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Takehiro Shimoda

Showing results (1-10 of 4) with videos related to

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BMC Systems Biology|February 25, 2015
Protein-protein docking on hardware accelerators: comparison of GPU and MIC architecturesTakehiro Shimoda, Shuji Suzuki, Masahito Ohue, et al.
BMC Proceedings|February 26, 2014
Highly precise protein-protein interaction prediction based on consensus between template-based and de novo docking methodsMasahito Ohue, Yuri Matsuzaki, Takehiro Shimoda, et al.
Bioinformatics (Oxford, England)|August 8, 2014
MEGADOCK 4.0: an ultra-high-performance protein-protein docking software for heterogeneous supercomputersMasahito Ohue, Takehiro Shimoda, Shuji Suzuki, et al.
Source Code for Biology and Medicine|September 6, 2013
MEGADOCK 3.0: a high-performance protein-protein interaction prediction software using hybrid parallel computing for petascale supercomputing environmentsYuri Matsuzaki, Nobuyuki Uchikoga, Masahito Ohue, et al.
Pageof 1

Showing results (1-10 of 4) with videos related to

Sort By:
Pageof 1
BMC Systems Biology|February 25, 2015
Protein-protein docking on hardware accelerators: comparison of GPU and MIC architecturesTakehiro Shimoda, Shuji Suzuki, Masahito Ohue, et al.
BMC Proceedings|February 26, 2014
Highly precise protein-protein interaction prediction based on consensus between template-based and de novo docking methodsMasahito Ohue, Yuri Matsuzaki, Takehiro Shimoda, et al.
Bioinformatics (Oxford, England)|August 8, 2014
MEGADOCK 4.0: an ultra-high-performance protein-protein docking software for heterogeneous supercomputersMasahito Ohue, Takehiro Shimoda, Shuji Suzuki, et al.
Source Code for Biology and Medicine|September 6, 2013
MEGADOCK 3.0: a high-performance protein-protein interaction prediction software using hybrid parallel computing for petascale supercomputing environmentsYuri Matsuzaki, Nobuyuki Uchikoga, Masahito Ohue, et al.
Pageof 1