@misc{CaoAndersonBoehmeetal.2023, author = {Cao, Karl-Kien and Anderson, Lovis and B{\"o}hme, Aileen and Breuer, Thomas and Buschmann, Jan and Fiand, Frederick and Frey, Ulrich and Fuchs, Benjamin and Kempe, Nils-Christian and von Krbek, Kai and Medjroubi, Wided and Riehm, Judith and Sasanpour, Shima and Simon, Sonja and Vanaret, Charlie and Wetzel, Manuel and Xiao, Mengzhu and Zittel, Janina}, title = {Evaluation of Uncertainties in Linear-Optimizing Energy System Models - Compendium}, journal = {DLR-Forschungsbericht}, number = {DLR-FB-2023-15}, doi = {10.57676/w2rq-bj85}, pages = {95}, year = {2023}, abstract = {F{\"u}r die Energiesystemforschung sind Software-Modelle ein Kernelement zur Analyse von Szenarien. Das Forschungsprojekt UNSEEN hatte das Ziel eine bisher unerreichte Anzahl an modellbasierten Energieszenarien zu berechnen, um Unsicherheiten - vor allem unter Nutzung linear optimierender Energiesystem-Modelle - besser bewerten zu k{\"o}nnen. Hierf{\"u}r wurden umfangreiche Parametervariationen auf Energieszenarien angewendet und das wesentliche methodische Hindernis in diesem Zusammenhang adressiert: die rechnerische Beherrschbarkeit der zu l{\"o}senden mathematischen Optimierungsprobleme. Im Vorl{\"a}uferprojekt BEAM-ME wurde mit der Entwicklung und Anwendung des Open-Source-L{\"o}sers PIPS-IPM++ die Grundlage f{\"u}r den Einsatz von High-Performance-Computing (HPC) zur L{\"o}sung dieser Modelle gelegt. In UNSEEN war dieser L{\"o}ser die zentrale Komponente eines Workflows, welcher zur Generierung, L{\"o}sung und multi-kriteriellen Bewertung von Energieszenarien auf dem Hochleistungscomputer JUWELS am Forschungszentrum J{\"u}lich implementiert wurde. Zur effizienten Generierung und Kommunikation von Modellinstanzen f{\"u}r Methoden der mathematischen Optimierung auf HPC wurde eine weitere Workflow-Komponente von der GAMS Software GmbH entwickelt: der Szenariogenerator. Bei der Weiterentwicklung von L{\"o}sungsalgorithmen f{\"u}r linear optimierende Energie-Systemmodelle standen gemischt-ganzzahlige Optimierungsprobleme im Fokus, welche f{\"u}r die Modellierung konkreter Infrastrukturen und Maßnahmen zur Umsetzung der Energiewende gel{\"o}st werden m{\"u}ssen. Die in diesem Zusammenhang stehenden Arbeiten zur Entwicklung von Algorithmen wurden von der Technischen Universit{\"a}t Berlin verantwortet. Bei Design und Implementierung dieser Methoden wurde sie vom Zuse Instituts Berlin unterst{\"u}tzt.}, language = {en} } @misc{SchlechteBlomeGerberetal.2023, author = {Schlechte, Thomas and Blome, Christian and Gerber, Stefan and Hauser, Stefan and Kasten, Jens and M{\"u}ller, Gilbert and Schulz, Christof and Th{\"u}ring, Michel and Weider, Steffen}, title = {The Bouquet of Features in Rolling Stock Rotation Planning}, journal = {Conference Proceedings RailBelgrade 2023}, year = {2023}, abstract = {Rolling stock is one of the major assets for a railway transportation company. Hence, their utilization should be as efficiently and effectively as possible. Railway undertakings are facing rolling stock scheduling challenges in different forms - from rather idealized weekly strategic problems to very concrete operational ones. Thus, a vast of optimization models with different features and objectives exist. Thorlacius et al. (2015) provides a comprehensive and valuable collection on technical requirements, models, and methods considered in the scientific literature. We contribute with an update including recent works. The main focus of the paper is to present a classification and elaboration of the major features which our solver R-OPT is able to handle. Moreover, the basic optimization model and algorithmic ingredients of R-OPT are discussed. Finally, we present computational results for a cargo application at SBB CARGO AG and other railway undertakings for passenger traffic in Europe to show the capabilities of R-OPT.}, language = {en} } @misc{HaslerPetersKottigSchloesser2023, author = {Hasler, Tim and Peters-Kottig, Wolfgang and Schl{\"o}sser, Franziska}, title = {Software Management Plan developed in HPO-Navi}, doi = {10.12752/9250}, year = {2023}, abstract = {This publication comprises the Software Management Plan (SMP) developed in the HPO-Navi project. The project was funded in the Literature and Information System (LIS) track of the DFG with the aim of increasing the maturity level of scientific software under development, developing improved measures for the quality assurance of this software and for long-term availability. The Ubiquity Generator Framework (UG) software developed in the project provides a software infrastructure to make existing sequential implementations HPC-capable. The UG framework is of interest to developers of specialized optimization algorithms and can be used directly to solve specific problem classes in the field of scientific computing. Due to the naturally high software technology hurdles on HPC systems, UG was initially a highly specialized tool and could only be used to a limited extent without the involvement of the main developer. The central challenge of the project was to create a mechanism for the sustainable development and permanent provision and archiving of the research software. The aim was for UG to achieve the status of a "software product" with implementation of the following project content: - Documentation of the software: a description of the API and the simple connection of further basic solvers, installation instructions for various target platforms and a description of the structure and documentation of the source code as a basis for the distributed sustainable development of UG. - Development of missing user functions of UG: increased platform independence for shared memory parallelization and better logging function for the analysis and verification of results. - Development of a sample data management plan for future research projects that want to use UG and document their research results according to DFG standards for good scientific practice. - Quality assurance: by defining code guidelines, uniform concepts and criteria for the qualitative evaluation of new functions and implementing standards for code review and processes for continuous integration. A complementary goal was to improve the provision, accessibility and long-term reusability of the research software. - Use of an open Git server as a distributed development platform, provision of a download server for releases and sustainable storage of the software code and the associated meta-information. - Improved presentation and visibility through publication in publicly accessible repositories. This includes the prototypical extension of the OPUS 4 repository software widely used in Germany as a means of publishing software with a landing page that can be resolved via a DOI, and improved linking and presentation of UG in swMATH. - Digital long-term archiving: experimental inclusion of software code in an OAIS-compliant digital archiving system and evaluation of the approach in the areas of digital archiving and research data management.}, language = {en} } @misc{ColomMikheevaAchourietal.2023, author = {Colom, R{\´e}mi and Mikheeva, Elena and Achouri, Karim and Zuniga-Perez, Jesus and Bonod, Nicolas and Martin, Olivier J.F. and Burger, Sven and Genevet, Patrice}, title = {Crossing of the Branch Cut: The Topological Origin of a Universal 2π-Phase Retardation in Non-Hermitian Metasurfaces (Laser Photonics Rev. 17(6)/2023)}, volume = {17}, journal = {Laser Photonics Rev.}, doi = {10.1002/lpor.202370029}, pages = {2370029}, year = {2023}, language = {en} }