NVIDIA Powers Europe’s Fastest Supercomputer
ISC—NVIDIA today announced that the JUPITER supercomputer, powered by the NVIDIA Grace Hopper™ platform, is the fastest in Europe — delivering a more than 2x speedup for high-performance computing and AI workloads compared with the next-fastest system.
Soon capable of running 1 quintillion FP64 operations per second, JUPITER is on track to be Europe’s first exascale supercomputer. The system enables faster simulation, training and inference of the largest AI models — including for climate modeling, quantum research, structural biology, computational engineering and astrophysics — empowering European enterprises and nations to drive scientific discovery and innovation.
Among the top five systems on the TOP500 list of the world’s fastest supercomputers, JUPITER is the most energy efficient, at 60 gigaflops per watt.
Comprising nearly 24,000 NVIDIA GH200 Grace Hopper Superchips and interconnected with the NVIDIA Quantum-2 InfiniBand networking platform, JUPITER is expected to reach over 90 exaflops of AI performance and is based on Eviden’s BullSequana XH3000 liquid-cooled architecture.
JUPITER also incorporates NVIDIA’s full stack of software for optimized performance.
“AI will supercharge scientific discovery and industrial innovation," said Jensen Huang, founder and CEO of NVIDIA. “In partnership with Jülich and Eviden, we’re building Europe’s most advanced AI supercomputer to enable the leading researchers, industries and institutions to expand human knowledge, accelerate breakthroughs and drive national advancement.”
Built for Scientific Breakthroughs
Hosted by the Jülich Supercomputing Centre at the Forschungszentrum Jülich facility in Germany, JUPITER is owned by the EuroHPC Joint Undertaking.
“With JUPITER’s extreme performance, Europe has taken a giant leap into the future of science, technology and sovereignty,” said Anders Jensen, executive director of the EuroHPC Joint Undertaking. “JUPITER’s computing power will serve as a catalyst for scientific discovery, propelling foundational research across the continent in fields as diverse as climate modeling, energy systems and biomedical innovation.”
“JUPITER is a landmark achievement for European science and technology,” said Thomas Lippert, codirector of the Jülich Supercomputing Centre. “Powered by NVIDIA’s accelerated computing and AI platforms, JUPITER is advancing the frontier of foundation model training and high-performance simulation, enabling researchers across Europe to tackle challenges of unprecedented complexity.”
“JUPITER will substantially advance quantum algorithm and hardware development,” added Kristel Michielsen, codirector of the Jülich Supercomputing Centre. “Hybrid quantum HPC-computation will profit from powerful tools such as the NVIDIA CUDA-Q platform and the NVIDIA cuQuantum software development kit.”
“JUPITER’s launch is not just an extraordinary technical success — delivering an exascale machine and Julich’s modular data center in less than nine months — it marks a pivotal moment for European high-performance computing,” said Emmanuel Le Roux, senior vice president and global head of advanced computing at Eviden, Atos Group. “It clearly demonstrated the technological leadership of the European Eviden-led consortium, which designed, built and delivered this world-class system.”
Early testing of JUPITER was conducted with the Linpack benchmark, which was also used to determine the TOP500 ranking.
The JUPITER supercomputer represents a new generation of computing systems, uniting NVIDIA’s end-to-end software stack to solve challenges in areas including:
- Climate and weather modeling: Enables high-resolution, real-time environmental simulations and visualization, using the NVIDIA Earth-2 open platform. This contributes to global community initiatives like the Earth Virtualization Engines project, which aims to create a digital twin of the Earth to better understand and address climate change.
- Quantum computing research: Advances quantum algorithm and hardware development with powerful tools such as the NVIDIA CUDA-Q™ platform and the NVIDIA cuQuantum software development kit.
- Computer-aided engineering: Reinvents product design and manufacturing through AI-driven simulation and digital twin technologies, powered by the NVIDIA PhysicsNeMo™ framework, NVIDIA CUDA-X™ libraries and the NVIDIA Omniverse™ platform.
- Drug discovery: Streamlines the creation and deployment of AI models vital to pharmaceutical research through the NVIDIA BioNeMo™ platform, accelerating time to insight in biomolecular science and drug discovery.
German and other European researchers can apply for access to JUPITER.
