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Shulei Sun,
Jing Chen,
Weizhong Li,
Ilkay Altintas,
Abel W. Lin, Steven Peltier,
Karen Stocks,
Eric E. Allen,
Mark H. Ellisman,
Jeffrey S. Grethe,
John Wooley
Nucleic Acids Research. 01/2011; 39:546-551.
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Rajvikram Singh,
Nicholas Schwarz,
Nut Taesombut,
David Lee,
Byungil Jeong,
Luc Renambot,
Abel W. Lin,
Ruth West,
Hiromu Otsuka,
Sei Naito, Steven Peltier,
Maryann E. Martone,
Kazunori Nozaki,
Jason Leigh,
Mark H. Ellisman
Future Generation Comp. Syst. 01/2006; 22:1032-1039.
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Kazunori Nozaki,
Masaaki Noro,
Masashi Nakagawa,
Susumu Date,
Ken-ichi Baba, Steven Peltier,
Toshihiro Kawaguchi,
Toyokazu Akiyama,
Hiroo Tamagawa,
Yohsuke Tanaka,
Shinji Shimojo
Proceedings of the ACM/IEEE SC2006 Conference on High Performance Networking and Computing, November 11-17, 2006, Tampa, FL, USA; 01/2006
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First International Conference on e-Science and Grid Technologies (e-Science 2005), 5-8 December 2005, Melbourne, Australia; 01/2005
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Toyokazu Akiyama,
Kazunori Nozaki,
Seiichi Kato,
Shinji Shimojo, Steven Peltier,
Abel W. Lin,
Tomas E. Molina,
George Yang,
David Lee,
Mark H. Ellisman,
Kiyokazu Yoshida,
Hirotaro Mori
5th International Symposium on Cluster Computing and the Grid (CCGrid 2005), 9-12 May, 2005, Cardiff, UK; 01/2005
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Future Generation Comp. Syst. 01/2003; 19:1031-1039.
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2003 Symposium on Applications and the Internet Workshops (SAINT 2003), 27-31 January 2003 - Orlando, FL, USA, Proceedings; 01/2003
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J. Parallel Distrib. Comput. 01/2003; 63:539-550.
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ABSTRACT: Electron tomography is a powerful technique for deriving 3D structural information from biological specimens. As advanced instrumentation, networking, and grid computing are applied to electron tomography and biological sciences in general, much work is needed to integrate and coordinate these advanced technologies in a transparent way to deliver them to the end user. The Telescience Portal (http://gridport.npaci.edu/Telescience) is a web-based solution for end-to-end electron tomography that centralizes applications and seamlessly interfaces with the grid to accelerate the throughput of data results. In this paper we will describe the architecture and design of the Telescience Portal in the context of our experiences leading up to and including the iGrid2002 workshop. We will examine the lessons learned in developing the production Telescience environment, leveraging a successful international collaboration with groups in Japan and Taiwan, building end-to-end native IPv6 networks across continents, and examining IPv6 enabled mechanisms for transferring large data from two unique, remotely accessible high performance scientific instruments. Traditional computer science communities develop next generation technologies. Applications like Telescience drive these next generation technologies into production quality applications for everyday research needs.
Future Generation Computer Systems.
