SAN JOSE, Calif. 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 applies the same end-to-end methodology to scientific computing. The Blueprint is based on Supermicro's DCBBS, which provide the necessary compute, 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 that it is backed by Supermicro's proven experience building some of the world's largest liquid-cooled clusters."Click here for more information on DCBBS .Researchers increasingly rely on a converged approach to computing, pairing traditional FP64 double-precision simulation with accelerated computing and AI methods, revolutionizing time-to-discovery across climate research, drug discovery, materials science, and energy. The NVIDIA Vera Rubin NVL4 platform is built for this convergence, and the DCBBS Blueprint for HPC defines the steps to deploy it successfully, backed by Supermicro's proven track-record building the world's largest liquid-cooled supercomputing clusters featuring over 100,000 GPUs.The Blueprint covers the full end-to-end sequence that Supermicro has used to complete large-scale liquid-cooled projects at record-breaking speeds. On-site facility surveys conducted by the Supermicro experts assess loading dock access, data hall measurements and clearances, floor load ratings, and existing power and cooling infrastructure to inform a design proposal tailored to each project. Solution integration begins well before delivery, with racking, stacking, cabling, and system-level (L10) and cluster-level (L11) testing performed in Supermicro's global manufacturing facilities. White-glove delivery and on-site integration cover rack placement, power and cooling connections, network cabling, commissioning, and on-site solution validation, with ongoing support options including on-site response times as fast as 4 hours for mission-critical uptime.A Scalable AI and HPC Solution to Modernize Computing Infrastructure for Scientific ResearchThe Supermicro DCBBS Blueprint for HPC and AI based on the NVIDIA Vera Rubin NVL4 Scalable Unit contains the following, which can be multiplied to deploy clusters of any size, from 3.2MW to 1GW: