Dynamic iteration and model order reduction for magneto-quasistatic systems / / Johanna Kerler-Back.
Our world today is becoming increasingly complex, and technical devices are getting ever smaller and more powerful. The high density of electronic components together with high clock frequencies leads to unwanted side-effects like crosstalk, delayed signals and substrate noise, which are no longer n...
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Place / Publishing House: | Berlin, Germany : : Logos Verlag Berlin GmbH,, [2019] ©2019 |
Year of Publication: | 2019 |
Language: | English |
Series: | Augsburger Schriften zur Mathematik, Physik und Informatik ;
Band 35 |
Physical Description: | 1 online resource (ix, 140 pages) :; illustrations, charts; digital file(s). |
Notes: | Author's doctoral thesis, Universität Augsburg. |
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Kerler-Back, Johanna, author. Dynamic iteration and model order reduction for magneto-quasistatic systems / Johanna Kerler-Back. Berlin/Germany Logos Verlag Berlin 2019 Berlin, Germany : Logos Verlag Berlin GmbH, [2019] ©2019 1 online resource (ix, 140 pages) : illustrations, charts; digital file(s). text txt rdacontent computer c rdamedia online resource cr rdacarrier text file rda Augsburger Schriften zur Mathematik, Physik und Informatik ; Band 35 Author's doctoral thesis, Universität Augsburg. Includes bibliographical references. Also available in print form. In English. Description based on e-publication, viewed on August 3, 2021. Our world today is becoming increasingly complex, and technical devices are getting ever smaller and more powerful. The high density of electronic components together with high clock frequencies leads to unwanted side-effects like crosstalk, delayed signals and substrate noise, which are no longer negligible in chip design and can only insufficiently be represented by simple lumped circuit models. As a result, different physical phenomena have to be taken into consideration since they have an increasing influence on the signal propagation in integrated circuits. Computer-based simulation methods play thereby a key role. The modelling and analysis of complex multi-physics problems typically leads to coupled systems of partial differential equations and differential-algebraic equations (DAEs). Dynamic iteration and model order reduction are two numerical tools for efficient and fast simulation of coupled systems. Formodelling of low frequency electromagnetic field, we use magneto-quasistatic (MQS) systems which can be considered as an approximation to Maxwells equations. A spatial discretization by using the finite element method leads to a DAE system. We analyze the structural and physical properties of this system and develop passivity-preserving model reduction methods. A special block structure of the MQS model is exploited to to improve the performance of the model reduction algorithms. CC BY-NC-ND Technology. model order reduction dynamic iteration magneto-quasistatic systems differential algebraic equations finite element method Universität Augsburg, degree awarding institution. Print version: 3832549102 |
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English |
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author |
Kerler-Back, Johanna, |
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Kerler-Back, Johanna, Dynamic iteration and model order reduction for magneto-quasistatic systems / Augsburger Schriften zur Mathematik, Physik und Informatik ; |
author_facet |
Kerler-Back, Johanna, Universität Augsburg, Universität Augsburg, |
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Universität Augsburg, |
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Universität Augsburg, |
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Kerler-Back, Johanna, |
title |
Dynamic iteration and model order reduction for magneto-quasistatic systems / |
title_full |
Dynamic iteration and model order reduction for magneto-quasistatic systems / Johanna Kerler-Back. |
title_fullStr |
Dynamic iteration and model order reduction for magneto-quasistatic systems / Johanna Kerler-Back. |
title_full_unstemmed |
Dynamic iteration and model order reduction for magneto-quasistatic systems / Johanna Kerler-Back. |
title_auth |
Dynamic iteration and model order reduction for magneto-quasistatic systems / |
title_new |
Dynamic iteration and model order reduction for magneto-quasistatic systems / |
title_sort |
dynamic iteration and model order reduction for magneto-quasistatic systems / |
series |
Augsburger Schriften zur Mathematik, Physik und Informatik ; |
series2 |
Augsburger Schriften zur Mathematik, Physik und Informatik ; |
publisher |
Logos Verlag Berlin Logos Verlag Berlin GmbH, |
publishDate |
2019 |
physical |
1 online resource (ix, 140 pages) : illustrations, charts; digital file(s). Also available in print form. |
isbn |
9783832549107 3832549102 |
illustrated |
Illustrated |
dewey-hundreds |
500 - Science |
dewey-tens |
530 - Physics |
dewey-ones |
537 - Electricity & electronics |
dewey-full |
537.015186 |
dewey-sort |
3537.015186 |
dewey-raw |
537.015186 |
dewey-search |
537.015186 |
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AT kerlerbackjohanna dynamiciterationandmodelorderreductionformagnetoquasistaticsystems AT universitataugsburg dynamiciterationandmodelorderreductionformagnetoquasistaticsystems |
status_str |
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(CKB)4100000011479705 (oapen)https://directory.doabooks.org/handle/20.500.12854/64409 (ScCtBLL)f38abb35-344e-463c-832c-4253f46564b7 (EXLCZ)994100000011479705 |
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Dynamic iteration and model order reduction for magneto-quasistatic systems / |
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