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| <citation key="Desai2022micromanager"> | ||
| <article_title>A flexible software approach to simulate | ||
| two-scale coupled problems</article_title> | ||
| <author>Desai</author> | ||
| <doi>10.23967/eccomas.2022.037</doi> | ||
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| https://doi.org/10.23967/eccomas.2022.037</unstructured_citation> | ||
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| <citation key="preCICE_v2"> | ||
| <article_title>preCICE v2: A sustainable and user-friendly | ||
| coupling library [version 2; peer review: 2 approved]</article_title> | ||
| <author>Chourdakis</author> | ||
| <journal_title>Open Research Europe</journal_title> | ||
| <issue>51</issue> | ||
| <volume>2</volume> | ||
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| B., Schulte, M., Simonis, F., Uekermann, B., Abrams, G., Bungartz, H., | ||
| Cheung Yau, L., Desai, I., Eder, K., Hertrich, R., Lindner, F., Rusch, | ||
| A., Sashko, D., Schneider, D., Totounferoush, A., Volland, D., Vollmer, | ||
| P., & Koseomur, O. (2022). preCICE v2: A sustainable and | ||
| user-friendly coupling library [version 2; peer review: 2 approved]. | ||
| Open Research Europe, 2(51). | ||
| https://doi.org/10.12688/openreseurope.14445.2</unstructured_citation> | ||
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| <citation key="preCICE_HPC"> | ||
| <article_title>Partitioned fluid–structure–acoustics | ||
| interaction on distributed data: Coupling via preCICE</article_title> | ||
| <author>Bungartz</author> | ||
| <journal_title>Software for exascale computing - SPPEXA | ||
| 2013-2015</journal_title> | ||
| <doi>10.1007/978-3-319-40528-5_11</doi> | ||
| <cYear>2016</cYear> | ||
| <unstructured_citation>Bungartz, H.-J., Lindner, F., Mehl, | ||
| M., Scheufele, K., Shukaev, A., & Uekermann, B. (2016). Partitioned | ||
| fluid–structure–acoustics interaction on distributed data: Coupling via | ||
| preCICE. Software for Exascale Computing - SPPEXA 2013-2015, 239–266. | ||
| https://doi.org/10.1007/978-3-319-40528-5_11</unstructured_citation> | ||
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| <article_title>A two-scale iterative scheme for a | ||
| phase-field model for precipitation and dissolution in porous | ||
| media</article_title> | ||
| <author>Bastidas</author> | ||
| <journal_title>Applied Mathematics and | ||
| Computation</journal_title> | ||
| <volume>396</volume> | ||
| <doi>10.1016/j.amc.2020.125933</doi> | ||
| <cYear>2021</cYear> | ||
| <unstructured_citation>Bastidas, M., Bringedal, C., & | ||
| Pop, I. (2021). A two-scale iterative scheme for a phase-field model for | ||
| precipitation and dissolution in porous media. Applied Mathematics and | ||
| Computation, 396, 125933. | ||
| https://doi.org/10.1016/j.amc.2020.125933</unstructured_citation> | ||
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| <citation key="Redeker_adaptivity"> | ||
| <article_title>A fast and accurate adaptive solution | ||
| strategy for two-scale models with continuous inter-scale | ||
| dependencies</article_title> | ||
| <author>Redeker</author> | ||
| <journal_title>Journal of Computational | ||
| Physics</journal_title> | ||
| <volume>240</volume> | ||
| <doi>10.1016/j.jcp.2012.12.025</doi> | ||
| <issn>0021-9991</issn> | ||
| <cYear>2013</cYear> | ||
| <unstructured_citation>Redeker, M., & Eck, C. (2013). A | ||
| fast and accurate adaptive solution strategy for two-scale models with | ||
| continuous inter-scale dependencies. Journal of Computational Physics, | ||
| 240, 268–283. | ||
| https://doi.org/10.1016/j.jcp.2012.12.025</unstructured_citation> | ||
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| <citation key="Nutils7"> | ||
| <article_title>Nutils</article_title> | ||
| <author>Zwieten</author> | ||
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| <cYear>2022</cYear> | ||
| <unstructured_citation>Zwieten, G. van, Zwieten, J. van, | ||
| & Hoitinga, W. (2022). Nutils. | ||
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| <article_title>On-the-fly adaptivity for nonlinear twoscale | ||
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| <author>Fritzen</author> | ||
