An Efficient and Reliable Tolerance- Based Algorithm for Principal Component Analysis

Michael Yeh, Ming Gu
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引用次数: 1

Abstract

Principal component analysis (PCA) is an important method for dimensionality reduction in data science and machine learning. However, it is expensive for large matrices when only a few components are needed. Existing fast PCA algorithms typically assume the user will supply the number of components needed, but in practice, they may not know this number beforehand. Thus, it is important to have fast PCA algorithms depending on a tolerance. We develop one such algorithm that runs quickly for matrices with rapidly decaying singular values, provide approximation error bounds that are within a constant factor away from optimal, and demonstrate its utility with data from a variety of applications.
一种高效可靠的基于公差的主成分分析算法
主成分分析(PCA)是数据科学和机器学习中重要的降维方法。然而,当只需要几个组件时,对于大型矩阵来说,这是昂贵的。现有的快速PCA算法通常假设用户将提供所需组件的数量,但在实践中,他们可能事先不知道这个数量。因此,基于容差的快速PCA算法非常重要。我们开发了一种这样的算法,它可以快速运行具有快速衰减的奇异值的矩阵,提供距离最优值在常数因子范围内的近似误差界限,并通过来自各种应用程序的数据演示其实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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