A new multipoint symmetric secant method with a dense initial matrix

Optimization Methods and Software Pub Date : 2021-07-13 DOI:10.1080/10556788.2023.2167993

Jennifer B. Erway, Mostafa Rezapour

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引用次数: 7

Abstract

In large-scale optimization, when either forming or storing Hessian matrices are prohibitively expensive, quasi-Newton methods are often used in lieu of Newton's method because they only require first-order information to approximate the true Hessian. Multipoint symmetric secant (MSS) methods can be thought of as generalizations of quasi-Newton methods in that they attempt to impose additional requirements on their approximation of the Hessian. Given an initial Hessian approximation, MSS methods generate a sequence of possibly-indefinite matrices using rank-2 updates to solve nonconvex unconstrained optimization problems. For practical reasons, up to now, the initialization has been a constant multiple of the identity matrix. In this paper, we propose a new limited-memory MSS method for large-scale nonconvex optimization that allows for dense initializations. Numerical results on the CUTEst test problems suggest that the MSS method using a dense initialization outperforms the standard initialization. Numerical results also suggest that this approach is competitive with both a basic L-SR1 trust-region method and an L-PSB method.

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一种具有密集初始矩阵的多点对称割线新方法

在大规模优化中，当形成或存储Hessian矩阵非常昂贵时，通常使用准牛顿方法来代替牛顿方法，因为它们只需要一阶信息来近似真正的Hessian。多点对称割线(MSS)方法可以被认为是准牛顿方法的推广，因为它们试图在它们的近似Hessian上施加额外的要求。给定初始Hessian近似，MSS方法使用秩-2更新生成可能不定矩阵序列来解决非凸无约束优化问题。由于实际原因，到目前为止，初始化一直是单位矩阵的常数倍。在本文中，我们提出了一种新的有限内存MSS方法，用于大规模非凸优化，允许密集初始化。CUTEst测试问题的数值结果表明，使用密集初始化的MSS方法优于标准初始化方法。数值结果还表明，该方法与基本的L-SR1信任域方法和L-PSB方法都具有竞争力。

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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Optimization Methods and Software

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