Graph-tool

graph-tool is a Python module for manipulation and statistical analysis of graphs (AKA networks). The core data structures and algorithms of graph-tool are implemented in C++, making extensive use of metaprogramming, based heavily on the Boost Graph Library.[1] Many algorithms are implemented in parallel using OpenMP, which provides increased performance on multi-core architectures.

Graph-tool
Developer(s)Tiago P. Peixoto
Stable release
2.37 / 9 January 2021 (2021-01-09)
Repository
Written inPython, C++
Operating systemOS X, Linux
TypeSoftware library
LicenseLGPL
Websitegraph-tool.skewed.de

Features

Suitability

Graph-tool can be used to work with very large graphs in a variety of contexts, including simulation of cellular tissue,[2] data mining,[3][4] analysis of social networks,[5][6] analysis of P2P systems,[7] large-scale modeling of agent-based systems,[8] study of academic Genealogy trees,[9] theoretical assessment and modeling of network clustering,[10] large-scale call graph analysis,[11] and analysis of the brain's Connectome.[12]

References

  1. Graph-tool performance comparison, Graph-tool
  2. Bruno Monier et al, "Apico-basal forces exerted by apoptotic cells drive epithelium folding", Nature, 2015
  3. Ma, Shuai, et al. "Distributed graph pattern matching." Proceedings of the 21st international conference on World Wide Web. ACM, 2012.
  4. Ma, Shuai, et al. "Capturing topology in graph pattern matching." Proceedings of the VLDB Endowment 5.4 (2011): 310-321.
  5. Janssen, E., M. A. T. T. Hurshman, and N. A. U. Z. E. R. Kalyaniwalla. "Model selection for social networks using graphlets." Internet Mathematics (2012).
  6. Asadi, Hirad Cyrus. Design and implementation of a middleware for data analysis of social networks. Diss. M Sc thesis report, KTH School of Computer Science and Communication, Stockholm, Sweden, 2007.
  7. Teresniak, Sven, et al. "Information-Retrieval in einem P2P-Netz mit Small-World-Eigenschaften Simulation und Evaluation des SemPIR-Modells."
  8. Hamacher, Kay, and Stefan Katzenbeisser. "Public security: simulations need to replace conventional wisdom." Proceedings of the 2011 workshop on New security paradigms workshop. ACM, 2011.
  9. Miyahara, Edson Kiyohiro, Jesus P. Mena-Chalco, and Roberto M. Cesar-Jr. "Genealogia Acadêmica Lattes."
  10. Abdo, Alexandre H., and A. P. S. de Moura. "Clustering as a measure of the local topology of networks." arXiv preprint physics/0605235 (2006).
  11. Narayan, Ganesh, K. Gopinath, and V. Sridhar. "Structure and interpretation of computer programs." Theoretical Aspects of Software Engineering, 2008. TASE'08. 2nd IFIP/IEEE International Symposium on. IEEE, 2008.
  12. Gerhard, Stephan, et al. "The connectome viewer toolkit: an open source framework to manage, analyze, and visualize connectomes." Frontiers in neuroinformatics 5 (2011).
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