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| <cYear>2019</cYear> | ||
| <unstructured_citation>Fritzen, F., Fernández, M., & | ||
| Larsson, F. (2019). On-the-fly adaptivity for nonlinear twoscale | ||
| simulations using artificial neural networks and reduced order modeling. | ||
| Frontiers in Materials, 6. | ||
| https://doi.org/10.3389/fmats.2019.00075</unstructured_citation> | ||
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| <article_title>A multiscale and multiphase model of | ||
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| <author>Lambers</author> | ||
| <journal_title>PAMM</journal_title> | ||
| <issue>1</issue> | ||
| <volume>20</volume> | ||
| <doi>10.1002/pamm.202000290</doi> | ||
| <cYear>2021</cYear> | ||
| <unstructured_citation>Lambers, L., Suditsch, M., Wagner, | ||
| A., & Ricken, T. (2021). A multiscale and multiphase model of | ||
| function-perfusion growth processes in the human liver. PAMM, 20(1), | ||
| e202000290. | ||
| https://doi.org/10.1002/pamm.202000290</unstructured_citation> | ||
| </citation> | ||
| <citation key="mpi4py"> | ||
| <article_title>mpi4py: Status update after 12 years of | ||
| development</article_title> | ||
| <author>Dalcin</author> | ||
| <journal_title>Computing in Science and | ||
| Engineering</journal_title> | ||
| <issue>4</issue> | ||
| <volume>23</volume> | ||
| <doi>10.1109/MCSE.2021.3083216</doi> | ||
| <cYear>2021</cYear> | ||
| <unstructured_citation>Dalcin, L., & Fang, Y.-L. L. | ||
| (2021). mpi4py: Status update after 12 years of development. Computing | ||
| in Science and Engineering, 23(4), 47–54. | ||
| https://doi.org/10.1109/MCSE.2021.3083216</unstructured_citation> | ||
| </citation> | ||
| <citation key="MUSCLE3"> | ||
| <article_title>Easing multiscale model design and coupling | ||
| with MUSCLE 3</article_title> | ||
| <author>Veen</author> | ||
| <journal_title>Computational science – ICCS | ||
| 2020</journal_title> | ||
| <doi>10.1007/978-3-030-50433-5_33</doi> | ||
| <cYear>2020</cYear> | ||
| <unstructured_citation>Veen, L. E., & Hoekstra, A. G. | ||
| (2020). Easing multiscale model design and coupling with MUSCLE 3. In V. | ||
| V. Krzhizhanovskaya, G. Závodszky, M. H. Lees, J. J. Dongarra, P. M. A. | ||
| Sloot, S. Brissos, & J. Teixeira (Eds.), Computational science – | ||
| ICCS 2020 (pp. 425–438). Springer International Publishing. | ||
| https://doi.org/10.1007/978-3-030-50433-5_33</unstructured_citation> | ||
| </citation> | ||
| <citation key="MUI"> | ||
| <article_title>Multiscale universal interface: A concurrent | ||
| framework for coupling heterogeneous solvers</article_title> | ||
| <author>Tang</author> | ||
| <journal_title>Journal of Computational | ||
| Physics</journal_title> | ||
| <volume>297</volume> | ||
| <doi>10.1016/j.jcp.2015.05.004</doi> | ||
| <issn>0021-9991</issn> | ||
| <cYear>2015</cYear> | ||
| <unstructured_citation>Tang, Y.-H., Kudo, S., Bian, X., Li, | ||
| Z., & Karniadakis, G. E. (2015). Multiscale universal interface: A | ||
| concurrent framework for coupling heterogeneous solvers. Journal of | ||
| Computational Physics, 297, 13–31. | ||
| https://doi.org/10.1016/j.jcp.2015.05.004</unstructured_citation> | ||
| </citation> | ||
| <citation key="Amuse"> | ||
| <article_title>The astrophysical multipurpose software | ||
| environment</article_title> | ||
| <author>Pelupessy, F. I.</author> | ||
| <journal_title>A&A</journal_title> | ||
| <volume>557</volume> | ||
| <doi>10.1051/0004-6361/201321252</doi> | ||
| <cYear>2013</cYear> | ||
| <unstructured_citation>Pelupessy, F. I., van Elteren, A., de | ||
| Vries, N., McMillan, S. L. W., Drost, N., & Portegies Zwart, S. F. | ||
| (2013). The astrophysical multipurpose software environment. A&A, | ||
| 557, A84. | ||
| https://doi.org/10.1051/0004-6361/201321252</unstructured_citation> | ||
| </citation> | ||
| <citation key="Alowayyed_multiscale_exascale"> | ||
| <article_title>Multiscale computing in the exascale | ||
| era</article_title> | ||
| <author>Alowayyed</author> | ||
| <journal_title>Journal of Computational | ||
| Science</journal_title> | ||
| <volume>22</volume> | ||
| <doi>10.1016/j.jocs.2017.07.004</doi> | ||
| <issn>1877-7503</issn> | ||
| <cYear>2017</cYear> | ||
| <unstructured_citation>Alowayyed, S., Groen, D., Coveney, P. | ||
