All Videos Tagged biology (MedTech I.Q.) - MedTech I.Q.2024-05-03T13:57:11Zhttp://medtechiq.ning.com/video/video/listTagged?tag=biology&rss=yes&xn_auth=noInformatics:Current Issues in Computational Biology and Bioinformaticstag:medtechiq.ning.com,2008-10-24:2140535:Video:52432008-10-24T23:33:41.301ZCC-Conrad Clyburn-MedForeSighthttp://medtechiq.ning.com/profile/CCatMedTechIQ
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</a> <br></br>Google Tech Talks, August 26, 2008<br></br>
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A brief overview of bioinformatics computational problem landscape followed by a detailed look at one of<br></br>
the areas: multiple perturbation analysis of cells using reverse engineering principles.<br></br>
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Speaker: Gary Bader<br></br>
Gary is Assistant Professor at the Terrence Donnelly Centre for Cellular and Biomolecular Research (CCBR) at…
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</a><br />Google Tech Talks, August 26, 2008<br />
<br />
A brief overview of bioinformatics computational problem landscape followed by a detailed look at one of<br />
the areas: multiple perturbation analysis of cells using reverse engineering principles.<br />
<br />
Speaker: Gary Bader<br />
Gary is Assistant Professor at the Terrence Donnelly Centre for Cellular and Biomolecular Research (CCBR) at the University of Toronto. <a href="http://baderlab.org/">http://baderlab.org/</a> Systems Biology: Scaling Laws In Biology And Other Complex Systemstag:medtechiq.ning.com,2008-10-11:2140535:Video:46502008-10-11T19:16:18.895ZCC-Conrad Clyburn-MedForeSighthttp://medtechiq.ning.com/profile/CCatMedTechIQ
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</a> <br></br>In this Google TechTalk, Dr Geoffrey West, President and Distinguished Professor, Santa Fe Institute describes mathematical scaling laws as they relate to systems biology. Life is very likely the most complex phenomenon in the Universe manifesting an extraordinary diversity of form and function over an enormous range. Yet, many of its most fundamental and complex attributes scale with size in…
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</a><br />In this Google TechTalk, Dr Geoffrey West, President and Distinguished Professor, Santa Fe Institute describes mathematical scaling laws as they relate to systems biology. Life is very likely the most complex phenomenon in the Universe manifesting an extraordinary diversity of form and function over an enormous range. Yet, many of its most fundamental and complex attributes scale with size in a surprisingly simple fashion. For example, metabolic rate (the power required to sustain the system) scales as approximately the 3/4-power of mass over 27 orders of magnitude from molecular levels up to the largest multicellular organisms. Similarly, time-scales, such as lifespans and growth-rates, increase with exponents which are typically simple powers of 1/4. Systems Biology: Georgia Tech's Center for the Study of Systems Biology with IBMtag:medtechiq.ning.com,2008-10-11:2140535:Video:46422008-10-11T18:20:04.334ZCC-Conrad Clyburn-MedForeSighthttp://medtechiq.ning.com/profile/CCatMedTechIQ
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</a> <br></br>Georgia Tech's Center for the Study of Systems Biology partners with IBM and Force 10 to build an Energy Efficient supercomputer with the IBM Cluster 1350 and BladeCenter LS20 servers. The new technology will enable Georgia Tech to find treatments to fight diseases faster than ever…
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</a><br />Georgia Tech's Center for the Study of Systems Biology partners with IBM and Force 10 to build an Energy Efficient supercomputer with the IBM Cluster 1350 and BladeCenter LS20 servers. The new technology will enable Georgia Tech to find treatments to fight diseases faster than ever before. SCI Institute - Multidisciplinary Research - University of Utahtag:medtechiq.ning.com,2008-10-11:2140535:Video:46052008-10-11T13:57:12.060ZCC-Conrad Clyburn-MedForeSighthttp://medtechiq.ning.com/profile/CCatMedTechIQ
<a href="http://medtechiq.ning.com/video/2140535:Video:4605"><br />
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</a><br />See Dr Chris Johnson and Scientific Computing and Imaging (SCI) Institute work at the University of Utah. Visualization, scientific computing, and image analysis. Biomedical Computing. Fire and Explosion Simulation, Computational Biology.
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</a><br />See Dr Chris Johnson and Scientific Computing and Imaging (SCI) Institute work at the University of Utah. Visualization, scientific computing, and image analysis. Biomedical Computing. Fire and Explosion Simulation, Computational Biology. Imaging: SCI Institute Computer Imaging - Golden Age of Computing - University of Utahtag:medtechiq.ning.com,2008-10-11:2140535:Video:46022008-10-11T13:50:09.691ZCC-Conrad Clyburn-MedForeSighthttp://medtechiq.ning.com/profile/CCatMedTechIQ
<a href="http://medtechiq.ning.com/video/2140535:Video:4602"><br />
<img alt="Thumbnail" height="96" src="http://storage.ning.com/topology/rest/1.0/file/get/2508865005?profile=original&width=128&height=96" width="128"></img><br />
</a> <br></br>See this video of this work at the Scientific Computing and Imaging (SCI) Institute at the University of Utah. SCI is a leader in Visualization, scientific computing, and image analysis. Biomedical Computing. Fire and Explosion Simulation, Computational…
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</a><br />See this video of this work at the Scientific Computing and Imaging (SCI) Institute at the University of Utah. SCI is a leader in Visualization, scientific computing, and image analysis. Biomedical Computing. Fire and Explosion Simulation, Computational Biology.