Jülich Supercomputing Center will in 2023 be home to JUPITER, Europe’s first Exascale supercomputer

Jülich, Germany – June 15, 2022 – yesterday LUMI supercomputer launched earlier than Exascale In Kajaani, Finland, EuroHPC selected it Forschungszentrum Jülich The supercomputing middle will probably be dwelling to JUPITER, scheduled to be Europe’s first exascale supercomputer, in 2023.

The pc, which can bear the identify JUPITER (Pioneer Joint Enterprise for Modern and Transformational Exascale Analysis) will probably be put in in a specifically designed constructing on the analysis middle campus and will probably be operated by the Jülich Supercomputing Heart (JSC), whose supercomputers personal JUWELS and JURECA are presently among the many strongest On the earth.

JSC participated within the software process for a complicated supercomputer as a member of the Gauss Heart for Supercomputing (GCS), a consortium of three nationwide JSC supercomputing facilities in Jülich, the Excessive Efficiency Computing Heart in Stuttgart (HLRS), and the Leibniz Computing Heart (LRZ) in Garching. The competitors was organized by EurohbekIt’s the European Supercomputing Initiative shaped by the European Union with European international locations and personal corporations.

The whole value of the system is predicted to be 500 million euros. Of this quantity, €250 million is supplied by EuroHPC JU and one other €250 million in equal elements by the German Federal Ministry of Schooling and Analysis (BMBF) and the Ministry of Tradition and Science of North Rhine-Westphalia (MKW) NRW.

The ultimate choice on finding Europe’s first exascale pc was made yesterday by EuroHPC in Kajaani, Finland, in the course of the opening of Europe’s first-ever pre-exascale pc. The HPC Pre-Exascale system ranks third within the present TOP500 record of the world’s strongest supercomputers. For the primary time, the exascale pc has formally been on the prime of this record since Might: the American frontier supercomputer.

Identical to the present JUWELS supercomputer, JUPITER will probably be based mostly on a dynamic supercomputer structure, developed by Forschungszentrum Jülich along with European and worldwide companions within the European Union. deep analysis initiatives.

In a modular supercomputer, many computing models are coupled collectively. This makes it potential to distribute software program elements of complicated simulations over a number of modules, making certain that totally different {hardware} traits will be optimally utilized in every case. Its modular development additionally signifies that the system is well-positioned to combine futuristic applied sciences equivalent to quantum computing or neuromorphic modules, which mimic the neural construction of the organic mind.

In its fundamental configuration, JUPITER could have a really highly effective booster unit with extremely environment friendly GPU-based computational accelerators. Parallel functions are significantly accelerated by this booster in a fashion just like a turbocharger, for instance to calculate high-resolution local weather fashions, develop new supplies, simulate complicated cell and power techniques processes, develop fundamental analysis, or prepare the subsequent technology, computationally intensive. Machine studying algorithms.

One of many fundamental challenges is the ability required for such a big computing energy. Common energy is predicted to be 15 MW. Jupiter is designed as a “inexperienced” supercomputer and will probably be powered by inexperienced electrical energy. The perceived heat water cooling system ought to assist make sure that the client achieves the very best effectivity values. On the similar time, the cooling know-how makes it potential to make good use of the waste warmth that’s produced. For instance, similar to the earlier system JUWELS, JUPITER is about to be linked to the brand new low temperature community on the Forschungszentrum Jülich campus. Additional potential functions of waste warmth from Jupiter are presently being investigated by Forschungszentrum Jülich.

Hendrik Fust, Minister to the President of North Rhine-Westphalia:
Forschungszentrum Jülich has received as soon as once more the excellent modular supercomputing structure: Europe’s first exascale supercomputer coming to North Rhine-Westphalia. It is a signal of appreciation for the scientific group and the final excellence of our nation. As a website, it provides complete capabilities for a large enhance in system efficiency, proper as much as the mixing of quantum models into an exascale pc. Applied sciences which might be presently being developed will form future functions in all areas associated to extremely complicated techniques simulation and allow us to provide extra dependable information in crucial areas equivalent to local weather analysis, mind, site visitors administration, evacuation improvement and enormous occasion situations. This cutting-edge analysis within the discipline of supercomputing provides us each alternative to unravel the key challenges of our time. As a federal state authorities, we’re happy to help this groundbreaking improvement.

