Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation

Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation

碩士 === 逢甲大學 === 資訊工程所 === 91 === Matrix transposition is a simple, but an important computational problem. It explores many key issues on data locality. In this paper, we will design matrix transposition algorithms on various interconnection networks, including omega, baseline and hypercube networks...

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Main Authors: Chin-Yi Tsai, 蔡進義
Other Authors: Chua-Huang Huang
Format: Others
Language:en_US
Published: 2003
Online Access:http://ndltd.ncl.edu.tw/handle/vsp4re
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spelling ndltd-TW-091FCU053920432018-06-25T06:06:39Z http://ndltd.ncl.edu.tw/handle/vsp4re Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation 使用張量乘積來設計在各種連結網路中的矩陣轉置運算 Chin-Yi Tsai 蔡進義 碩士 逢甲大學 資訊工程所 91 Matrix transposition is a simple, but an important computational problem. It explores many key issues on data locality. In this paper, we will design matrix transposition algorithms on various interconnection networks, including omega, baseline and hypercube networks. Since different interconnection networks have their own architectural characteristics and properties, an algorithm needs to be tuned in order to be efficiently implemented on various networks. We use a tensor product based algebraic theory to design matrix transposition algorithms on various interconnection networks. This method can be employed to design other block recursive algorithms. A major goal of this study is to provide an effective way for designing VLSI circuits of DSP algorithms. Chua-Huang Huang 黃秋煌 2003 學位論文 ; thesis 31 en_US
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language en_US
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description 碩士 === 逢甲大學 === 資訊工程所 === 91 === Matrix transposition is a simple, but an important computational problem. It explores many key issues on data locality. In this paper, we will design matrix transposition algorithms on various interconnection networks, including omega, baseline and hypercube networks. Since different interconnection networks have their own architectural characteristics and properties, an algorithm needs to be tuned in order to be efficiently implemented on various networks. We use a tensor product based algebraic theory to design matrix transposition algorithms on various interconnection networks. This method can be employed to design other block recursive algorithms. A major goal of this study is to provide an effective way for designing VLSI circuits of DSP algorithms.
author2 Chua-Huang Huang
author_facet Chua-Huang Huang
Chin-Yi Tsai
蔡進義
author Chin-Yi Tsai
蔡進義
spellingShingle Chin-Yi Tsai
蔡進義
Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation
author_sort Chin-Yi Tsai
title Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation
title_short Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation
title_full Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation
title_fullStr Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation
title_full_unstemmed Desinging Efficient Matrix Transposition on Various Interconnection Networks Using Tensor Product Formulation
title_sort desinging efficient matrix transposition on various interconnection networks using tensor product formulation
publishDate 2003
url http://ndltd.ncl.edu.tw/handle/vsp4re
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