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Your search keyword '"Gebremedhin, Assefaw H."' showing total 127 results
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127 results on '"Gebremedhin, Assefaw H."'

1. High-order Line Graphs of Non-uniform Hypergraphs: Algorithms, Applications, and Experimental Analysis

Author

Liu, Xu T., Firoz, Jesun, Aksoy, Sinan, Amburg, Ilya, Lumsdaine, Andrew, Joslyn, Cliff, Gebremedhin, Assefaw H., and Praggastis, Brenda

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Data Structures and Algorithms, 05C65(Primary), 05C85(Secondary), 68W10(Secondary), G.2.2
Abstract

Hypergraphs offer flexible and robust data representations for many applications, but methods that work directly on hypergraphs are not readily available and tend to be prohibitively expensive. Much of the current analysis of hypergraphs relies on first performing a graph expansion -- either based on the nodes (clique expansion), or on the edges (line graph) -- and then running standard graph analytics on the resulting representative graph. However, this approach suffers from massive space complexity and high computational cost with increasing hypergraph size. Here, we present efficient, parallel algorithms to accelerate and reduce the memory footprint of higher-order graph expansions of hypergraphs. Our results focus on the edge-based $s$-line graph expansion, but the methods we develop work for higher-order clique expansions as well. To the best of our knowledge, ours is the first framework to enable hypergraph spectral analysis of a large dataset on a single shared-memory machine. Our methods enable the analysis of datasets from many domains that previous graph-expansion-based models are unable to provide. The proposed $s$-line graph computation algorithms are orders of magnitude faster than state-of-the-art sparse general matrix-matrix multiplication methods, and obtain approximately $5-31{\times}$ speedup over a prior state-of-the-art heuristic-based algorithm for $s$-line graph computation., Comment: Accepted at "36th IEEE International Parallel & Distributed Processing Symposium (IPDPS '22)"

Published
2022

3. Fast Algorithms for the Maximum Clique Problem on Massive Graphs with Applications to Overlapping Community Detection

Author

Pattabiraman, Bharath, Patwary, Md. Mostofa Ali, Gebremedhin, Assefaw H., Liao, Wei-keng, and Choudhary, Alok

Subjects
Computer Science - Data Structures and Algorithms, Computer Science - Social and Information Networks
Abstract

The maximum clique problem is a well known NP-Hard problem with applications in data mining, network analysis, information retrieval and many other areas related to the World Wide Web. There exist several algorithms for the problem with acceptable runtimes for certain classes of graphs, but many of them are infeasible for massive graphs. We present a new exact algorithm that employs novel pruning techniques and is able to find maximum cliques in very large, sparse graphs quickly. Extensive experiments on different kinds of synthetic and real-world graphs show that our new algorithm can be orders of magnitude faster than existing algorithms. We also present a heuristic that runs orders of magnitude faster than the exact algorithm while providing optimal or near-optimal solutions. We illustrate a simple application of the algorithms in developing methods for detection of overlapping communities in networks., Comment: 28 pages, 7 figures, 10 tables, 2 algorithms. arXiv admin note: substantial text overlap with arXiv:1209.5818

Published
2014
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4. Parallel Maximum Clique Algorithms with Applications to Network Analysis and Storage

Author

Rossi, Ryan A., Gleich, David F., Gebremedhin, Assefaw H., and Patwary, Md. Mostofa Ali

Subjects
Computer Science - Social and Information Networks, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Discrete Mathematics, Computer Science - Data Structures and Algorithms, Physics - Physics and Society, 05C69, G.2.2
Abstract

We propose a fast, parallel maximum clique algorithm for large sparse graphs that is designed to exploit characteristics of social and information networks. The method exhibits a roughly linear runtime scaling over real-world networks ranging from 1000 to 100 million nodes. In a test on a social network with 1.8 billion edges, the algorithm finds the largest clique in about 20 minutes. Our method employs a branch and bound strategy with novel and aggressive pruning techniques. For instance, we use the core number of a vertex in combination with a good heuristic clique finder to efficiently remove the vast majority of the search space. In addition, we parallelize the exploration of the search tree. During the search, processes immediately communicate changes to upper and lower bounds on the size of maximum clique, which occasionally results in a super-linear speedup because vertices with large search spaces can be pruned by other processes. We apply the algorithm to two problems: to compute temporal strong components and to compress graphs., Comment: 11 pages

Published
2013

5. Multi-metric Graph Query Performance Prediction

Author

Sasani, Keyvan, Namaki, Mohammad Hossein, Wu, Yinghui, Gebremedhin, Assefaw H., Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Pandu Rangan, C., Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Pei, Jian, editor, Manolopoulos, Yannis, editor, Sadiq, Shazia, editor, and Li, Jianxin, editor

Published
2018
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6. What if CLIQUE were fast? Maximum Cliques in Information Networks and Strong Components in Temporal Networks

