Europe’s First Exascale Supercomputer, JUPITER, to Revolutionize High-Precision Modeling & AI, France

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Europe’s First Exascale Supercomputer, JUPITER, to Revolutionize High-Precision Modeling & AI

France’s Eviden and German modular supercomputing company ParTech have announced that they have been awarded a contract to provide Europe’s first exascale supercomputer. The JUPITER project, with a total cost of €500 million, aims to push the boundaries of high-performance computing by delivering unprecedented computational power.

The computer itself will be a remarkable piece of technology, costing €273 million and running on Arm architecture SiPearl Rhea processors and Nvidia accelerator technology. The Jülich Supercomputing Centre in Germany will operate the system, which is expected to exceed one billion billion calculations per second. This immense computational power will enable the development of high-precision models for complex systems, including climate change, pandemics, and fusion energy.

JUPITER will not only revolutionize high-precision modeling but also provide extensive support for artificial intelligence and big data analysis. With its immense computing capacity, it will empower scientists and researchers to tackle intricate problems and unlock new insights into a wide range of disciplines.

The European High-Performance Computing Joint Undertaking (EuroHPC JU) initiated the JUPITER project, reflecting Europe’s commitment to advancing scientific research and innovation. The exascale supercomputer will be a significant milestone in Europe’s technological capabilities.

Now, let’s delve into the concept of an exascale supercomputer. An exascale system, such as JUPITER, can perform a billion billion calculations per second, equivalent to one exaflop. To put it into perspective, an exabyte represents a memory subsystem containing a quintillion bytes of data.

Building and operating exascale systems pose various technical challenges, including power consumption, heat management, scalability, and software optimization. However, the benefits they bring in terms of advancing scientific research and addressing complex global issues far outweigh the challenges.

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It’s worth noting that the world’s first exascale supercomputer, Frontier, was deployed at the Oak Ridge National Laboratory in Tennessee and is capable of reaching full capacity in 2022. Another exascale supercomputer, El Capitan, is set to surpass Frontier’s capabilities when it comes online in mid-2024.

With JUPITER on the horizon, Europe is poised to take a pioneering role in high-performance computing. The supercomputer’s ability to handle massive computational tasks will propel scientific research and innovation forward, offering solutions to the most pressing challenges of our time.

The JUPITER project represents a significant step toward unlocking the full potential of high-performance computing, artificial intelligence, and big data analysis. As Europe ventures into the era of exascale computing, exciting possibilities await, promising groundbreaking advancements across various industries and fields.

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Frequently Asked Questions (FAQs) Related to the Above News

What is JUPITER?

JUPITER is Europe's first exascale supercomputer, a groundbreaking project developed by France's Eviden and German company ParTech. It aims to revolutionize high-performance computing by delivering unprecedented computational power.

How much does the JUPITER project cost?

The JUPITER project has a total cost of €500 million. The computer itself is estimated to cost €273 million.

Which technologies will power JUPITER?

JUPITER will run on Arm architecture SiPearl Rhea processors and Nvidia accelerator technology, making it a remarkable piece of advanced technology.

Who will operate the JUPITER supercomputer?

The Jülich Supercomputing Centre in Germany will operate the JUPITER system, which is expected to exceed one billion billion calculations per second.

What applications will JUPITER be used for?

JUPITER will enable the development of high-precision models for complex systems such as climate change, pandemics, and fusion energy. Additionally, it will provide extensive support for artificial intelligence and big data analysis.

What are the technical challenges in building and operating exascale systems?

Building and operating exascale systems present challenges such as power consumption, heat management, scalability, and software optimization. However, the benefits they bring in advancing scientific research outweigh these challenges.

Are there other exascale supercomputers in the world?

Yes, the world's first exascale supercomputer, Frontier, is deployed at the Oak Ridge National Laboratory in Tennessee and is expected to reach full capacity in 2022. Another exascale supercomputer, El Capitan, is set to surpass Frontier's capabilities when it comes online in mid-2024.

How does JUPITER contribute to Europe's technological capabilities?

The JUPITER project reflects Europe's commitment to advancing scientific research and innovation. With JUPITER, Europe is poised to take a pioneering role in high-performance computing, propelling scientific research and innovation forward.

What are the potential benefits of JUPITER?

JUPITER's immense computing capacity will offer solutions to the most pressing challenges of our time. It will empower scientists and researchers to tackle complex problems and unlock new insights across various industries and fields.

Please note that the FAQs provided on this page are based on the news article published. While we strive to provide accurate and up-to-date information, it is always recommended to consult relevant authorities or professionals before making any decisions or taking action based on the FAQs or the news article.

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