Title :
Speeding Up Distributed Low-Rank Matrix Factorization
Author :
Chengjie Qin ; Rusu, Florin
Author_Institution :
Sch. of Eng., Univ. of California, Merced, Merced, CA, USA
Abstract :
Distributed solution for solving low-rank matrix factorization (LMF), an important problem in recommendation system, has recently been studied a lot in order to better deal with the exploding data under the context of Big Data. Stochastic gradient descent is a general technique to solve a large class of convex optimization problems and it is often been chosen to solve problems that deals with large data sets in particular. In this work, we summarize the existing distributed solutions of LMF problem using stochastic gradient descent. We then proposed a novel distributed solution for LMF problem and our solution is able to achieve the best convergence rate as well as fastest execution time when compared with existing solutions. When deployed in the cloud, our solution has the potential to dramatically reduce the cost of complex analytics over massive datasets.
Keywords :
cloud computing; convex programming; gradient methods; mathematics computing; matrix decomposition; recommender systems; stochastic processes; LMF problem; big data context; cloud computing; convex optimization problem; distributed low-rank matrix factorization; recommendation system; stochastic gradient descent; Computational modeling; Convergence; Data models; Distributed databases; Motion pictures; Parallel processing; Stochastic processes; big data analytics; low-rank matrix factorization; parallel processing; stochastic gradient descent;
Conference_Titel :
Cloud Computing and Big Data (CloudCom-Asia), 2013 International Conference on
Conference_Location :
Fuzhou
Print_ISBN :
978-1-4799-2829-3
DOI :
10.1109/CLOUDCOM-ASIA.2013.100
