Visualization in scientific computing:
Visualization in scientific computing is getting more and more attention from many people. Especially in relation with the fast increase in computing power, graphic tools are required in many cases for interpreting and presenting the results of various simulations, or for analyzing physical phenomen...
Gespeichert in:
Format: | Buch |
---|---|
Sprache: | English |
Veröffentlicht: |
Berlin u.a.
Springer
1994
|
Schriftenreihe: | Focus on computer graphics
|
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Zusammenfassung: | Visualization in scientific computing is getting more and more attention from many people. Especially in relation with the fast increase in computing power, graphic tools are required in many cases for interpreting and presenting the results of various simulations, or for analyzing physical phenomena This volume contains a selection of 18 papers presented at the first workshop organized by the Eurographics Working Group on Visualization in Scientific Computing, held in France in 1991 The workshop included sessions on the specific needs for visualization in computational sciences, the importance and difficulties of using standards in visualization software, reference models and distributed graphics systems, application systems, methods for representing 2D or 3D scalar fields and volume rendering, and user-computer interactions |
Beschreibung: | XI, 215 S. Ill., graph. Darst. |
ISBN: | 3540561471 0387561471 |
Internformat
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300 | |a XI, 215 S. |b Ill., graph. Darst. | ||
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520 | 3 | |a Visualization in scientific computing is getting more and more attention from many people. Especially in relation with the fast increase in computing power, graphic tools are required in many cases for interpreting and presenting the results of various simulations, or for analyzing physical phenomena | |
520 | |a This volume contains a selection of 18 papers presented at the first workshop organized by the Eurographics Working Group on Visualization in Scientific Computing, held in France in 1991 | ||
520 | |a The workshop included sessions on the specific needs for visualization in computational sciences, the importance and difficulties of using standards in visualization software, reference models and distributed graphics systems, application systems, methods for representing 2D or 3D scalar fields and volume rendering, and user-computer interactions | ||
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650 | 7 | |a infographie |2 inriac | |
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650 | 4 | |a Computer graphics | |
650 | 4 | |a Supercomputers | |
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Datensatz im Suchindex
_version_ | 1804121743000862720 |
---|---|
adam_text | Contents
General
Requirements
____________________________ 1
Scientific Visualization in a Supercomputer Network
3
U. Lang, H. Aichele, H.
РбЫтапп,
R.
Rühle
1.1
Introduction
..........................
З
1.2
An environment for scientific visualization
......... 3
1.3
Visualization methods in a distributed environment
.... 4
1.4
Network requirements
.................... 7
1.5
References
........................... 9
Visualization Services
in Large Scientific Computing Centres
10
Michel Grave and Yvon
Le
Lous
2.1
General
............................ 10
2.2
Needs and behaviours of users
................ 11
2.3
The different steps of the visualization process
....... 12
2.4
Solutions
........................... 13
2.5
Conclusion
.......................... 19
The Visualisation of Numerical Computation
20
Lesley Carpenter
3.1
Introductory remarks
..................... 20
3.2
A model for visualising computational processes
...... 20
3.3
Data structure visualisation and algorithm animation
... 23
3.4
Consideration of the target environment
.......... 25
3.5
Developing visualisation software
.............. 25
3.6
The GEASPARC project
.................. 26
3.7
Concluding remarks
..................... 27
3.8
References
........................... 28
II Formal Models, Standards and Distributed Graphics
29
4
Performance Evaluation of Portable Graphics Software
and Hardware for Scientific Visualization
31
Nancy Hitschfdd,
Dolf
Aernmer, Peter Lamb,
Hanspeter Wacht
4.1
Introduction
.......................... 31
4.2
Main PHIGS concepts
.................... 31
4.3
Definition of the evaluation
................. 32
4.4
Presentation of the results
.................. 33
4.5
Comments about the PHIGS implementations
....... 39
4.6
Conclusions and comments
.................. 40
4.7
Future work
.......................... 41
4.8
References
........................... 42
VIII Contents
б
Visualization of Scientific Data for High Energy Physics:
Basic Architecture and a Case Study
43
Carlo E. Vandoni
5.1
Introduction
.......................... 43
5.2 CERN
and its computing facilities
............. 43
5.3
Visualization of scientific data in the field of HEP
..... 44
5.4
Visualization of scientific data: the four basic building
blocks
............................. 45
5.5
An example system for the visualization of scientific data:
PAW
.............................. 46
5.6
The four basic facilities in PAW
............... . 47
5.7
An important aspect of the software development:
the portability
......................... 50
5.8
Conclusions
.......................... 52
5.9
References
........................... 53
6
The
IRIDIUM
Project: Post-Processing
and Distributed Graphics
54
D. Beaucourt, P.
Hemmerich
6.1
Introduction
.......................... 54
6.2
What is required in visualization of fluid dynamics
.... 54
6.3
The user interface
....................... 57
6.4
The implementation
..................... 58
6.5
Conclusion
.......................... 61
6.6
References
........................... 62
7
Towards a Reference Model
for Scientific Visualization Systems
63
W.
