SCV Visualization Workshop – Fall 2008 Scientific Visualization Workshop.
-
date post
20-Dec-2015 -
Category
Documents
-
view
222 -
download
1
Transcript of SCV Visualization Workshop – Fall 2008 Scientific Visualization Workshop.
SCV Visualization Workshop – Fall 2008
Scientific Visualization WorkshopScientific Visualization Workshop
SCV Visualization Workshop – Fall 2008
Erik Brisson
Visualization Workshop OverviewVisualization Workshop Overview
ScheduleSchedule 11:00 30 min Intro / overview (Erik & Ray) 11:30 20 min Hardware and software solutions (Erik) 11:50 30 min "Focus group" getting feel for problems to solve (All) 12:20 30 min --- lunch break --- 12:50 60 min VTK and Paraview (Ray) 1:50 15 min Plotting (Robert, Aaron, Ray) 2:05 20 min Image proc for sci vis, and making animations (Aaron) 2:25 10 min --- break --- 2:35 30 min Matlab and IDL (Erik) 3:05 20 min OpenGL, OpenSceneGraph, and Maya for sci vis (Erik) 3:25 15 min DAFFIE and the display wall (Erik) 3:40 10 min Survey to use for future decision making (All) 3:50 10 min Conclusion 4:00 Done (up to Open House)
SCV Visualization Workshop – Fall 2008
BU Scientific Computing & VisualizationBU Scientific Computing & Visualization
SCV Visualization Workshop – Fall 2008
SCV ProvidesSCV Provides
High-performance, parallel computing systems and networks
Scientific code parallelization and optimization Scientific data visualization High-performance and high-resolution interactive
three-dimensional graphics Virtual environments/virtual reality Consulting and training Network-based video conferencing and
collaboration tools
SCV Visualization Workshop – Fall 2008
SCV as a service groupSCV as a service group
SCV < OIT < UISTCCS (Center for Computational
Science)SCV functional subgroups– Systems Administration– Scientific Programming– Graphics Programming and Consulting
SCV Visualization Workshop – Fall 2008
SCV Supercomputing HistorySCV Supercomputing History
Thinking Machines CM-2 (1988) Thinking Machines CM-5 (1992) SGI Origin2000 (2000) IBM pSeries (2002) IBM Linux Cluster (2003) IBM BlueGene (2005) IBM BladeCenter Linux Cluster (2007)
SCV Visualization Workshop – Fall 2008
Other SCV activitiesOther SCV activities
Working with large BU projects– CISM, ATLAS, Earlab
Working with external partners– Mariner, PACI, NASA
Education and Outreach– HiPArt, BPC, IMAX
Arts– BU CFA, CyberArts, SIGGRAPH, Lost in Space
Annual Supercomputing conference
SCV Visualization Workshop – Fall 2008
Artworld “family portrait”Artworld “family portrait”
SCV Visualization Workshop – Fall 2008
Example - stereo protein visualization 1 Example - stereo protein visualization 1
SCV Visualization Workshop – Fall 2008
Example - stereo protein visualization 2Example - stereo protein visualization 2
SCV Visualization Workshop – Fall 2008
Example - magnetosphereExample - magnetosphere
SCV Visualization Workshop – Fall 2008
Example – medical illustrationExample – medical illustration
SCV Visualization Workshop – Fall 2008
Example – medical visualizationExample – medical visualization
SCV Visualization Workshop – Fall 2008
Example – bat flightExample – bat flight
SCV Visualization Workshop – Fall 2008
Example – GISExample – GIS
SCV Visualization Workshop – Fall 2008
Examples – Tornado animationsExamples – Tornado animations
http://access.ncsa.uiuc.edu/Stories/supertwister/page3.htm
http://access.ncsa.uiuc.edu/Stories/supertwister/index.htm
SCV Visualization Workshop – Fall 2008
EvolutionEvolution
Scientific illustration The rise of computer graphics Expensive, specialized equipment General purpose sci vis software The workstation Personal computers Video game hardware Domain specific packages Supercomputing
SCV Visualization Workshop – Fall 2008
The Visualization PipelineThe Visualization Pipeline
SCV Visualization Workshop – Fall 2008
Math Proc Scientific visualization Computer Graphics
191 214 206 113 134 135 101 120 135 102 119 147 113 129 165117 131 170 125 138 170 158 168 195 219 227 246 244 251 255249 254 255 197 202 222 157 163 187 156 161 190 165 172 200218 224 246 250 255 255 252 255 251 251 255 252 245 249 250251 255 255 188 192 204 196 200 212 234 238 250 177 181 192111 114 133 122 121 155 154 151 194 182 176 220 243 240 255253 252 255 250 251 246 254 254 252 255 255 255 255 255 255254 254 254 255 255 255 255 255 255 254 254 254 255 255 255249 249 249 249 249 249 252 252 252 255 221 155 255 255 255255 255 255 255 255 255 255 255 255 255 255 255 255 255 255255 255 255 255 255 255 255 255 255 253 253 253 252 252 252252 252 252 253 253 253 255 255 255 255 255 255 255 255 255
Image creditsImage credits
ArtWorld Family Portrait– Kat Curry / SCV
Stereo protein visualization 1 and 2– Dr Bernhard Rupp, Lawrence Livermore National
Laboratory and Dr Karl H Weisgraber, Gladstone Institute of Cardiovascular Disease http://www.answers.com/topic/scientific-visualization
Visualization Pipeline diagram– http://www.infovis-wiki.net/index.php/
Visualization_Pipeline
Magnetosphere
SCV Visualization Workshop – Fall 2008
Image credits, continuedImage credits, continued
Magnetosphere– AICT Research Support Group, Univ. of Alberta
Medical illustration, standing male figure– www.posemaniacs.com
Medical illustration, synapse– Graham Johnson, Graham Johnson Medical Media,
Boulder, Colorado
Medical Visualization– Dr, Kai-hung Fung, Pamela Youde Nethersole Eastern
Hospital, Hong Kong
SCV Visualization Workshop – Fall 2008
Image credits, continuedImage credits, continued
Bat flight– D J Willis (Brown, MIT)– M Kostandov, D K Riskin, D H Laidlaw, S M Swartz, K S
Breuer (Brown)– J Peraire (MIT)
Example – GIS of radio transmission– ESRI GIS and Mapping Software, www.esri.com
SCV Visualization Workshop – Fall 2008