Author

Rossi, Ryan A., Gleich, David F., Gebremedhin, Assefaw H., and Patwary, Md. Mostofa Ali

Subjects
Computer Science - Social and Information Networks, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Discrete Mathematics, Physics - Physics and Society, 05C69, 05C85, 91D30, G.2.2, H.2.8
Abstract

Exact maximum clique finders have progressed to the point where we can investigate cliques in million-node social and information networks, as well as find strongly connected components in temporal networks. We use one such finder to study a large collection of modern networks emanating from biological, social, and technological domains. We show inter-relationships between maximum cliques and several other common network properties, including network density, maximum core, and number of triangles. In temporal networks, we find that the largest temporal strong components have around 20-30% of the vertices of the entire network. These components represent groups of highly communicative individuals. In addition, we discuss and improve the performance and utility of the maximum clique finder itself.

Published
2012

7. Fast Algorithms for the Maximum Clique Problem on Massive Sparse Graphs

Author

Pattabiraman, Bharath, Patwary, Md. Mostofa Ali, Gebremedhin, Assefaw H., Liao, Wei-keng, and Choudhary, Alok

Subjects
Computer Science - Data Structures and Algorithms, Computer Science - Information Retrieval, G.2.2
Abstract

The maximum clique problem is a well known NP-Hard problem with applications in data mining, network analysis, informatics, and many other areas. Although there exist several algorithms with acceptable runtimes for certain classes of graphs, many of them are infeasible for massive graphs. We present a new exact algorithm that employs novel pruning techniques to very quickly find maximum cliques in large sparse graphs. Extensive experiments on several types of synthetic and real-world graphs show that our new algorithm is up to several orders of magnitude faster than existing algorithms for most instances. We also present a heuristic variant that runs orders of magnitude faster than the exact algorithm, while providing optimal or near-optimal solutions., Comment: 15 pages (including 2-page appendix), 5 tables, 4 figures

Published
2012

9. Fast Algorithms for the Maximum Clique Problem on Massive Sparse Graphs

Author

Pattabiraman, Bharath, Patwary, Md. Mostofa Ali, Gebremedhin, Assefaw H., Liao, Wei-keng, Choudhary, Alok, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Bonato, Anthony, editor, Mitzenmacher, Michael, editor, and Prałat, Paweł, editor

Published
2013
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10. New Multithreaded Ordering and Coloring Algorithms for Multicore Architectures

Author

Patwary, Md. Mostofa Ali, Gebremedhin, Assefaw H., Pothen, Alex, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Jeannot, Emmanuel, editor, Namyst, Raymond, editor, and Roman, Jean, editor

Published
2011
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12. Exploiting Sparsity in Jacobian Computation via Coloring and Automatic Differentiation: A Case Study in a Simulated Moving Bed Process

Author

Gebremedhin, Assefaw H., Pothen, Alex, Walther, Andrea, Barth, Timothy J., editor, Griebel, Michael, editor, Keyes, David E., editor, Nieminen, Risto M., editor, Roose, Dirk, editor, Schlick, Tamar, editor, Bischof, Christian H., editor, Bücker, H. Martin, editor, Hovland, Paul, editor, Naumann, Uwe, editor, and Utke, Jean, editor

Published
2008
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14. Speeding up Parallel Graph Coloring

Author

Gebremedhin, Assefaw H., Manne, Fredrik, Woods, Tom, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Dongarra, Jack, editor, Madsen, Kaj, editor, and Waśniewski, Jerzy, editor

Published
2006
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15. A Parallel Distance-2 Graph Coloring Algorithm for Distributed Memory Computers

Author

Bozdağ, Doruk, Catalyurek, Umit, Gebremedhin, Assefaw H., Manne, Fredrik, Boman, Erik G., Özgüner, Füsun, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Yang, Laurence T., editor, Rana, Omer F., editor, Di Martino, Beniamino, editor, and Dongarra, Jack, editor

Published
2005
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16. A Scalable Parallel Graph Coloring Algorithm for Distributed Memory Computers

Author

Boman, Erik G., Bozdağ, Doruk, Catalyurek, Umit, Gebremedhin, Assefaw H., Manne, Fredrik, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Cunha, José C., editor, and Medeiros, Pedro D., editor

Published
2005
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27. Efficient computation of sparse Hessians using coloring and automatic differentiation

Author

Gebremedhin, Assefaw H., Tarafdar, Arijit, Pothen, Alex, and Walther, Andrea

Subjects
Mathematical optimization -- Evaluation, Matrices -- Evaluation
Abstract

The computation of a sparse Hessian matrix H using automatic differentiation (AD) can be made efficient using the following four-step procedure: (1) Determine the sparsity structure of H, (2) obtain […]

Published
2009

50. Co-MEAL

Author

Saeedi, Ramyar, primary, Sasani, Keyvan, additional, and Gebremedhin, Assefaw H., additional

Published
2017
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