- The total solution includes up to 1,152 NVIDIA Rubin GPUs and 576 NVIDIA Vera CPUs in liquid-cooled racks: the scalable 3.2 MW unit delivers next-generation performance for AI workloads and FP64 simulation, scalable for research clusters of all sizes
- DLC-2 Direct Liquid Cooling supports 362 kW per rack with 3x in-row CDUs per scalable unit plus cold plates, manifolds and SMC PG25-A ultra-high electrical impedance coolant
- End-to-end solution accelerates the build-out of AI and HPC infrastructure for scientific research, starting with project planning and site surveys, through manufacturing and testing, to on-site deployment
SAN JOSE, California and HAMBURG, Germany, June 22, 2026 /PRNewswire/ — Super Micro Computer, Inc. (NASDAQ: SMCI), an AI, Enterprise, Storage and 5G/Edge Total Solution Provider introduces the Data Center Building Block Solutions® (DCBBS) Blueprint for HPC based on the NVIDIA Vera Rubin NVL4 platform, announced at ISC 2026. Following Supermicro’s DCBBS Blueprints for NVIDIA Vera Rubin NVL72 and NVIDIA HGX Rubin NVL8, introduced at Computex, the Blueprint for HPC and AI same applies end-to-end methodology for scientific computing. The Blueprint is based on Supermicro’s DCBBS, which provides the necessary computing power, networking, advanced liquid cooling, power distribution and site infrastructure, delivered by a team of Supermicro DCBBS experts to accelerate time-to-online for research institutions and supercomputing centers.
“Scientific discovery has always been driven by the tools available to researchers, and AI has become an essential part of the research process,” said Charles Liang, president and CEO of Supermicro. “The institutions that accelerate infrastructure deployment will lead the next generation of breakthroughs. With our DCBBS Blueprints for NVIDIA Vera Rubin NVL4, research organizations can confidently deploy HPC and AI infrastructure at any scale, knowing it is backed by Supermicro’s proven experience building some of the world’s largest liquid-cooled clusters.”
Click here for more information about DCBBS.
Researchers are increasingly relying on a converged approach to computing, combining traditional double-precision FP64 simulation with accelerated computing and AI methods, revolutionizing the time to discovery in climate research, drug discovery, materials science and energy. The NVIDIA Vera Rubin NVL4 platform was built for this convergence, and the DCBBS Blueprint for HPC defines the steps to successfully deploy it, backed by Supermicro’s proven track record of building the world’s largest liquid-cooled supercomputer clusters with more than 100,000 GPUs.
The Blueprint includes the complete end-to-end suite that Supermicro has used to complete large-scale liquid-cooled projects at record speeds. On-site facility surveys conducted by Supermicro’s experts assess loading dock access, data hall dimensions and clearances, floor load values and existing power and cooling infrastructure to inform a tailor-made design proposal for each project. Solution integration begins well in advance of delivery, with racking, stacking, cabling, and system-level (L10) and cluster-level (L11) testing performed at Supermicro’s global manufacturing facilities. White glove delivery and on-site integration include rack placement, power and cooling connections, network cabling, commissioning and on-site solution validation, with ongoing support options including on-site response times of up to 4 hours for mission-critical uptime.
A scalable AI and HPC solution to modernize computing infrastructure for scientific research
The Supermicro DCBBS Blueprint for HPC and AI, based on the NVIDIA Vera Rubin NVL4 Scalable Unit, includes the following, which can be multiplied to deploy clusters of any size, from 3.2 MW to 1 GW:
- 8x liquid-cooled computer racks in custom 52U, 750mm wide enclosures each containing 36 NVIDIA Vera Rubin NVL4 nodes within a range of 362 kW, for a total of 288 nodes, up to 1,152 NVIDIA Rubin GPUs and 576 NVIDIA Vera CPUs per scalable unit
- Advanced Direct Liquid Cooling technology stack (DLC-2), including 3x in-row cooling distribution units (up to 1.8 MW each) per scalable unit in a 2+1 redundant configuration, direct-to-chip copper cold plates and vertically mounted cooling distribution manifolds, with Supermicro SMC PG25-A coolant engineered for exceptional chemical and thermal stability
- NVIDIA Quantum-X800 InfiniBand compute fabric over dedicated network switch racks with fully liquid-cooled options available, providing the scalable, high-bandwidth interconnect for distributed scientific and AI workloads
- Rack Power and Management: 8x 72 kW power shelves per computer rack providing busbar power for the 362 kW rack envelope, with two ToR management switches per rack for out-of-band control
Configurations for HPC and AI based on the NVIDIA GB200 NVL4 are also available for immediate deployment.
Supermicro DCBBS delivers a complete, modular AI infrastructure built from validated components and subsystems, enabling flexible deployment from individual servers and networks to complete rack-scale and data center solutions, including software and services. Supermicro continues to lead the industry with its extensive portfolio of AI infrastructure solutions, enabling organizations around the world to deploy scalable, efficient and environmentally responsible AI data centers.
Supermicro will showcase its HPC and AI infrastructure solutions at ISC 2026 in Hall H, B10. For more information, visit http://www.supermicro.com.
About Super Micro Computer, Inc.
Supermicro (NASDAQ: SMCI) is a global leader in application-optimized total IT solutions. Founded and operating in San Jose, California, Supermicro is committed to delivering best-in-class innovation for Enterprise, Cloud, AI and 5G Telco/Edge IT infrastructure. We are a provider of total IT solutions with server, AI, storage, IoT, switching systems, software and support services. Supermicro’s expertise in motherboard, power and chassis design further enables our development and manufacturing, enabling next-generation innovation from cloud to edge for our global customers. Our products are designed and manufactured in-house (in the US, Taiwan and the Netherlands), leveraging global operations for scale and efficiency and optimized to improve TCO and reduce environmental impact (Green Computing). The award-winning portfolio of Server Building Block Solutions® allows customers to optimize for their exact workload and application by choosing from a broad family of systems built from our flexible and reusable building blocks that support a comprehensive range of form factors, processors, memory, GPUs, storage, networking, power and cooling solutions (air conditioning, free air cooling or liquid cooling).
Supermicro, Server Building Block Solutions and We Keep IT Green are trademarks and/or registered trademarks of Super Micro Computer, Inc.
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