%0 Generic %1 schneider2024artificial %A Schneider, David %A Yurt, Muhammed Kürşat %A Simonis, Frédéric %A Uekermann, Benjamin %D 2024 %K darus mult ubs_10005 ubs_20008 ubs_30082 ubs_40116 ubs_40427 unibibliografie %R 10.18419/darus-4562 %T ASTE: An artificial solver testing environment for partitioned coupling with preCICE %X This dataset contains a software archive of the artificial solver testing environment ASTE (version v3.3.0), its corresponding documentation (as a PDF) and the compatible ASTE turbine tutorial. The documentation of ASTE is its README.md (in 'docs/README.md') converted to a PDF. The turbine tutorial is part of the preCICE tutorials in the preCICE distribution v2404.0. The dataset is connected to a publication in the Journal of Open Source Software (see related software). The artificial solver testing environment (ASTE) allows to replace and imitate models coupled via the coupling library preCICE by artificial ones, potentially in parallel distributed across multiple ranks on distributed memory.This helps in the development of preCICE, adapters, or simulation setups by reducing the necessary software components, simplifying execution workflows, and reducing runtime of the case.This version of ASTE was tested with preCICE v3.1.2. Other preCICE v3 releases should be compatible as well.

@misc{schneider2024artificial, abstract = {This dataset contains a software archive of the artificial solver testing environment ASTE (version v3.3.0), its corresponding documentation (as a PDF) and the compatible ASTE turbine tutorial. The documentation of ASTE is its README.md (in 'docs/README.md') converted to a PDF. The turbine tutorial is part of the preCICE tutorials in the preCICE distribution v2404.0. The dataset is connected to a publication in the Journal of Open Source Software (see related software). The artificial solver testing environment (ASTE) allows to replace and imitate models coupled via the coupling library preCICE by artificial ones, potentially in parallel distributed across multiple ranks on distributed memory.This helps in the development of preCICE, adapters, or simulation setups by reducing the necessary software components, simplifying execution workflows, and reducing runtime of the case.This version of ASTE was tested with preCICE v3.1.2. Other preCICE v3 releases should be compatible as well. }, added-at = {2024-11-25T13:03:51.000+0100}, affiliation = {Schneider, David/University of Stuttgart, Yurt, Muhammed Kürşat/Technische Universität München, Simonis, Frédéric/University of Stuttgart, Uekermann, Benjamin/University of Stuttgart}, author = {Schneider, David and Yurt, Muhammed Kürşat and Simonis, Frédéric and Uekermann, Benjamin}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/27c43614549a520e268f1c2879ac5e2d3/unibiblio}, doi = {10.18419/darus-4562}, howpublished = {Software}, interhash = {a864fd26caecb2584e259b764ae24e9a}, intrahash = {7c43614549a520e268f1c2879ac5e2d3}, keywords = {darus mult ubs_10005 ubs_20008 ubs_30082 ubs_40116 ubs_40427 unibibliografie}, note = {Related to: David Schneider, Muhammed Kürşat Yurt, Frédéric Simonis and Benjamin Uekermann. "ASTE: An artificial solver testing environment for partitioned coupling with preCICE." Journal of Open Source Software, 9(103), 7127. doi: 10.21105/joss.07127}, orcid-numbers = {Schneider, David/0000-0002-3487-9688, Yurt, Muhammed Kürşat/0000-0001-6497-3184, Simonis, Frédéric/0000-0003-3390-157X, Uekermann, Benjamin/0000-0002-1314-9969}, timestamp = {2025-03-11T08:56:46.000+0100}, title = {ASTE: An artificial solver testing environment for partitioned coupling with preCICE}, year = 2024 }