Terryl Diki
June 10, 2025 02:50
The Blue Lion SuperComputer of the Leibniz SuperComputing Center in Germany will use NVIDIA’s Vera Rubin Architecture to use improved performance and real -time scientific processing.
Germany’s Leibniz SuperComputing Center (LRZ) will innovate the calculation by the introduction of the Blue SUPERCOMPUTER, which is driven by NVIDIA’s innovative Vera Rubin Architecture. According to the NVIDIA’s blog, this development is a significant upgrade that provides about 30 times more computing power than the existing Supermuc-NG system.
Vera Rubin Understanding
Vera Rubin Architecture represents a breakthrough development of supercomputing technology. It features a Vera CPU, the first custom CPU of NVIDIA, designed to work with Rubin GPU and GPU, the successor to NVIDIA’s Blackwell. This combination integrates simulation, data and AI into a high -performance engine, creating a platform that can emphasize shared memory and acceleration in the network.
Specifications and functions of the Blue Lion
The Blue Lion SuperComputer, produced by the Hewlett Packard Enterprise (HPE), uses the next -generation HPE cray technology. It is characterized by a powerful storage system that integrates the NVIDIA GPU and has a high -end interconnection, and is cooled through 100% direct liquid cooling architecture of HPE. This system uses warm water to manage heat efficiently and then changes its use to the heat of nearby buildings.
The Blue Lion is designed to support various research, including climate and physics, turbulence and machine learning. The architecture allows for expandable operation in the entire system and supports collaboration research projects throughout Europe.
DOUDNA SUPERCOMPUTER: Parallel Development
In the United States, the Lawrence Berkeley National Laboratory is preparing to launch DOUDNA SuperComputer, which is driven by Vera Rubin. Named after the Nobel Prize winner Jennifer Doudna, the system is expected to provide services to more than 11,000 researchers. Designed by Dell Technologies, the company promotes real -time science workflows with optimized energy use and improves performance per watt by comparing with predecessors.
The design of DOUDNA aims to immediately process data streams of various sources using NVIDIA’s Quantum-X800 Infiniband networking to accelerate the development of fusion energy, materials and biology.
The meaning of integration of vera rubin
The introduction of Blue Lion and DOUDNA indicates a change in high -performance computing paradigm. This system shows how AI integration and real -time data processing is the center of scientific research. By using the Vera Rubin architecture, the supercomputer is ready to open the way for a more dynamic and responsive research environment by changing the way scientific data is processed and used.
As science is increasingly dependent on real -time data, functions of systems such as Blue Lion and DOUDNA emphasize the need for adaptable and powerful calculation infrastructure.
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