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Spectral Algorithms
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Source: Journal:Foundations and Trends® in Theoretical Computer Science ISSN Print:1551-305X, ISSN Online:1551-3068 Publisher:Now Publishers Volume 4 Number 3-4, Pages: 132(157-288) DOI: 10.1561/0400000025
Abstract: Spectral methods refer to the use of eigenvalues, eigenvectors, singular values, and singular vectors. They are widely used in Engineering, Applied Mathematics, and Statistics. More recently, spectral methods have found numerous applications in Computer Science to “discrete” as well as “continuous” problems. This monograph describes modern applications of spectral methods, and novel algorithms for estimating spectral parameters. In the first part of the monograph, we present applications of spectral methods to problems from a variety of topics including combinatorial optimization, learning, and clustering. The second part of the monograph is motivated by efficiency considerations. A feature of many modern applications is the massive amount of input data. While sophisticated algorithms for matrix computations have been developed over a century, a more recent development is algorithms based on “sampling on the fly” from massive matrices. Good estimates of singular values and low-rank approximations of the whole matrix can be provably derived from a sample. Our main emphasis in the second part of the monograph is to present these sampling methods with rigorous error bounds. We also present recent extensions of spectral methods from matrices to tensors and their applications to some combinatorial optimization problems.
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