Graphics gems
Graph drawing by force-directed placement
Software—Practice & Experience
The consensus problem in fault-tolerant computing
ACM Computing Surveys (CSUR)
Evaluating stereo and motion cues for visualizing information nets in three dimensions
ACM Transactions on Graphics (TOG)
Graph Drawing: Algorithms for the Visualization of Graphs
Graph Drawing: Algorithms for the Visualization of Graphs
A Fast Adaptive Layout Algorithm for Undirected Graphs
GD '94 Proceedings of the DIMACS International Workshop on Graph Drawing
A new approach for visualizing UML class diagrams
Proceedings of the 2003 ACM symposium on Software visualization
A topology-shape-metrics approach for the automatic layout of UML class diagrams
Proceedings of the 2003 ACM symposium on Software visualization
Distributed fault-tolerance for large multiprocessor systems
ISCA '80 Proceedings of the 7th annual symposium on Computer Architecture
H-BLOB: A Hierarchical Visual Clustering Method Using Implicit Surfaces
VISUALIZATION '00 Proceedings of the 11th IEEE Visualization 2000 Conference (VIS 2000)
A multi-dimensional approach to force-directed layouts of large graphs
Computational Geometry: Theory and Applications - Special issue on the 10th fall workshop on computational geometry
Reevaluating stereo and motion cues for visualizing graphs in three dimensions
APGV '05 Proceedings of the 2nd symposium on Applied perception in graphics and visualization
Extending the WilmaScope 3D graph visualisation system: software demonstration
APVis '05 proceedings of the 2005 Asia-Pacific symposium on Information visualisation - Volume 45
Software landscapes: visualizing the structure of large software systems
VISSYM'04 Proceedings of the Sixth Joint Eurographics - IEEE TCVG conference on Visualization
Visualization of Software and Systems as Support Mechanism for Integrated Software Project Control
Proceedings of the 13th International Conference on Human-Computer Interaction. Part I: New Trends
Visual analysis of I/O system behavior for high-end computing
Proceedings of the third international workshop on Large-scale system and application performance
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Modern software systems are typically composed of a large number of components, and more and more functionality is realized through the communication between these components. In this paper, we present an approach that enables assessing the reliability of the components and the communication between them. A protocol for testing the communication is presented and applied to several systems. After the execution of this protocol, an error rate is known for each component and each communication link of the system. This information is transformed into a graph containing the information about the components and their known communication relations. Finally, these graphs are analyzed using a 3D visualization based on a clustered force-directed layout. Major benefits of this approach include a method for assessing the reliability of components that are not directly accessible and a visualization that optimally supports the analysis of graphs in this application domain.