Bettina Stark-Watzinger, Federal Minister for Schooling and Analysis:
I’m delighted that Europe’s first exascale supercomputer has come to Germany. It will likely be run in Jülich and its computing energy will probably be equal to that of greater than 5 million trendy laptops. Because the “Ministry of Alternatives”, we offer €500 million in funding, along with the European Union and the State of North Rhine-Westphalia, for this supercomputer. It is a enormous funding in Germany’s analysis infrastructure, with which we search to develop our technological supremacy. The supercomputer will assist resolve complicated scientific questions and allow the evaluation of giant information volumes. This helps us, for instance, on problems with local weather change, response to the epidemic, and the event of synthetic intelligence. Over the subsequent few years, we may even launch two extra exascale supercomputers in Munich and Stuttgart in collaboration with the federal states of Bavaria and Baden-Württemberg.

Isabelle Pfeiffer-Bonsgen, Minister of Tradition and Science within the German state of North Rhine-Westphalia:
The choice to construct Europe’s first exascale pc in Jülich is a continuation of Forschungszentrum Jülich’s longstanding success within the discipline of supercomputing. With its JUWELS and JURECA supercomputers, Forschungszentrum Jülich ranks among the many world’s most modern supercomputers immediately. As the house of Europe’s first exascale pc, Jülich will proceed to construct on its main worldwide place. One factor is obvious: trendy science is now unthinkable with out supercomputers. In each fundamental and application-oriented analysis, computational simulation methods are set to change into more and more essential over the subsequent few years. With the potential integration of quantum applied sciences, the exascale pc may even type a bridge to quantum computing – a key know-how of the longer term. Forschungszentrum Jülich additionally performs a number one position nationally and internationally as a member of the “EIN Quantum NRW” community along with different sturdy companions from the colleges and analysis scene in North Rhine-Westphalia (NRW).

Prof. Dr. Eng. Wolfgang Marquardt, Chairman of Forschungszentrum Jülich:
By taking the leap in the direction of exascale computing, we’re working with sturdy companions to retain our digital supremacy in Germany and Europe, in addition to doing our half to make sure Germany stays a powerful and progressive know-how hub. JUPITER will take the scientific computing infrastructure of North Rhine-Westphalia, Germany and Europe to a brand new degree. As a part of the Helmholtz Affiliation, Forschungszentrum Jülich will obtain a brand new large-scale facility that can profit a big person group, and this has solely been achieved via a European dedication in addition to vital help from the German Federal Authorities and the State of North Rhine-Westphalia for its buy, operation and scientific use.

Prof. Dr. Astrid Lambrecht, Member of the Board of Administrators of Forschungszentrum Jülich:
Reaching the exascale is the subsequent massive step in high-performance computing. The choice to make Jülich the house of the exascale supercomputer in Europe will assist Forschungszentrum Jülich to cement its fame as a premier supercomputing website and an internationally acknowledged middle for growing ground-breaking applied sciences. Our purpose is to supply the strongest infrastructure in Europe that mixes neural computing, supercomputing and quantum computing, making certain that totally different person teams from science and trade can be taught and develop collectively whereas additionally benefiting from one another.

Prof. Dr. Thomas Lippert, Head of the Jülich Heart for Supercomputing at Forschungszentrum Jülich:
EuroHPC’s choice allows us to take this essential step in the direction of exascale in collaboration with analysis, trade, scientific customers and funding businesses. There are monumental challenges on totally different ranges – technical and monetary. Nonetheless, it is very important notice that we’re speaking a couple of machine that can profit the entire of society. From site visitors optimization, autonomous driving, and environmental monitoring all the way in which to digital twins: all of those challenges are very computational intensive and depend on new applied sciences, lots of which we will make the most of with the modular Exascale.