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Cioaca, Alexandru and Alexe, Mihai and Sandu, Dr Adrian (2010) Second order adjoints for solving PDE-constrained optimization problems. Technical Report TR-10-12, Computer Science, Virginia Tech.

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## Abstract

Inverse problems are of utmost importance in many fields of science and engineering. In the variational approach inverse problems are formulated as PDE-constrained optimization problems, where the optimal estimate of the uncertain parameters is the minimizer of a certain cost functional subject to the constraints posed by the model equations. The numerical solution of such optimization problems requires the computation of derivatives of the model output with respect to model parameters. The first order derivatives of a cost functional (defined on the model output) with respect to a large number of model parameters can be calculated efficiently through first order adjoint sensitivity analysis. Second order adjoint models give second derivative information in the form of matrix-vector products between the Hessian of the cost functional and user defined vectors. Traditionally, the construction of second order derivatives for large scale models has been considered too costly. Consequently, data assimilation applications employ optimization algorithms that use only first order derivative information, like nonlinear conjugate gradients and quasi-Newton methods. In this paper we discuss the mathematical foundations of second order adjoint sensitivity analysis and show that it provides an efficient approach to obtain Hessian-vector products. We study the benefits of using of second order information in the numerical optimization process for data assimilation applications. The numerical studies are performed in a twin experiment setting with a two-dimensional shallow water model. Different scenarios are considered with different discretization approaches, observation sets, and noise levels. Optimization algorithms that employ second order derivatives are tested against widely used methods that require only first order derivatives. Conclusions are drawn regarding the potential benefits and the limitations of using high-order information in large scale data assimilation problems.

Item Type: Departmental Technical Report Inverse Problems, Second Order Adjoints, Stiff Equations, Sensitivity Analysis, Shallow Water Equations, Data Assimilation, Numerical Optimization, PDE-constrained Optimization Computer Science > Numerical AnalysisComputer Science > Mathematical Software 1125 Cioaca, Alexandru 10 November 2010