Hermann Weyl Lectures
Sparsification of graphs and matrices
Random graphs and expander graphs can be viewed as sparse approximations of complete graphs, with Ramanujan expanders providing the best possible approximations. We formalize this notion of approximation and ask how well an arbitrary graph can be approximated by a sparse graph. We prove that every graph can be approximated by a sparse graph almost as well as the complete graphs are approximated by the Ramanujan expanders: our approximations employ at most twice as many edges to achieve the same approximation factor. Our algorithms follow from the solution of a problem in linear algebra. Given an expression for a rank-\(n\) symmetric matrix \(A\) as a sum of rank-1 symmetric matrices, we show that \(A\) can be well approximated by a weighted sum of only \(O(n)\) of those rank-1 matrices. This is joint work with Joshua Batson, Nikhil Srivastava and Shang-Hua Teng.