Divide-and-conquer approximation algorithms via spreading metrics

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Divide-and-conquer approximation algorithms via spreading metrics

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Journal of the ACM (JACM) archive
Volume 47 , Issue 4 (July 2000) table of contents

Pages: 585 - 616

Year of Publication: 2000

ISSN:0004-5411

Authors

Guy Even	Tel-Aviv Univ., Tel-Aviv, Israel
Joseph Seffi Naor	Technion–Israel Institute of Technology, Haifa, Israel
Satish Rao	Univ. of California, Berkeley
Baruch Schieber	IBM T. J. Watson Research Center, Yorktown Heights, NY

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ACM New York, NY, USA

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Downloads (6 Weeks): 17, Downloads (12 Months): 150, Citation Count: 16

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ABSTRACT

We present a novel divide-and-conquer paradigm for approximating NP-hard graph optimization problems. The paradigm models graph optimization problems that satisfy two properties: First, a divide-and-conquer approach is applicable. Second, a fractional spreading metric is computable in polynomial time. The spreading metric assigns lengths to either edges or vertices of the input graph, such that all subgraphs for which the optimization problem is nontrivial have large diameters. In addition, the spreading metric provides a lower bound, t , on the cost of solving the optimization problem. We present a polynomial time approximation algorithm for problems modeled by our paradigm whose approximation factor is O(min{log t, log log t , log k log log k}) where k denotes the number of “interesting” vertices in the problem instance, and is at most the number of vertices. We present seven problems that can be formulated to fit the paradigm. For all these problems our algorithm improves previous results. The problems are: (1) linear arrangement; (2) embedding a graph in a d-dimensional mesh; (3) interval graph completion; (4) minimizing storage-time product; (5) subset feedback sets in directed graphs and multicuts in circular networks; (6) symmetric multicuts in directed networks; (7) balanced partitions and p-separators (for small values of p) in directed graphs.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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CITED BY 16

	Jens Vygen, New theoretical results on quadratic placement, Integration, the VLSI Journal, v.40 n.3, p.305-314, April, 2007
	Joseph (Seffi) Naor , Roy Schwartz, The directed circular arrangement problem, Proceedings of the fifteenth annual ACM-SIAM symposium on Discrete algorithms, January 11-14, 2004, New Orleans, Louisiana
	Konstantin Andreev , Harald Räcke, Balanced graph partitioning, Proceedings of the sixteenth annual ACM symposium on Parallelism in algorithms and architectures, June 27-30, 2004, Barcelona, Spain
	Moses Charikar , Mohammad Taghi Hajiaghayi , Howard Karloff , Satish Rao, l²₂ spreading metrics for vertex ordering problems, Proceedings of the seventeenth annual ACM-SIAM symposium on Discrete algorithm, p.1018-1027, January 22-26, 2006, Miami, Florida
	Moses Charikar , Konstantin Makarychev , Yury Makarychev, A divide and conquer algorithm for d-dimensional arrangement, Proceedings of the eighteenth annual ACM-SIAM symposium on Discrete algorithms, p.541-546, January 07-09, 2007, New Orleans, Louisiana
	Uriel Feige , James R. Lee, An improved approximation ratio for the minimum linear arrangement problem, Information Processing Letters, v.101 n.1, p.26-29, 16 January 2007
	Boris Aronov , Mark de Berg , Chris Gray , Elena Mumford, Cutting cycles of rods in space: hardness and approximation, Proceedings of the nineteenth annual ACM-SIAM symposium on Discrete algorithms, p.1241-1248, January 20-22, 2008, San Francisco, California
	Eran Halperin , Robert Krauthgamer, Polylogarithmic inapproximability, Proceedings of the thirty-fifth annual ACM symposium on Theory of computing, June 09-11, 2003, San Diego, CA, USA
	Timothée Bossart , Alix Munier Kordon , Francis Sourd, Memory management optimization problems for integrated circuit simulators, Discrete Applied Mathematics, v.155 n.14, p.1795-1811, September, 2007
	Nikhil R. Devanur , Subhash A. Khot , Rishi Saket , Nisheeth K. Vishnoi, Integrality gaps for sparsest cut and minimum linear arrangement problems, Proceedings of the thirty-eighth annual ACM symposium on Theory of computing, May 21-23, 2006, Seattle, WA, USA
	Joseph (Seffi) Naor , Roy Schwartz, Balanced metric labeling, Proceedings of the thirty-seventh annual ACM symposium on Theory of computing, May 22-24, 2005, Baltimore, MD, USA
	Robert Krauthgamer , Joseph (Seffi) Naor , Roy Schwartz, Partitioning graphs into balanced components, Proceedings of the Nineteenth Annual ACM -SIAM Symposium on Discrete Algorithms, p.942-949, January 04-06, 2009, New York, New York
	Mohammad T. Hajiaghayi , Robert Kleinberg , Tom Leighton, Improved lower and upper bounds for universal TSP in planar metrics, Proceedings of the seventeenth annual ACM-SIAM symposium on Discrete algorithm, p.649-658, January 22-26, 2006, Miami, Florida
	Uriel Feige , MohammadTaghi Hajiaghayi , James R. Lee, Improved approximation algorithms for minimum-weight vertex separators, Proceedings of the thirty-seventh annual ACM symposium on Theory of computing, May 22-24, 2005, Baltimore, MD, USA
	Ittai Abraham , Yair Bartal , Ofer Neimany, Advances in metric embedding theory, Proceedings of the thirty-eighth annual ACM symposium on Theory of computing, May 21-23, 2006, Seattle, WA, USA
	Josep Díaz , Jordi Petit , Maria Serna, A survey of graph layout problems, ACM Computing Surveys (CSUR), v.34 n.3, p.313-356, September 2002

INDEX TERMS

Primary Classification:
G. Mathematics of Computing
G.2 DISCRETE MATHEMATICS
G.2.2 Graph Theory
Subjects: Graph algorithms

Additional Classification:
F. Theory of Computation
F.2 ANALYSIS OF ALGORITHMS AND PROBLEM COMPLEXITY
F.2.2 Nonnumerical Algorithms and Problems
Subjects: Computations on discrete structures

G. Mathematics of Computing
G.2 DISCRETE MATHEMATICS
G.2.2 Graph Theory
Subjects: Network problems

General Terms:
Algorithms, Theory

Keywords:
approximation algorithms, divide and conquer, feedback set, linear arrangement, multicut, spreading metrics

REVIEW

"Adam Drozdek : Reviewer"

Divide-and-conquer techniques that lead to polynomial-time approximation algorithms for seven NP-hard graph optimization problems are described. For these problems, spreading metrics—functions assigning nonnegative lengths to edges&mdash more...

Collaborative Colleagues:

Guy Even: colleagues

Joseph Seffi Naor: colleagues

Satish Rao: colleagues

Baruch Schieber: colleagues

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