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# Guide to Graph Algorithms: Sequential, Parallel and Distributed

PDF, ePUB
• eBook:
Guide to Graph Algorithms: Sequential, Parallel and Distributed
• Author:
K Erciyes
• Edition:
1st ed. 2018 edition
• Categories:
• Data:
April 23, 2018
• ISBN:
331973234X
• ISBN-13:
9783319732343
• Language:
English
• Pages:
489 pages
• Format:
PDF, ePUB

Book Description
This clearly structured textbook/reference presents a detailed and comprehensive review of the fundamental principles of sequential graph algorithms, approaches for NP-hard graph problems, and approximation algorithms and heuristics for such problems. The work also provides a comparative analysis of sequential, parallel and distributed graph algorithms – including algorithms for big data – and an investigation into the conversion principles between the three algorithmic methods.
Topics and features: presents a comprehensive analysis of sequential graph algorithms; offers a unifying view by examining the same graph problem from each of the three paradigms of sequential, parallel and distributed algorithms; describes methods for the conversion between sequential, parallel and distributed graph algorithms; surveys methods for the analysis of large graphs and complex network applications; includes full implementation details for the problems presented throughout the text; provides additional supporting material at an accompanying website.This practical guide to the design and analysis of graph algorithms is ideal for advanced and graduate students of computer science, electrical and electronic engineering, and bioinformatics. The material covered will also be of value to any researcher familiar with the basics of discrete mathematics, graph theory and algorithms.

#### Content

1. Introduction

Part I - Fundamentals
2. Introduction to Graphs
3. Graph Algorithms
4. Parallel Graph Algorithms
5. Distributed Graph Algorithms

Part II - Basic Graph Algorithms
6. Trees and Graph Traversals
7. Weighted Graphs
8. Connectivity
9. Matching
10. Independence, Domination, and Vertex Cover
11. Coloring

12. Algebraic and Dynamic Graph Algorithms
13. Analysis of Large Graphs
14. Complex Networks
15. Epilogue

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