AMD EPYC Genoa CPU & Instinct MI300 APU Powered Atos BullSequana XH3000 To Power MPCDF Supercomputer

Atos has announced that its AMD EPYC Genoa CPU & Instinct MI300 APU-powered BullSequana XH3000 will power the upcoming MPCDF Supercomputer.

The Atos BullSequana XH3000 platform will be used to power the latest supercomputer at Max Planck Society, a leading science & technology research organization based in Munich, Germany.

The system will incorporate the best of the best hardware you can get in the form of AMD's EPYC Genoa CPUs and Instinct MI300 APU accelerators. The whole unit will make use of Direct Liquid Cooling, eliminating the need for fans. There will be a total of ten BullSequana XH3000 racks in the systems which feature 768 process nodes and 192 accelerator nodes in total. The system will rely on the IBM SpectrumScale storage solution. Delivery for the CPU nodes is expected in Q3 2023 and the GPU nodes are expected to ship by the first half of 2024.

Following is the full press release:

Press Release: Atos today announces a contract to build and install a new high-performance computer for the Max Planck Society, a world-leading science and technology research organization. The new system will be based on Atos’ latest BullSequana XH3000 platform, which is powered by AMD EPYC™ CPUs and Instinct accelerators. In its final configuration, the application performance will be three times higher than the current “Cobra” system, which is also based on Atos technologies.

The new supercomputer, with a total order value of over 20 million euros, will be operated by the Max Planck Computing and Data Facility (MPCDF) in Garching near Munich and will provide high-performance computing (HPC) capacity for many institutes of the Max Planck Society. Particularly demanding scientific projects, such as those in astrophysics, life science research, materials research, plasma physics, and AI will benefit from the high-performance capabilities of the new system.

The system will run without fans thanks to its unmatched hot water cooling (Direct Liquid Cooling) and thus have a significantly improved energy efficiency. The efficiency gained from this Atos’ cooling system matched with the latest in silicon architecture innovations from AMD, designed with energy efficiency in mind, brings the Power Usage Effectiveness (PUE) value to less than 1.05 (1 being the ideal ratio), far below the average of other HPC installations.

The installation will feature 4th Gen AMD EPYC processors and for the first time in an Atos-based European system, the upcoming AMD Instinct MI300A accelerator. The system will consist of ten BullSequana XH3000 racks with a total of 768 processor nodes and 192 accelerator nodes and will be complemented with an IBM SpectrumScale storage solution. The CPU nodes will be delivered in the third quarter of 2023, with full installation of the GPU nodes expected in the first half of 2024.

Prof. Erwin Laure, Director of the Max Planck Computing and Data Facility said “The computing power required by scientific research is ever increasing and we see an unabated need for high-performance computing capacity. We want to provide the best possible support to our researchers in their work and have therefore decided to modernize our high-performance computing complex. With Atos and AMD, we have the right partners for this. The new solution will certainly meet our demands and once again advance science in leaps and bounds.”

Emmanuel Le Roux, Group SVP, Global Head of HPC, AI & Quantum at Atos, highlighted, “We are very proud to have been awarded this contract and to have been trusted with our extensive HPC expertise. We are convinced that the combination of our newly developed, powerful and energy-efficient BullSequana XH3000 system with the high-performance AMD Instinct MI300A processors will provide the Max Planck Society with a future-proof system and the computing power required to further continue its ground-breaking research.”

Brad McCredie, corporate vice president, Data Center Acceleration Business, AMD said “AMD, with the MI300A APU, continues to deliver breakthrough performance for researchers and the high performance computing industry. AMD is excited by the strong market validation of the performance, power and simplified programming advantages unlocked by the MI300A APU architecture and we are looking forward to working with Atos to advance the specific science and research needs of the Max Planck Society.”