2017 took place in Daejeon (South Korea) from June 18-22, 2017. It is one of the most important conferences in the field of computational electromagnetics. Our other contributions were very well received (9 posters and 2 oral presentations). We received two awards, in particular Radoslav Jankoski has won a best poster award for his contribution “The Impact of Spatial Uncertainties in the Magnetic Reluctivity on the Field Quality of a Combined Function Magnet”. Continue reading →
The 11th International Symposium on Electric and Magnetic Fields, EMF 2018, will be held in Darmstadt (Germany) from 10 to 12 April 2018. The purpose of the Symposium is to throw a bridge between recent research advances in mathematical and numerical modelling of electromagnetic fields and the growing number of industrial problems requiring such techniques. Do not miss the chance to take part, the call for papers will open soon. Abstracts should be submitted by 24 November 2017! Continue reading →
Our paper on “Optimized Field/Circuit Coupling for the Simulation of Quenches in Superconducting Magnets” has been accepted by the IEEE Journal on Multiscale and Multiphysics Computational Techniques
. The paper proposes an optimised waveform-relaxation approach for the simulation of magnetothermal transients in superconducting magnets. The work has been carried in the framework STEAM together with CERN.
Lichtenberg-Cluster an der TU Darmstadt. Bild: Katrin Binner
From the press release: “Ein wichtiges Etappenziel für den Ausbau des Lichtenberg-Hochleistungsrechners ist geschafft: Der Wissenschaftsrat hat während seiner Frühjahrssitzungen das TU-Vorhaben „Lichtenberg II“ für die Förderung im Bund-Länder-Programm Forschungsbauten empfohlen. Beantragt sind 15 Millionen Euro, über die die Gemeinsame Wissenschaftskonferenz von Bund und Ländern Ende Juni entscheiden wird.”
Update. Funding is granted: “Lichtenberg II für die Spitzenforschung TU erhält 15 Millionen Euro von Bund und Land für Hochleistungsrechner” Continue reading →
I am proud to announce that DFG grants funding for our research on the simulation of superconducting cavities with isogeometric boundary elements “IGA-BEM”. The project is supervised by Stefan Kurz (KU 1553/4-1) and myself (SCHO1562/3-1). The aim of the joint project is the highly accurate simulation of resonant frequencies of superconducting cavities in particle accelerators. Since the simulation accuracy heavily depends on the geometry representation it will be described and discretized with Non-Uniform Rational B-Splines, which allow an exact description of the computer aided design.
Die TU Darmstadt unterstützt den March for Science offiziell als Institution – das hat das Präsidium in seiner jüngsten Sitzung beschlossen. Zu den weiteren Institutionen, die den March for Science unterstützen, zählen unter anderem die Alexander von Humboldt-Stiftung oder der Deutsche Akademischer Austauschdienst (DAAD). Continue reading →
Abele Simona and Luca Bonaventura from MOX, Politecnico di Milano will talk on 13 Mar 2017, 16:15–17:45 in S2|17-103 about Numerical approximation of charged particle motion in magnetic quadrupoles.
Our paper on “Simulation of Electro-Thermal Transients in Superconducting Accelerator Magnets with COMSOL Multiphysics” (authors: L. Bortot, M. Maciejewski, M. Prioli, A.M. Fernandez Navarro, S. Schöps, I. Cortes Garcia, B. Auchmann, and A.P. Verweij) is currently featured on the COMSOL blog
Google Summer of Code is a global program focused on bringing more student developers into open source software development. GNU Octave is taking part as one organisation
. Interesting project can be found in the wiki
or proposed by students themselves. I am offering to tutor projects that improve the msh package
or package management
Dr. Robert Speck, Forschungszentrum Juelich talks on 30 Jan 2017, 16:15–17:45 in S2|17-103 on Parallel-in-Time Integration with PFASST: For time-dependent partial differential equations, parallel-in-time integration using the “parallel full approximation scheme in space and time” (PFASST) is a promising way to accelerate existing space-parallel approaches beyond their scaling limits. Inspired by the classical Parareal method and non-linear multigrid ideas, PFASST allows to integrate … Continue reading →