The John von Neumann Institute for Computing (NIC) has welcomed Goethe University Frankfurt as its new partner, strengthening research in computational science in Germany and Europe. For over 25 years, NIC has provided computation time on supercomputers for science and industry, operated jointly with Deutsches Elektronensynchrotron DESY and GSI Helmholtzzentrum für Schwerionenforschung.
With this new partnership, researchers from Goethe University’s SCALE project will utilize NIC to develop a digital twin of a cell, simulating the internal self-organization of life’s smallest unit. Prof. Astrid Lambrecht, Chair of the Board of Directors at Forschungszentrum Jülich, notes that NIC has stood for scientific excellence and drives ground-breaking technologies.
Prof. Thomas Lippert, head of the Jülich Supercomputing Centre, highlights NIC’s core research topics, including artificial intelligence methods, data-driven modeling, and energy-efficient technologies like quantum computing and neuromorphic computing. Goethe University President Prof. Enrico Schleiff emphasizes the university’s contribution to developing high-performance computing architectures and constructing energy-efficient data centers.
Partnership for Advancing Computational Science
The John von Neumann Institute for Computing (NIC) has recently entered into a partnership with Goethe University Frankfurt, marking a significant milestone in the advancement of computational science in Germany and Europe. This collaboration brings together the expertise of NIC, which has been providing computation time on supercomputers for over 25 years, and Goethe University’s research capabilities, particularly in the field of high-performance computing.
The partnership aims to strengthen research in computational science by leveraging the strengths of both institutions. NIC has a long history of driving innovation in high-performance computing, artificial intelligence, and energy-efficient technologies such as quantum computing and neuromorphic computing. With Goethe University on board, the partnership will be able to tap into the university’s expertise in developing high-performance computing architectures and constructing energy-efficient data centers.
One of the key research projects that will benefit from this partnership is the SCALE project, which focuses on creating a digital twin of a cell. This ambitious project involves developing computer simulation methods that can map the internal self-organization of cells, capturing dynamic changes and processing enormous volumes of data. The long-term goal of this project is to simulate the influence of stress factors on cells and tissue, which will have a groundbreaking impact on medical research.
Advancing High-Performance Computing
High-performance computing is a critical component of NIC’s research agenda, and the partnership with Goethe University will further accelerate advancements in this field. The university’s researchers will work closely with NIC to develop innovative high-performance computing architectures that can support complex simulations and data analysis. This collaboration will also enable the development of energy-efficient data centers, which are essential for reducing the environmental impact of large-scale computing.
The partnership will also facilitate the sharing of resources and expertise between NIC and Goethe University. Researchers from both institutions will have access to supercomputer capacity, research proposals, and information technology infrastructure via the Jülich Supercomputing Centre (JSC). This will enable scientists to tackle complex research problems that require large-scale computing capabilities.
Digital Twin Technology
The SCALE project is a prime example of the potential of digital twin technology in advancing our understanding of complex biological systems. By creating a virtual replica of a cell, researchers can simulate various scenarios and predict how cells respond to different stress factors. This technology has far-reaching implications for medical research, enabling scientists to develop new treatments and therapies that are more targeted and effective.
The development of digital twin technology is a complex task that requires expertise in multiple areas, including high-performance computing, artificial intelligence, and data-driven modeling. The partnership between NIC and Goethe University will bring together researchers with diverse backgrounds and expertise to tackle this challenge.
Education and Training
A critical component of the partnership between NIC and Goethe University is education and training. Both institutions recognize the importance of developing the next generation of scientists and engineers who can harness the power of high-performance computing and artificial intelligence. To achieve this goal, NIC offers a range of programs, including symposia, workshops, summer schools, seminars, courses, and guest programs for scientists and university students.
These programs will provide researchers with the skills and knowledge required to develop innovative applications that leverage high-performance computing and artificial intelligence. By promoting education and training in these areas, the partnership aims to create a workforce that can drive innovation and economic growth in Germany and Europe.
Future Directions
The partnership between NIC and Goethe University marks an exciting new chapter in the advancement of computational science in Germany and Europe. As both institutions look to the future, they are committed to continuing their productive collaboration, driving innovation in high-performance computing, artificial intelligence, and energy-efficient technologies.
The SCALE project is just one example of the many research initiatives that will benefit from this partnership. By working together, NIC and Goethe University can tackle complex research challenges, develop innovative solutions, and create a new generation of scientists and engineers who can drive economic growth and innovation in Germany and Europe.
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