Feiger,
M.
Friihauf,
M,
Göbel,
R,
Gnatz, G.R.
Hofmann
7.1
Introduction
.......................... 63
7.2
Fundamentals
......................... 64
7.3
The basic model
....................... 66
7.4
Derived and detailed models
................. 68
7.5
Conclusion
.......................... 71
7.6
References
........................... 74
8
Interactive Scientific Visualisation: A Position Paper
75
R.J.
Hubbold
8.1
Introduction
.......................... 75
8.2
Display techniques
...................... 76
8.3
Current visualisation system architectures
......... 78
8.4
Paralei
processing and interactive visualisation
...... 80
8.5
References
........................... 83
Contents
IX
III
Applications 85
9 HIGHEND —
A Visualisation
System
for
3D Data
with
Special Support
for Postprocessing
of Fluid Dynamics Data
87
Hans-Georg Pagendarm
9.1
Introduction
......................... 87
9.2
Internal design of HIGHEND
............... 88
9.3
Capabilities of HIGHEND
................. 95
9.4
References
.......................... 98
10
Supercomputing Visualization Systems for Scientific
Data Analysis and Their Applications to Meteorology
99
Philip C. Chen
10.1
Introduction
......................... 99
10.2
Background information
.................. 100
10.3
Computation and visualization systems
.......... 101
10.4
Parameter selection, derivation and data preparation
. . 103
10.5
Animation production procedures used in phase
1 .... 105
10.6
Animation production procedures used in phase
2 .... 106
10.7
Data analysis results
.................... 107
10.8
Visualization system evaluations
.............. 108
10.9
Conclusions
......................... 109
10.10
References
.......................... 110
IV
Rendering Techniques 111
11
Rendering Lines on Curved Surfaces
113
Jarke J.
van
Wijk
11.1
Introduction
......................... 113
11.2
Modelling lines in three dimensions
............ 114
11.3
Integration with rendering algorithms
........... 117
11.4
Results
........................... 118
11.5
Conclusions
......................... 119
11.6
References
.......................... 120
12
Interactive
3D
Display of Simulated Sedimentary Basins
121
Christoph
Ramshorn,
Rick Ottolini, Herbert Klein
12.1
Introduction
......................... 121
12.2
Simulation of sedimentary basins
-
SEDSIM
....... 122
12.3
SEDSHO (using
Doré
and the
BUÍ)
............ 123
12.4 Sedview
(using
GL).....................
124
12.5
User
interface
........................ 125
12.6
Future directions
...................... 127
12.7
References
.......................... 129
13
Visualization of
3D
Scalar Fields Using Ray Casting
130
Andrea J.S.
Hin,
Edwin
Boender,
Frits H. Post
13.1
Introduction
......................... 130
13.2
Ray casting
......................... 131
X
Contents
13.3
Colour mapping and image generation
.......... 133
13.4
Implementation
....................... 134
13.5
Results
........................... 135
13.6
Discussion
.......................... 135
13.7
References
.......................... 137
14
Volume Rendering and Data Feature Enhancement
138
Wolfgang Krueger
14.1
Introduction
......................... 138
14.2
Basic technique for volume rendering:
the transport theory model
................ 139
14.3
Mapping of data features onto visualization parameters
140
14.4
Tools
foi
enhancement of critical features
......... 143
14.5
Appendix: evaluation of the transport equation
..... 146
14.6
References
.......................... 149
15
Visualization of
3D
Empirical Data: The Voxel Processor
151
W. Huiskamp, A. A. J. Langenkamp, and P. L. J. van
Lieshout
15.1
Introduction
......................... 151
15.2
The voxel data
....................... 151
15.3
The
3D
reconstruction
................... 152
15.4
Paralel
processing
..................... 155
15.5
System architecture
..................... 157
15.6
Implementation remarks
.................. 159
15.7
Current activities
...................... 160
15.8
Conclusions
......................... 161
15.9
References
.......................... 162
16
Spatial Editing for Interactive Inspection of Voxel Models
163
G. J. Jense and D. P. Huijsmans
16.1
Introduction
......................... 163
16.2
BSP-tree fundamentals
................... 166
16.3
Displaying subdivided volume data
............ 168
16.4
Interactive BSP-tree construction
............. 170
16.5
Implementation and results
................ 172
16.6
Conclusions and farther work
............... 174
16.7
References
.......................... 176
V Interaction
____________________________
Ш
17
The Rotating Cube: Interactive Specification of Viewing
for Volume Visualization
181
Martin Frihauf, Kennet
Karlsson
17.1
Introduction
......................... 181
17.2
Concepts
.......................... 181
17.3
Implementation
....................... 182
17.4
Conclusions
......................... 183
17.5
References
.......................... 185
Contents
XI
18
Chameleon: A Holistic Approach to Visualisation
186
N.