NVIDIA 協助歐洲最快超級計算機
NVIDIA Grace Hopper 平台協助利希 JUPITER 超級電腦的模擬和訓練,以百億億次級速度推動歐洲科學突破
2025 年 6 月 10 日
NVIDIA 協助歐洲最快超級計算機
ISC——NVIDIA 今天宣布,搭載 NVIDIA Grace Hopper™ 平台的 JUPITER 超級電腦是歐洲最快的超級電腦——與排名第二的系統相比,其高效能運算和 AI 工作負載的速度提升了兩倍以上。
JUPITER 即將實現每秒 1 千萬億次 FP64 運算,預計將成為歐洲首台百億億次級超級電腦。該系統能夠更快地模擬、訓練和推理最大規模的 AI 模型,涵蓋氣候建模、量子研究、結構生物學、計算工程和天文物理學等領域,協助歐洲企業和國家推動科學發現和創新。
在全球最快的超級電腦 TOP500 榜單的前五名中,JUPITER 的能源效率最高,達到每瓦 60 千兆浮點運算。
JUPITER 搭載近 24,000 顆 NVIDIA GH200 Grace Hopper 超級芯片,並與 NVIDIA Quantum-2 InfiniBand 網絡平台互聯,預計 AI 性能將超過 90 百億億次浮點運算,並基於 Eviden 的 BullSequana XH3000 液冷架構。
JUPITER 還整合了 NVIDIA 的全套軟體,以優化效能。
「AI 將加速科學發現和產業創新,」NVIDIA 創辦人兼執行長黃仁勳表示。 “我們正與 Jülich 和 Eviden 合作,打造歐洲最先進的 AI 超級計算機,助力領先的研究人員、行業和機構拓展人類知識,加速技術突破,並推動國家進步。”
為科學突破而生
JUPITER 由位於德國於利希研究中心的於利希超級運算中心託管,由歐洲高效能運算聯合體所有。
「憑藉 JUPITER 的卓越性能,歐洲向科學、技術和主權的未來邁出了一大步,」歐洲高效能運算聯合體執行董事 Anders Jensen 表示。 “JUPITER 的計算能力將成為科學發現的催化劑,推動歐洲大陸在氣候建模、能源系統和生物醫學創新等多個領域的基礎研究。”
「JUPITER 是歐洲科技領域的里程碑式成就,」於利希超級計算中心聯合主任 Thomas Lippert 表示。 “在 NVIDIA 加速運算和 AI 平台的支援下,JUPITER 正在推進基礎模型訓練和高效能模擬的前沿技術,使歐洲各地的研究人員能夠應對前所未有的複雜挑戰。”
「JUPITER 將大幅推進量子演算法和硬體的開發,」於利希超級計算中心聯合主任 Kristel Michielsen 補充道。 “混合量子 HPC 運算將受益於 NVIDIA CUDA-Q 平台和 NVIDIA cuQuantum 軟體開發套件等強大工具。”
「JUPITER 的推出不僅是一項非凡的技術成就——在不到九個月的時間內交付了一台百億億次級電腦和於利希的模組化資料中心——它還標誌著歐洲高效能運算的關鍵時刻,」Atos 集團 Eviden 高級副總裁兼全球先進運算負責人 Emmanuel Le Roux 表示。 “它清晰地展現了由 Eviden 牽頭的歐洲聯盟的技術領導地位,該聯盟設計、構建並交付了這套世界一流的系統。”
JUPITER 的早期測試採用了 Linpack 基準測試,也用於確定 TOP500 的排名。
JUPITER 超級電腦代表了新一代運算系統,它整合了 NVIDIA 的端到端軟體堆疊,以解決以下領域的挑戰:
氣候與天氣建模:利用 NVIDIA Earth-2 開放平台,實現高解析度、即時環境模擬和視覺化。這有助於推動地球虛擬化引擎計畫等全球社區倡議,該計畫旨在創建地球的數位孿生,以更好地理解和應對氣候變遷。
量子運算研究:利用 NVIDIA CUDA-Q™ 平台和 NVIDIA cuQuantum 軟體開發套件等強大工具,推進量子演算法和硬體開發。
電腦輔助工程:利用 AI 驅動的模擬和數位孿生技術,在 NVIDIA PhysicsNeMo™ 框架、NVIDIA CUDA-X™ 庫和 NVIDIA Omniverse™ 平台的支援下,重塑產品設計和製造。
藥物研發:透過 NVIDIA BioNeMo™ 平台簡化對藥物研究至關重要的 AI 模型的創建和部署,從而加快生物分子科學和藥物研發的洞察速度。
德國和其他歐洲研究人員可以申請訪問 JUPITER。
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plover's eggs 鴴蛋 Jupiter, Roman king of the gods, seduced Alcmene by disguising himself as her husband, Amphitryon,「美麗、美酒、有趣的玩笑和新鮮的鴴蛋的重要性」是主要人物的核心動機--伊芙琳·沃 1945 年的小說《故園風雨後Brideshead Revisited》
https://hcpeople.blogspot.com/2025/10/plovers-eggs-jupiter-roman-king-of-gods.html
RUDOLF ARNHEIM LECTURE ON ART
AI 概覽
羅馬眾神之王朱庇特趁安菲特律翁遠徵*沙場之際,假扮成她的丈夫安菲特律翁,引誘了她。這段不倫之戀最終成就了英雄赫拉克勒斯(大力士)。這則神話探討了欺騙的主題以及人神之間複雜的關係。安菲特律翁的歸來引發了混亂和猜疑,最終真相大白。
神話要素:
朱庇特(宙斯):眾神之王,以其浪漫的糾葛和對凡間女子的熱愛而聞名。
阿爾克墨涅:一位凡間公主,安菲特律翁的妻子,因其美貌和美德而被朱庇特選中。
安菲特律翁:阿爾克墨涅的丈夫,一位受人尊敬的將軍。
欺騙:朱庇特化身安菲特律翁造訪阿爾克墨涅,將黑夜延長至正常長度的三倍。
赫拉克勒斯的誕生:阿爾克墨涅懷上了赫拉克勒斯,他是朱庇特和安菲特律翁共同的兒子。
困惑與啟示:安菲特律翁歸來時,遇到了他的妻子和僕人,他們聲稱他已經去過那裡。最終,朱庇特向阿爾克墨涅和她的丈夫揭示了他的神性。
故事主題:
欺騙:故事的核心主題是阿爾克墨涅的欺騙,以及某種程度上安菲特律翁所經歷的困惑。
神的介入:故事強調了眾神對人類事務的干預。
