Japan is as soon as once more constructing a landmark high-performance computing system — not just by chasing pace, however by rethinking how know-how can greatest serve the nation’s most pressing scientific wants.
On the FugakuNEXT Worldwide Initiative Launch Ceremony held in Tokyo on Aug. 22, leaders from RIKEN, Japan’s high analysis institute, introduced the beginning of a world collaboration with Fujitsu and NVIDIA to co-design FugakuNEXT, the successor to the world-renowned supercomputer, Fugaku.
Awarded early within the course of, the contract allows the companions to work aspect by aspect in shaping the system’s structure to handle Japan’s most important analysis priorities — from earth methods modeling and catastrophe resilience to drug discovery and superior manufacturing.
Greater than an improve, the hassle will spotlight Japan’s embrace of recent AI and showcase Japanese improvements that may be harnessed by researchers and enterprises throughout the globe.
The ceremony featured remarks from the initiative’s leaders, RIKEN President Makoto Gonokami and Satoshi Matsuoka, director of the RIKEN Middle for Computational Science and one in all Japan’s most revered high-performance computing architects.
Fujitsu Chief Know-how Officer Vivek Mahajan attended, emphasizing the corporate’s position in advancing Japan’s computing capabilities.
Ian Buck, vp of hyperscale and high-performance computing at NVIDIA, attended in particular person as properly to debate the collaborative design method and the way the ensuing platform will function a basis for innovation properly into the following decade.
Momentum has been constructing. When NVIDIA founder and CEO Jensen Huang touched down in Tokyo final 12 months, he referred to as on Japan to grab the second — to place NVIDIA’s newest applied sciences to work constructing its personal AI, by itself soil, with its personal infrastructure.
FugakuNEXT solutions that decision, drawing on NVIDIA’s complete software program stack — from NVIDIA CUDA-X libraries reminiscent of NVIDIA cuQuantum for quantum simulation, RAPIDS for knowledge science, NVIDIA TensorRT for high-performance inference and NVIDIA NeMo for big language mannequin improvement, to different domain-specific software program improvement kits tailor-made for science and trade.
Improvements pioneered on FugakuNEXT may turn into blueprints for the world.
What’s Inside
FugakuNEXT might be a hybrid AI-HPC system, combining simulation and AI workloads.
It’s going to characteristic FUJITSU-MONAKA-X CPUs, which will be paired with NVIDIA applied sciences utilizing NVLink Fusion, new silicon enabling high-bandwidth connections between Fujitsu’s CPUs and NVIDIA’s structure.
The system might be constructed for pace, scale and effectivity.
What It Will Do
FugakuNEXT will assist a variety of purposes — reminiscent of automating speculation technology, code creation and experiment simulation.
- Scientific analysis: Accelerating simulations with surrogate fashions and physics-informed neural networks.
- Manufacturing: Utilizing AI to study from simulations to generate environment friendly and aesthetically pleasing designs quicker than ever earlier than.
- Earth methods modeling: aiding catastrophe preparedness and prediction for earthquakes and extreme climate, and extra.
RIKEN, Fujitsu and NVIDIA will collaborate on software program developments, together with instruments for mixed-precision computing, steady benchmarking, and efficiency optimization.
FugakuNEXT isn’t only a technical improve — it’s a strategic funding in Japan’s future.
Backed by Japan’s MEXT (Ministry of Training, Tradition, Sports activities, Science and Know-how), it is going to serve universities, authorities businesses, and trade companions nationwide.
It marks the beginning of a brand new period in Japanese supercomputing — one constructed on sovereign infrastructure, international collaboration, and a dedication to scientific management.
Picture courtesy of RIKEN
