Energy-efficient Hadamard-based SATD architectures

机译：基于Hadamard的高能效SATD架构

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In this paper we present energy-efficient Hadamard-based Sum of Absolute Transformed Differences (SATD) architectures. We relied on two state of the art methods for SATD, one using the Fast Hadamard Transform (FHT) butterfly and another one using the so-called Transform-Exempted (TE) SATD algorithm. Those were combined with architectural decisions, as the use of a transpose buffer. A total of six Hadamard-based SATD architectures were synthesized for a commercial 45 nm standard cell library. The best energy results are related to TE-SATD architectures: down to 7.62 pJ/SATD in the case of parallel architecture with pipeline. However, considering also the area results when evaluating energy, the best results are achieved when both methods are applied to the transpose buffer base architecture: nearly 10 pJ/SATD with up to 71% smaller area compared with parallel base architectures.

机译：在本文中，我们介绍了基于Hadamard的高能效绝对转换差总和（SATD）架构。我们依靠两种最先进的SATD方法，一种使用快速Hadamard变换（FHT）蝶形，另一种使用所谓的免变换（TE）SATD算法。这些都与架构决策结合在一起，例如使用了转置缓冲区。总共合成了六种基于Hadamard的SATD架构，用于商业45 nm标准单元库。最佳的能量结果与TE-SATD体系结构有关：在带管道的并行体系结构下，能量消耗低至7.62 pJ / SATD。但是，在评估能量时也要考虑面积结果，将两种方法都应用于转置缓冲区基础架构时，将获得最佳结果：与并行基础架构相比，将近10 pJ / SATD的面积减小了71％。

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《Symposium on Integrated Circuits and Systems Design》|2014年|1-6|共6页
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Cancellier Luiz Henrique; Brascher Andre Beims; Seidel Ismael; Guntzel Jose Luis;
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Computer architecture; Equations; Mathematical model; Pipelines; Registers; Throughput; Transforms; Energy efficiency; Hadamard Transform; Sum of Absolute Transformed Differences (SATD);

机译：计算机体系结构;方程;数学模型;管道;寄存器;通量;变换;能效; Hadamard变换;绝对差总和（SATD）;

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Energy-efficient Hadamard-based SATD architectures

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