Sebastian Götschel scite author profile

Sebastian Götschel

5Publications

93Citation Statements Received

70Citation Statements Given

How they've been cited

How they cite others

124

Affiliations

Hamburg University of Technology, Zuse Institute Berlin

Publications

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An Efficient Parallel-in-Time Method for Optimization with Parabolic PDEs

Götschel

Minion

2019

SIAM J. Sci. Comput.

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To solve optimization problems with parabolic PDE constraints, often methods working on the reduced objective functional are used. They are computationally expensive due to the necessity of solving both the state equation and a backward-in-time adjoint equation to evaluate the reduced gradient in each iteration of the optimization method. In this study, we investigate the use of the parallel-in-time method PFASST in the setting of PDE-constrained optimization. In order to develop an efficient fully timeparallel algorithm we discuss different options for applying PFASST to adjoint gradient computation, including the possibility of doing PFASST iterations on both the state and adjoint equations simultaneously. We also explore the additional gains in efficiency from reusing information from previous optimization iterations when solving each equation. Numerical results for both a linear and a non-linear reaction-diffusion optimal control problem demonstrate the parallel speedup and efficiency of different approaches.

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Kaskade 7 — A flexible finite element toolbox

Götschel

Schiela

Weiser

2021

Computers & Mathematics with Applications

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Solving Optimal Control Problems with the Kaskade 7 Finite Element Toolbox

Götschel

Weiser

Schiela

2012

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State Trajectory Compression for Optimal Control with Parabolic PDEs

Weiser¹,

Götschel²

2012

SIAM J. Sci. Comput.

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In optimal control problems with nonlinear time-dependent 3D PDEs, full 4D discretizations are usually prohibitive due to the storage requirement. For this reason gradient and Newton type methods working on the reduced functional are often employed. The computation of the reduced gradient requires one solve of the state equation forward in time, and one backward solve of the adjoint equation. The state enters into the adjoint equation, again requiring the storage of a full 4D data set. We propose a lossy compression algorithm using an inexact but cheap predictor for the state data, with additional entropy coding of prediction errors. As the data is used inside a discretized, iterative algorithm, lossy compression maintaining a certain error bound turns out to be sufficient.

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Lossy compression for PDE-constrained optimization: adaptive error control

Götschel

Weiser

2014

Comput Optim Appl

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