Several clients worldwide have already selected the BullSequana supercomputer powered with an AMD EPYC processors for an enhanced computing capacity to supercharge their workloads. “Our BullSequana equipped with the latest AMD chip, provides our customers with the highest available performance for HPC and AI workloads, with an optimized TCO, to support them in going beyond the limits of traditional simulation.” Our unique Enhanced Direct Liquid Cooling system provided the most efficient environment for achieving such performance of the AMD EPYC processor,” said Agnès Boudot, Senior Vice President, Head of HPC & Quantum at Atos. “We’re extremely proud that our BullSequana has achieved these world-record results. Power efficiency is a key priority for large data centers when it comes to selecting a supercomputer, as it translates into an optimal TCO (Total Cost of Ownership) enabling millions to be saved over the project lifespan. The results showed an unprecedented performance for BullSequana’s lowest power consumption. The BullSequana XH2000’s enhanced DLC (Direct Liquid Cooling) was essential in enabling the AMD’s 280W EPYC™ 7H12 processor to reach its maximum level of performance. The BullSequana surpasses previous records*** (records using both AMD and non-AMD processors) for all 5 benchmarks. Thanks to the BullSequana’s Enhanced Direct Liquid Cooling system and the powerful AMD EPYC 7H12 processor, the Atos measurements currently top the best published results for two-socket nodes on four SPECrate® benchmarks.* Additionally it has set a new record for the HPL Linpack Benchmark on an AMD EPYC CPU, with an 11% increase in performance.** These measure how hardware systems perform under compute-intensive workloads based on real-world applications.
Paris, France, Septem– Atos, a global leader in digital transformation, today announces that its BullSequana XH2000 supercomputer powered by an AMD EPYC™ 7H12 Series Processor has set four new world-records in server performance. Unprecedented performance with increased efficiency