Automatic Pipeline Construction Focused on Similarity of Rate Law Functions for an FPGA-based Biochemical Simulator
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概要
- 論文の詳細を見る
For FPGA-based scientific simulation systems, hardware design technique that can reduce required amount of hardware resources is a key issue, since the size of simulation target is often limited by the size of the FPGA. Focusing on FPGA-based biochemical simulation, this paper proposes hardware design methodology which finds and combines common datapath for similar rate law functions appeared in simulation target models, so as to generate area-effective pipelined hardware modules. In addition, similarity-based clustering techniques of rate law functions are also presented in order to alleviate negative effects on performance for combined pipelines. Empirical evaluation with a practical biochemical model reveals that our method enables the simulation with 66% of the original hardware resources at a reasonable cost of 20% performance overhead.
- 一般社団法人情報処理学会の論文
- 2010-08-16
著者
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Yoshimi Masato
Keio University
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Masato Yoshimi
Doshisha University
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Kiyoshi Oguri
Nagasaki University
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Hideharu Amano
Keio University
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Hideki Yamada
Nagasaki University
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Yui Ogawa
Nagasaki University
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Tomonori Ooya
Nagasaki University
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Tomoya Ishimori
Nagasaki University
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Yasunori Osana
Seikei University
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Yuri Nishikawa
Keio University
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Akira Funahashi
Keio University
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Noriko Hiroi
Keio University
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Yuichiro Shibata
Nagasaki University
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- Automatic Pipeline Construction Focused on Similarity of Rate Law Functions for an FPGA-based Biochemical Simulator
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