Liu, XinWen, ZaiwenZhang,Yin2018-06-192018-06-192014-05Liu, Xin, Wen, Zaiwen and Zhang,Yin. "An Efficient Gauss-Newton Algorithm for Symmetric Low-Rank Product Matrix Approximatins." (2014) <a href="https://hdl.handle.net/1911/102223">https://hdl.handle.net/1911/102223</a>.https://hdl.handle.net/1911/102223We derive and study a Gauss-Newton method for computing the symmetric low-rank product (SLRP) XXT, where X / Rnkfor k<n, that is the closest approximation to a given symmetric matrix A / Rnn in Frobenius norm. When A=BTB (or BBT), this problem essentially reduces to finding a truncated singular value decomposition of B. Our Gauss-Newton method, which has a particularly simple form, shares the same order of iteration-complexity as a gradient method when k << n, but can be significantly faster on a wide range of problems. In this paper, we prove global convergence and a Q-linear convergence rate for this algorithm, and perform numerical experiments on various test problems, including those from recently active areas of matrix completion and robust principal component analysis. Numerical results show that the proposed algorithm is capable of providing considerable speed advantages over Krylov subspace methods on suitable application problems. Moreover, the algorithm possesses a higher degree of concurrency than Krylov subspace methods, thus offering better scalability on modern multi/many-core computers.32 ppengTechnical reportTR14-01