Distributed-Memory Parallel JointNMF

Srinivas Eswar, Benjamin Cobb, Koby Hayashi, R. Kannan, Grey Ballard, R. Vuduc, Haesun Park
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Abstract

Joint Nonnegative Matrix Factorization (JointNMF) is a hybrid method for mining information from datasets that contain both feature and connection information. We propose distributed-memory parallelizations of three algorithms for solving the JointNMF problem based on Alternating Nonnegative Least Squares, Projected Gradient Descent, and Projected Gauss-Newton. We extend well-known communication-avoiding algorithms using a single processor grid case to our coupled case on two processor grids. We demonstrate the scalability of the algorithms on up to 960 cores (40 nodes) with 60% parallel efficiency. The more sophisticated Alternating Nonnegative Least Squares (ANLS) and Gauss-Newton variants outperform the first-order gradient descent method in reducing the objective on large-scale problems. We perform a topic modelling task on a large corpus of academic papers that consists of over 37 million paper abstracts and nearly a billion citation relationships, demonstrating the utility and scalability of the methods.
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联合非负矩阵分解(JointNMF)是一种从包含特征信息和连接信息的数据集中挖掘信息的混合方法。我们提出了三种基于交替非负最小二乘、投影梯度下降和投影高斯-牛顿的分布式内存并行算法来解决JointNMF问题。我们将使用单处理器网格的著名通信避免算法扩展到我们在两个处理器网格上的耦合情况。我们在多达960个核(40个节点)上演示了算法的可扩展性,并行效率为60%。更复杂的交替非负最小二乘(ANLS)和高斯-牛顿变体在减少大规模问题的目标方面优于一阶梯度下降方法。我们对由超过3700万篇论文摘要和近10亿引用关系组成的大型学术论文语料库执行主题建模任务,展示了方法的实用性和可扩展性。
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