced by 7× over that of the conventional architecture at the slow corner while achieving a power reduction of 33%.
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