命運的力量:這些事件導致了注定要成就偉業的赫拉克勒斯的誕生。
這個古希臘神話啟發了各種藝術和文學作品,包括普勞圖斯、莫里哀和克萊斯特的戲劇,這些作品經常關注錯誤身份的幽默和複雜性以及對凡人角色的影響。
AI Overview
Jupiter, Roman king of the gods, seduced Alcmene by disguising himself as her husband, Amphitryon, while Amphitryon was away at war. This illicit union resulted in the birth of the hero Herakles (Hercules). The myth explores themes of deception and the complex relationship between humans and gods, and Amphitryon's return home leads to confusion and suspicion before the truth is revealed.
Key elements of the myth:
Jupiter (Zeus): The king of the gods, known for his romantic entanglements and love of mortal women.
Alcmene: A mortal princess, wife of Amphitryon, chosen by Jupiter for her beauty and virtue.
Amphitryon: Alcmene's husband, a respected general.
The deception: Jupiter, in the form of Amphitryon, visits Alcmene, prolonging the night to three times its normal length.
The birth of Herakles: Alcmene becomes pregnant with Herakles, a son of both Jupiter and Amphitryon.
Confusion and revelation: When Amphitryon returns, he encounters both his wife and a servant who claim he has already been there. Eventually, Jupiter reveals his divine nature to Alcmene and her husband.
Themes in the story:
Deception: A central theme is the deception of Alcmene and, to some extent, the confusion experienced by Amphitryon.
Divine intervention: The story highlights the interference of the gods in human affairs.
The power of fate: The events lead to the birth of Herakles, destined for greatness.
This ancient Greek myth has inspired various artistic and literary works, including plays by Plautus, Molière, and Kleist, often focusing on the humor and complexity of the mistaken identity and the consequences for the mortal characters.
- Jupiter, who was enamored with Alcmene, took on the appearance of her husband, Amphitryon, to be with her.
- To maximize his time with Alcmene, Jupiter made the night last for three days and nights.
- When the real Amphitryon returned from battle, Alcmene was confused by his early arrival and presence, leading to suspicion and conflict.
- Jupiter revealed his true identity to Alcmene, explaining that their union would produce a son who would be named Heracles.
- The child born from this divine union was Heracles, one of the most famous heroes in Greek mythology.
- The story of Amphitryon, Alcmene, and Jupiter has been a popular subject in literature and theater, notably in the plays by Plautus, Molière, and Heinrich von Kleist.
- These works often explore themes of mistaken identity, the nature of truth, and the consequences of deception.
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