Weighted adders with selector logics for super-resolution and its FPGA-based evaluation

Hiromine Yoshihara; Masao Yanagisawa; Nozomu Togawa

doi:10.1109/APCCAS.2012.6419107

Weighted adders with selector logics for super-resolution and its FPGA-based evaluation

Hiromine Yoshihara^*, Masao Yanagisawa, Nozomu Togawa

^*Corresponding author for this work

School of Fundamental Science and Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

Super-resolution is a technique to remove the noise of observed images and restore its high frequencies. We focus on reconstruction-based super-resolution. Reconstruction requires large computation cost since it requires many images. In this paper, we propose a fast weighted adder for reconstruction-based super-resolution. From the viewpoint of reducing partial products, we propose two approaches to speed up a weighted adder. First, we use selector logics to halve its partial products. Second, we propose a weights-range limit method utilizing negative term. By applying our proposed approaches to a weighted adder, we can reduce carry propagations and our weighted adder can be designed by a fast circuit as compared to conventional ones. Experimental evaluations demonstrate that our weighted adder improves the performance by a maximum of 29.9% and reduces a maximum of 592 LUTs, compared to conventional implementations.

Original language	English
Title of host publication	2012 IEEE Asia Pacific Conference on Circuits and Systems, APCCAS 2012
Pages	603-606
Number of pages	4
DOIs	https://doi.org/10.1109/APCCAS.2012.6419107
Publication status	Published - 2012 Dec 1
Event	2012 IEEE Asia Pacific Conference on Circuits and Systems, APCCAS 2012 - Kaohsiung, Taiwan, Province of China Duration: 2012 Dec 2 → 2012 Dec 5

Publication series

Name	IEEE Asia-Pacific Conference on Circuits and Systems, Proceedings, APCCAS

Conference

Conference	2012 IEEE Asia Pacific Conference on Circuits and Systems, APCCAS 2012
Country/Territory	Taiwan, Province of China
City	Kaohsiung
Period	12/12/2 → 12/12/5

Keywords

FPGA
partial product
selector logics
super-resolution
weighted adder

ASJC Scopus subject areas

Electrical and Electronic Engineering

Access to Document

10.1109/APCCAS.2012.6419107

Cite this

Weighted adders with selector logics for super-resolution and its FPGA-based evaluation. / Yoshihara, Hiromine; Yanagisawa, Masao ; Togawa, Nozomu.
2012 IEEE Asia Pacific Conference on Circuits and Systems, APCCAS 2012. 2012. p. 603-606 6419107 (IEEE Asia-Pacific Conference on Circuits and Systems, Proceedings, APCCAS).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Yoshihara, H, Yanagisawa, M & Togawa, N 2012, Weighted adders with selector logics for super-resolution and its FPGA-based evaluation. in 2012 IEEE Asia Pacific Conference on Circuits and Systems, APCCAS 2012., 6419107, IEEE Asia-Pacific Conference on Circuits and Systems, Proceedings, APCCAS, pp. 603-606, 2012 IEEE Asia Pacific Conference on Circuits and Systems, APCCAS 2012, Kaohsiung, Taiwan, Province of China, 12/12/2. https://doi.org/10.1109/APCCAS.2012.6419107

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abstract = "Super-resolution is a technique to remove the noise of observed images and restore its high frequencies. We focus on reconstruction-based super-resolution. Reconstruction requires large computation cost since it requires many images. In this paper, we propose a fast weighted adder for reconstruction-based super-resolution. From the viewpoint of reducing partial products, we propose two approaches to speed up a weighted adder. First, we use selector logics to halve its partial products. Second, we propose a weights-range limit method utilizing negative term. By applying our proposed approaches to a weighted adder, we can reduce carry propagations and our weighted adder can be designed by a fast circuit as compared to conventional ones. Experimental evaluations demonstrate that our weighted adder improves the performance by a maximum of 29.9% and reduces a maximum of 592 LUTs, compared to conventional implementations.",

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N2 - Super-resolution is a technique to remove the noise of observed images and restore its high frequencies. We focus on reconstruction-based super-resolution. Reconstruction requires large computation cost since it requires many images. In this paper, we propose a fast weighted adder for reconstruction-based super-resolution. From the viewpoint of reducing partial products, we propose two approaches to speed up a weighted adder. First, we use selector logics to halve its partial products. Second, we propose a weights-range limit method utilizing negative term. By applying our proposed approaches to a weighted adder, we can reduce carry propagations and our weighted adder can be designed by a fast circuit as compared to conventional ones. Experimental evaluations demonstrate that our weighted adder improves the performance by a maximum of 29.9% and reduces a maximum of 592 LUTs, compared to conventional implementations.

AB - Super-resolution is a technique to remove the noise of observed images and restore its high frequencies. We focus on reconstruction-based super-resolution. Reconstruction requires large computation cost since it requires many images. In this paper, we propose a fast weighted adder for reconstruction-based super-resolution. From the viewpoint of reducing partial products, we propose two approaches to speed up a weighted adder. First, we use selector logics to halve its partial products. Second, we propose a weights-range limit method utilizing negative term. By applying our proposed approaches to a weighted adder, we can reduce carry propagations and our weighted adder can be designed by a fast circuit as compared to conventional ones. Experimental evaluations demonstrate that our weighted adder improves the performance by a maximum of 29.9% and reduces a maximum of 592 LUTs, compared to conventional implementations.

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Weighted adders with selector logics for super-resolution and its FPGA-based evaluation

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Keywords

ASJC Scopus subject areas

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