About the series
Lecturer: Dr. Dan Reed, NCSA
A new infrastructure for computational science is emerging that promises to transform the way science and engineering research are conducted. Based on commodity processors, open source software, inexpensive storage devices, high bandwidth networks, computational Grids are connecting distributed scientific instruments, computing systems, and collaborative groups. This talk focuses on three issues: (a) the evolving software infrastructure needed to support distributed Grid applications, (b) the computational infrastructure behind the NSF TeraGrid and its future evolution, and (c) science and engineering applications, current and future, that will exploit large-scale Grids. We will conclude with some thoughts on the long-term future of scientific computing infrastructure and its deep integration with the fabric of science and society.
Daniel A. Reed, Gutgsell Professor, University of Illinois at Urbana-Champaign is the director of the National Center for Supercomputing Applications (NCSA) and the National Computational Science Alliance (Alliance).
Webcast link for newer browsers
*If you are still having trouble with the link, please copy and paste the following URL into your browser location bar (rtsp://nsfvideo.nomex.net/cise/10apr02.rm).
In order to view NSF Webcasts, you must have RealPlayer installed on your computer. For more information on Realplayer, check out Real.com or click on the links below to download the player.
You can download and install the FREE version of RealPlayer 8 Basic from Download.com: Macintosh | Windows (All versions)
A new infrastructure for computational science is emerging that promises to transform the way science and engineering research are conducted. Based on commodity processors, open source software, inexpensive storage devices, high bandwidth networks, computational Grids are connecting distributed scientific instruments, computing systems, and collaborative groups. This talk focuses on three issues: (a) the evolving software infrastructure needed to support distributed Grid applications, (b) the computational infrastructure behind the NSF TeraGrid and its future evolution, and (c) science and engineering applications, current and future, that will exploit large-scale Grids. We will conclude with some thoughts on the long-term future of scientific computing infrastructure and its deep integration with the fabric of science and society.
Daniel A. Reed, Gutgsell Professor, University of Illinois at Urbana-Champaign is the director of the National Center for Supercomputing Applications (NCSA) and the National Computational Science Alliance (Alliance).
Webcast link for newer browsers
*If you are still having trouble with the link, please copy and paste the following URL into your browser location bar (rtsp://nsfvideo.nomex.net/cise/10apr02.rm).
In order to view NSF Webcasts, you must have RealPlayer installed on your computer. For more information on Realplayer, check out Real.com or click on the links below to download the player.
You can download and install the FREE version of RealPlayer 8 Basic from Download.com: Macintosh | Windows (All versions)