IN A NUTSHELL
🚀 Japan is investing over $750 million in the development of the next-generation supercomputer, FugakuNEXT.
🖥️ FugakuNEXT aims to be 1,000 times faster than existing supercomputers, integrating advanced AI capabilities.
🔬 The project is a collaboration between RIKEN and Fujitsu, focusing on breakthroughs in scientific research.
💡 Advanced FUJITSU-MONAKA3 CPUs will power FugakuNEXT, enhancing performance and energy efficiency.
Japan is on the brink of a technological revolution with its ambitious plan to develop FugakuNEXT, a supercomputer that promises to push the boundaries of computational power. With a hefty investment exceeding $750 million, this initiative aims to propel advancements in artificial intelligence and scientific research. Led by RIKEN and Fujitsu Limited, this project underscores Japan’s commitment to staying at the cutting edge of global technological innovation, particularly as the world demands faster and more efficient computing systems. As FugakuNEXT takes shape, it is set to become a cornerstone in the evolution of supercomputing capabilities.
A Brief History of FugakuNext
FugakuNEXT builds upon the legacy of its predecessor, the Fugaku supercomputer, which debuted in 2020. Achieving a notable 415.5 Linpack petaflops, Fugaku quickly established itself among the top supercomputers globally. Born from a decade-long partnership between RIKEN and Fujitsu, Fugaku played a crucial role in complex simulations during the COVID-19 pandemic, showcasing its computational prowess. By 2022, Japan’s Ministry of Education, Culture, Sports, Science, and Technology (MEXT) had already set the wheels in motion for FugakuNEXT. As of 2023, feasibility studies are in progress, backed by a $3 million budget, running until March 2024.
The studies aim to assess the potential impact and feasibility of this ambitious project. They involve collaboration among four teams dedicated to exploring how FugakuNEXT can push the limits of current computational capabilities. This phase is critical in shaping the development pathway and ensuring that the supercomputer meets the high expectations set for it. The groundwork laid by Fugaku is not just a testament to its success but also serves as a foundational template for the next steps in Japan’s supercomputing journey.
The Grand Vision for FugakuNext
Japan envisions FugakuNEXT as a groundbreaking zetta-supercomputer, designed to be 1,000 times faster than existing supercomputers. The previous Fugaku model delivered impressive performance, securing the fourth spot on the Top500 list with 442 petaFLOPS. FugakuNEXT aims to surpass all existing benchmarks, including the United States’ Frontier supercomputer, known for its exascale capabilities. This ambitious endeavor demands an estimated budget of $750 million, highlighting Japan’s dedication to maintaining a leading role in the global computing race.
The pursuit of such cutting-edge technology underscores Japan’s strategic focus on achieving unprecedented computational performance. By investing in FugakuNEXT, Japan seeks to pioneer advancements that will not only enhance national capabilities but also set new standards in the global supercomputing landscape. The project’s success could reshape the dynamics of technological leadership and establish a new benchmark for computational power worldwide.
Advanced CPU for FugakuNext Supercomputer
At the heart of FugakuNEXT lies its advanced CPU technology, pivotal to its high performance. Fujitsu plans to employ its state-of-the-art FUJITSU-MONAKA3 CPU, engineered for superior performance and energy efficiency. This innovation will seamlessly integrate with GPUs and other accelerators, enhancing the supercomputer’s capacity to handle a wide range of tasks from AI workloads to intricate scientific simulations. The FUJITSU-MONAKA series represents the pinnacle of CPU innovation, equipped to meet the demands of modern science and industry.
Fujitsu’s commitment to innovation and sustainability is evident in its dedication to developing a system that caters to dynamic customer needs. Leveraging experience from the original Fugaku project, Fujitsu aims to build a supercomputer that not only meets today’s demands but also anticipates future challenges. This approach positions FugakuNEXT as a versatile tool capable of driving significant advancements across various scientific and industrial sectors.
Component
Description
CPU
FUJITSU-MONAKA3 and MONAKA-X
Performance Target
1000X current supercomputers
Budget
$750 million
Japan’s Strategic Leap in AI for Science
The rise of Generative AI marks a new era in computing, driving the need for more powerful supercomputers. Japan is acutely aware of AI’s critical role in scientific simulations and real-time data processing, encapsulated in the initiative AI for Science. This strategic focus places Japan at the forefront of nations prioritizing AI integration in scientific and technological advancements. With FugakuNEXT, Japan aims to empower its scientific community to conduct large-scale experiments and simulations with unparalleled speed and precision.
The collaboration between RIKEN and Fujitsu is a testament to Japan’s commitment to fostering innovation and reinforcing its position as a global leader in technology. By investing in FugakuNEXT, Japan seeks to create a supercomputing infrastructure that not only meets the present demands but also anticipates future scientific challenges. This initiative promises to reshape the landscape of scientific research and technological innovation, setting a new standard for global computational capabilities.
As Japan forges ahead with its ambitious FugakuNEXT project, the global tech community watches with anticipation. This groundbreaking endeavor not only promises to enhance Japan’s technological landscape but also lays the groundwork for future innovations in computing. With the advent of such unprecedented computational power, a critical question arises: how will the emergence of zetta-scale supercomputers transform global science and industry in the years to come?
This article is based on verified sources and supported by editorial technologies.