title: The Second Eigenvalue of the Google Matrix
creator: Haveliwala, Taher
creator: Kamvar, Sepandar
subject: Computer Science
subject: Data Mining
subject: Databases and the Web
subject: Miscellaneous
description: We determine analytically the modulus of the second eigenvalue  for the web hyperlink matrix used by Google for computing PageRank.   Specifically, we prove the following statement:  ``For any matrix $A=[cP + (1-c)E]^T$, where $P$ is an $n \times n$  row-stochastic matrix, $E$ is a strictly positive $n \times n$  rank-one row-stochastic matrix, and $0 \leq c \leq 1$,  the second eigenvalue of $A$ has modulus $|\lambda_2| \leq c$. Furthermore, if $P$ has at least two irreducible closed subsets,  the second eigenvalue $\lambda_2 = c$.''  This statement has implications for the convergence rate of the standard PageRank algorithm as the web scales, for the stability of PageRank to perturbations to the link structure of the web, for the detection of Google spammers, and for the design of algorithms to speed up PageRank. 
publisher: Stanford
date: 2003
type: Techreport
type: NonPeerReviewed
format: application/pdf
identifier: http://ilpubs.stanford.edu:8090/582/1/2003-20.pdf
identifier: Haveliwala, Taher and Kamvar, Sepandar (2003) The Second Eigenvalue of the Google Matrix. Technical Report. Stanford.
relation: http://ilpubs.stanford.edu:8090/582/