| V., & Hoekstra, A. G. (2017). Multiscale computing in the exascale | ||
| era. Journal of Computational Science, 22, 15–25. | ||
| https://doi.org/10.1016/j.jocs.2017.07.004</unstructured_citation> | ||
| </citation> | ||
| <citation key="Natale_RAS_cancer"> | ||
| <article_title>A massively parallel infrastructure for | ||
| adaptive multiscale simulations: Modeling RAS initiation pathway for | ||
| cancer</article_title> | ||
| <author>Di Natale</author> | ||
| <journal_title>Proceedings of the international conference | ||
| for high performance computing, networking, storage and | ||
| analysis</journal_title> | ||
| <doi>10.1145/3295500.3356197</doi> | ||
| <cYear>2019</cYear> | ||
| <unstructured_citation>Di Natale, F., Bhatia, H., Carpenter, | ||
| T. S., Neale, C., Kokkila-Schumacher, S., Oppelstrup, T., Stanton, L., | ||
| Zhang, X., Sundram, S., Scogland, T. R. W., Dharuman, G., Surh, M. P., | ||
| Yang, Y., Misale, C., Schneidenbach, L., Costa, C., Kim, C., D’Amora, | ||
| B., Gnanakaran, S., … Ingólfsson, H. I. (2019). A massively parallel | ||
| infrastructure for adaptive multiscale simulations: Modeling RAS | ||
| initiation pathway for cancer. Proceedings of the International | ||
| Conference for High Performance Computing, Networking, Storage and | ||
| Analysis. | ||
| https://doi.org/10.1145/3295500.3356197</unstructured_citation> | ||
| </citation> | ||
| <citation key="Otlinghaus2022Liver"> | ||
| <article_title>Coupling of macro and micro scale in a | ||
| continuum-biomechanical model of the human liver using | ||
| preCICE</article_title> | ||
| <author>Otlinghaus</author> | ||
| <doi>10.18419/opus-12291</doi> | ||
| <cYear>2022</cYear> | ||
| <unstructured_citation>Otlinghaus, F. (2022). Coupling of | ||
| macro and micro scale in a continuum-biomechanical model of the human | ||
| liver using preCICE [Master’s thesis, University of Stuttgart]. | ||
| https://doi.org/10.18419/opus-12291</unstructured_citation> | ||
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| <citation key="Kschidock2023DuMuxMacroMicro"> | ||
| <article_title>Macro-micro coupling with DuMux and | ||
| preCICE</article_title> | ||
| <author>Kschidock</author> | ||
| <doi>10.18419/opus-13560</doi> | ||
| <cYear>2023</cYear> | ||
| <unstructured_citation>Kschidock, H. (2023). Macro-micro | ||
| coupling with DuMux and preCICE. University of Stuttgart. | ||
| https://doi.org/10.18419/opus-13560</unstructured_citation> | ||
| </citation> | ||
| <citation key="Gaerttner_two_scale"> | ||
| <article_title>Efficiency and accuracy of micro-macro models | ||
| for mineral dissolution</article_title> | ||
| <author>Gärttner</author> | ||
| <journal_title>Water Resources Research</journal_title> | ||
| <issue>8</issue> | ||
| <volume>56</volume> | ||
| <doi>10.1029/2020WR027585</doi> | ||
| <cYear>2020</cYear> | ||
| <unstructured_citation>Gärttner, S., Frolkovič, P., Knabner, | ||
| P., & Ray, N. (2020). Efficiency and accuracy of micro-macro models | ||
| for mineral dissolution. Water Resources Research, 56(8), e2020WR027585. | ||
| https://doi.org/10.1029/2020WR027585</unstructured_citation> | ||
| </citation> | ||
| <citation key="Koch2021DuMux"> | ||
| <article_title>DuMux 3 – an open-source simulator for | ||
| solving flow and transport problems in porous media with a focus on | ||
| model coupling</article_title> | ||
| <author>Koch</author> | ||
| <journal_title>Computers & Mathematics with | ||
| Applications</journal_title> | ||
| <volume>81</volume> | ||
| <doi>10.1016/j.camwa.2020.02.012</doi> | ||
| <issn>0898-1221</issn> | ||
| <cYear>2021</cYear> | ||
| <unstructured_citation>Koch, T., Gläser, D., Weishaupt, K., | ||
| Ackermann, S., Beck, M., Becker, B., Burbulla, S., Class, H., Coltman, | ||
| E., Emmert, S., Fetzer, T., Grüninger, C., Heck, K., Hommel, J., Kurz, | ||
| T., Lipp, M., Mohammadi, F., Scherrer, S., Schneider, M., … Flemisch, B. | ||
| (2021). DuMux 3 – an open-source simulator for solving flow and | ||
| transport problems in porous media with a focus on model coupling. | ||
| Computers & Mathematics with Applications, 81, 423–443. | ||
| https://doi.org/10.1016/j.camwa.2020.02.012</unstructured_citation> | ||
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