A Domain Decomposition Approach for Uncertainty Analysis

Liao, Qifeng; Willcox, Karen

doi:10.1137/140980508

Cited by 24 publications

(7 citation statements)

References 58 publications

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“…As a broader objective, we are also exploring various dimension-reduction approaches (see e.g. [59,60,61,62,63]) as well as the use of local uncertainty parameterizations [64] as potential routes to reduce both the complexity of the maps reconstruction and the dimensionality of the condensed problem. Also in view of the implementation of the method on exascale prototypes, we are considering the treatment of hard faults in a server-client framework (see [53,54]) as well as more elaborate soft fault models.…”

Section: Discussionmentioning

confidence: 99%

“…These computations are for the case of the covariance with L = 1 with a fixed stochastic discretization K = 5, q = 5, and constant sampling ratio ρ = 5. As previously, the failure rate is estimated from a set of 1,000 independent replicas using the criterion in (62) to decide the success of a computation. In the following experiments, high values of P bf are considered without increasing the sampling rate ρ, so as to exaggerate failure effects and capture the trends.…”

Section: Domain Decomposition Parametersmentioning

confidence: 99%

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A resilient domain decomposition polynomial chaos solver for uncertain elliptic PDEs

Mycek

Contreras

Maître

et al. 2017

Computer Physics Communications

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A resilient method is developed for the solution of uncertain elliptic PDEs on extreme scale platforms. The method is based on a hybrid domain decomposition, polynomial chaos (PC) framework that is designed to address soft faults. Specifically, parallel and independent solves of multiple deterministic local problems are used to define PC representations of local Dirichlet boundary-toboundary maps that are used to reconstruct the global solution. A LAD-lasso type regression is developed for this purpose. The performance of the resulting algorithm is tested on an elliptic equation with an uncertain diffusivity field. Different test cases are considered in order to analyze the impacts of correlation structure of the uncertain diffusivity field, the stochastic resolution, as well as the probability of soft faults. In particular, the computations demonstrate that, provided sufficiently many samples are generated, the method effectively overcomes the occurrence of soft faults.

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Section: Discussionmentioning

confidence: 99%

Section: Domain Decomposition Parametersmentioning

confidence: 99%

A resilient domain decomposition polynomial chaos solver for uncertain elliptic PDEs

Mycek

Contreras

Maître

et al. 2017

Computer Physics Communications

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“…Remark 3. The strategy of applying POD to reduce the dimension on the interfaces have been used to develop other static condensation methods, e.g., [14,20,24]. Our contribution lies in the integration of this strategy into our methodology to successfully address the challenges of high-dimensionality and irregular behaviors, especially for the convection-dominated PDEs with random velocities in Example 2.…”

Section: Constructing Reduced Global and Local Linear Systemsmentioning

confidence: 99%

A Domain Decomposition Model Reduction Method for Linear Convection-Diffusion Equations with Random Coefficients

Mu¹,

Zhang²

2019

SIAM J. Sci. Comput.

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We develop a domain-decomposition model reduction method for linear steady-state convection-diffusion equations with random coefficients. Of particular interest to this effort are the diffusion equations with random diffusivities, and the convection-dominated transport equations with random velocities. We investigate the equations with two types of random fields, i.e., colored noises and discrete white noises, both of which can lead to high-dimensional parametric dependence. The motivation is to use domain decomposition to exploit low-dimensional structures of local problems in the sub-domains, such that the total number of expensive PDE solves can be greatly reduced. Our objective is to develop an efficient model reduction method to simultaneously handle highdimensionality and irregular behaviors of the stochastic PDEs under consideration. The advantages of our method lie in three aspects: (i) online-offline decomposition, i.e., the online cost is independent of the size of the triangle mesh; (ii) operator approximation for handling non-affine and high-dimensional random fields; (iii) effective strategy to capture irregular behaviors, e.g., sharp transitions of the PDE solution. Two numerical examples will be provided to demonstrate the advantageous performance of our method.

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“…These problems generally have great changes within very thin layers near the boundary or inside the considered domain. The challenging SPPs attract much attention to test models for using new algotithms such as domain decomposition methods, multigrid methods, double set parameter methods, and adaptive methods . In the past several years, there have been some studies focused on the theoretical analysis and simulations for the Bi‐wave SPP .…”

Section: Introductionmentioning

confidence: 99%

Uniform superconvergence analysis of Ciarlet‐Raviart scheme for Bi‐wave singular perturbation problem

Shi

2018

Math Methods in App Sciences

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Uniform superconvergence analysis of the Ciarlet‐Raviart mixed finite element scheme is discussed for solving the fourth‐order Bi‐wave singular perturbation problem (SPP) by the bilinear element. Firstly, the existence and uniqueness of the approximation solution are proved. Secondly, with the help of the special characters of this element, uniform superclose result of order O(h2) for the original variable in H1 norm and uniform optimal order estimate of order O(h2) for the intermediate variable in L2 norm are deduced with respect to the real perturbation parameter δ appearing in the considered problem. Furthermore, the global uniform superconvergent estimate is obtained through the interpolated postprocessing approach. Finally, some numerical results are provided to verify the theoretical analysis. Here, h denotes the mesh size.

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A Domain Decomposition Approach for Uncertainty Analysis

Cited by 24 publications

References 58 publications

A resilient domain decomposition polynomial chaos solver for uncertain elliptic PDEs

A resilient domain decomposition polynomial chaos solver for uncertain elliptic PDEs

A Domain Decomposition Model Reduction Method for Linear Convection-Diffusion Equations with Random Coefficients

Uniform superconvergence analysis of Ciarlet‐Raviart scheme for Bi‐wave singular perturbation problem

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