VIMMP provides an easily accessible, user-friendly hub to access all tangible and intangible components, such as information, knowledge, services and tools to support the efficient decision making, uptake and effective use of materials. At the core of VIMMP will be a metadata enriched data environment that eases the tasks of all actors. In particular it will facilitate the translation of a scientific problem into modelling workflows, ready for simulation using a range of software tools integrated into an open simulation platform and deployed on cloud services. The VIMMP platform is open, so that any provider can easily integrate and deploy their software codes as well as services.
T. Köppl, G. Santin, B. Haasdonk, and R. Helmig. International Journal for Numerical Methods in Biomedical Engineering, 34 (8):
e3095(2018)e3095 cnm.3095.
T. Köppl, G. Santin, B. Haasdonk, and R. Helmig. International Journal for Numerical Methods in Biomedical Engineering, 34 (8):
e3095(2018)e3095 cnm.3095.
T. Köppl, G. Santin, B. Haasdonk, and R. Helmig. International Journal for Numerical Methods in Biomedical Engineering, 0 (ja):
e3095(2018)e3095 cnm.3095.
T. Köppl, G. Santin, B. Haasdonk, and R. Helmig. International Journal for Numerical Methods in Biomedical Engineering, 0 (ja):
e3095(2018)e3095 cnm.3095.
B. Maier, D. Schneider, M. Schulte, and B. Uekermann. High Performance Computing in Science and Engineering '21: Transactions of the High Performance Computing Center, Stuttgart (HLRS) 2021, (2021)