Related papers: A Riemannian ADMM

A Riemannian ADMM

URL: http://arxiv.org/abs/2211.02163v3
Date: Mon, 25 Nov 2024 21:35:48 GMT
Title: A Riemannian ADMM
Authors: Jiaxiang Li, Shiqian Ma, Tejes Srivastava,
Abstract summary: Class of problems finds important applications in machine learning and statistics. Our algorithm is the first ADM ADM algorithm for solving a sparse nonsmooth objective manifold.
Score: 4.3636987525527084
License:
Abstract: We consider a class of Riemannian optimization problems where the objective is the sum of a smooth function and a nonsmooth function, considered in the ambient space. This class of problems finds important applications in machine learning and statistics such as the sparse principal component analysis, sparse spectral clustering, and orthogonal dictionary learning. We propose a Riemannian alternating direction method of multipliers (ADMM) to solve this class of problems. Our algorithm adopts easily computable steps in each iteration. The iteration complexity of the proposed algorithm for obtaining an $\epsilon$-stationary point is analyzed under mild assumptions. Existing ADMM for solving nonconvex problems either does not allow nonconvex constraint set, or does not allow nonsmooth objective function. Our algorithm is the first ADMM type algorithm that minimizes a nonsmooth objective over manifold -- a particular nonconvex set. Numerical experiments are conducted to demonstrate the advantage of the proposed method.

Related papers

ADMM for Structured Fractional Minimization [7.9047096855236125]
We consider a class of structured fractional problems, where the numerator includes a differentiable function. We introduce sf FADMM, the first Alternating Method of Multipliers for this class of problems.
arXiv Detail & Related papers (2024-11-12T02:50:12Z)
A Sample Efficient Alternating Minimization-based Algorithm For Robust Phase Retrieval [56.67706781191521]
In this work, we present a robust phase retrieval problem where the task is to recover an unknown signal. Our proposed oracle avoids the need for computationally spectral descent, using a simple gradient step and outliers.
arXiv Detail & Related papers (2024-09-07T06:37:23Z)
Convergence and complexity of block majorization-minimization for constrained block-Riemannian optimization [18.425648833592312]
Blockization-minimization (BMM) is a simple iterative gradient for non-exhaustive subspace estimation. Our analysis makes explicit use of Euclidian constraints.
arXiv Detail & Related papers (2023-12-16T05:40:19Z)
Riemannian stochastic optimization methods avoid strict saddle points [68.80251170757647]
We show that policies under study avoid strict saddle points / submanifolds with probability 1. This result provides an important sanity check as it shows that, almost always, the limit state of an algorithm can only be a local minimizer.
arXiv Detail & Related papers (2023-11-04T11:12:24Z)
Decentralized Riemannian Algorithm for Nonconvex Minimax Problems [82.50374560598493]
The minimax algorithms for neural networks have been developed to solve many problems. In this paper, we propose two types of minimax algorithms. For the setting, we propose DRSGDA and prove that our method achieves a gradient.
arXiv Detail & Related papers (2023-02-08T01:42:45Z)
On a class of geodesically convex optimization problems solved via Euclidean MM methods [50.428784381385164]
We show how a difference of Euclidean convexization functions can be written as a difference of different types of problems in statistics and machine learning. Ultimately, we helps the broader broader the broader the broader the broader the work.
arXiv Detail & Related papers (2022-06-22T23:57:40Z)
Minimax Optimization with Smooth Algorithmic Adversaries [59.47122537182611]
We propose a new algorithm for the min-player against smooth algorithms deployed by an adversary. Our algorithm is guaranteed to make monotonic progress having no limit cycles, and to find an appropriate number of gradient ascents.
arXiv Detail & Related papers (2021-06-02T22:03:36Z)
Accelerated Algorithms for Convex and Non-Convex Optimization on Manifolds [9.632674803757475]
We propose a scheme for solving convex and non- optimization problems on distance. Our proposed algorithm adapts to the level of complexity in the objective function.
arXiv Detail & Related papers (2020-10-18T02:48:22Z)
Convergence of adaptive algorithms for weakly convex constrained optimization [59.36386973876765]
We prove the $mathcaltilde O(t-1/4)$ rate of convergence for the norm of the gradient of Moreau envelope. Our analysis works with mini-batch size of $1$, constant first and second order moment parameters, and possibly smooth optimization domains.
arXiv Detail & Related papers (2020-06-11T17:43:19Z)
Riemannian Stochastic Proximal Gradient Methods for Nonsmooth Optimization over the Stiefel Manifold [7.257751371276488]
R-ProxSGD and R-ProxSPB are generalizations of proximal SGD and proximal SpiderBoost. R-ProxSPB algorithm finds an $epsilon$-stationary point with $O(epsilon-3)$ IFOs in the online case, and $O(n+sqrtnepsilon-3)$ IFOs in the finite-sum case.
arXiv Detail & Related papers (2020-05-03T23:41:35Z)
Stochastic Zeroth-order Riemannian Derivative Estimation and Optimization [15.78743548731191]
We propose an oracle version of the Gaussian smoothing function to overcome the difficulty of non-linearity of manifold non-linearity. We demonstrate the applicability of our algorithms by results and real-world applications on black-box stiffness control for robotics and black-box attacks to neural networks.
arXiv Detail & Related papers (2020-03-25T06:58:19Z)

This list is automatically generated from the titles and abstracts of the papers in this site.