Bowers, K. W.
Brodite
18.1
Introduction
......................... 186
18.2
Overview
.......................... 188
18.3
Tbe method concept
.................... 188
18.4
The view concept
...................... 190
18.5
User interface
........................ 191
18.6
Problem interface
...................... 192
18.7
Help
............................. 193
18.8
Configuration
........................ 194
18.9
Chameleon
......................... 195
18.10
Conclusions
......................... 195
18.11
References
.......................... 196
Colour Plates (see list on p.
XII) 197
List of Authors
213
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spelling | Visualization in scientific computing M. Grave ... (eds.) Berlin u.a. Springer 1994 XI, 215 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Focus on computer graphics Visualization in scientific computing is getting more and more attention from many people. Especially in relation with the fast increase in computing power, graphic tools are required in many cases for interpreting and presenting the results of various simulations, or for analyzing physical phenomena This volume contains a selection of 18 papers presented at the first workshop organized by the Eurographics Working Group on Visualization in Scientific Computing, held in France in 1991 The workshop included sessions on the specific needs for visualization in computational sciences, the importance and difficulties of using standards in visualization software, reference models and distributed graphics systems, application systems, methods for representing 2D or 3D scalar fields and volume rendering, and user-computer interactions Grands ordinateurs ram Infographie ram Visualisation ram calcul scientifique inriac infographie inriac rendu inriac visualisation scientifique inriac Computer graphics Supercomputers Visualization Wissenschaftliches Rechnen (DE-588)4338507-2 gnd rswk-swf Visualisierung (DE-588)4188417-6 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content (DE-588)1071861417 Konferenzschrift gnd-content Wissenschaftliches Rechnen (DE-588)4338507-2 s Visualisierung (DE-588)4188417-6 s DE-604 Grave, Michel Sonstige oth Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=004847194&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Visualization in scientific computing Grands ordinateurs ram Infographie ram Visualisation ram calcul scientifique inriac infographie inriac rendu inriac visualisation scientifique inriac Computer graphics Supercomputers Visualization Wissenschaftliches Rechnen (DE-588)4338507-2 gnd Visualisierung (DE-588)4188417-6 gnd |
subject_GND | (DE-588)4338507-2 (DE-588)4188417-6 (DE-588)4143413-4 (DE-588)1071861417 |
title | Visualization in scientific computing |
title_auth | Visualization in scientific computing |
title_exact_search | Visualization in scientific computing |
title_full | Visualization in scientific computing M. Grave ... (eds.) |
title_fullStr | Visualization in scientific computing M. Grave ... (eds.) |
title_full_unstemmed | Visualization in scientific computing M. Grave ... (eds.) |
title_short | Visualization in scientific computing |
title_sort | visualization in scientific computing |
topic | Grands ordinateurs ram Infographie ram Visualisation ram calcul scientifique inriac infographie inriac rendu inriac visualisation scientifique inriac Computer graphics Supercomputers Visualization Wissenschaftliches Rechnen (DE-588)4338507-2 gnd Visualisierung (DE-588)4188417-6 gnd |
topic_facet | Grands ordinateurs Infographie Visualisation calcul scientifique infographie rendu visualisation scientifique Computer graphics Supercomputers Visualization Wissenschaftliches Rechnen Visualisierung Aufsatzsammlung Konferenzschrift |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=004847194&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT gravemichel visualizationinscientificcomputing |