Azure HBv4- und HX-Serien-VMs für HPC jetzt allgemein verfügbar
Wir freuen uns, Azure HBv4 und virtuelle Computer (VMs) der Serie HBv4 und HX bekanntzugeben, die jetzt allgemein verfügbar sind.
Wir freuen uns, Azure HBv4 und virtuelle Computer (VMs) der Serie HBv4 und HX bekanntzugeben, die jetzt allgemein verfügbar sind.
Microsoft Azure has had a major presence at ISC for several years now, and this year’s conference will be no exception.
Digital twin technology offers organizations a powerful option to run detailed simulations generating vast amounts of data.
High-performance computing and orbital data deliver unprecedented insights into weather patterns, improving planning, forecasting, and decision-making, in an ever-evolving agriculture supply chain.
Azure High-Performance Computing provides a platform for energy industry innovation at scale.
The all-new HX-series and HBv4-series VMs are optimized for a variety of HPC workloads such as computational fluid dynamics (CFD), finite element analysis, frontend and backend electronic design automation (EDA), rendering, molecular dynamics, computational geoscience, weather simulation, AI inference, and financial risk analysis.
Vorschau live heute verfügbar, in Kürze verfügbarWir kündigen an, dass jetzt eine Vorschau für virtuelle Azure HBv3-Computer live ist, die durch 3. Generation AMD EPYC-Prozessoren™ mit AMD 3D V-Cache erweitert wurden, codenamed "Milan-X".
Design and deployment of high performance computing (HPC) infrastructure is often constrained by physical resources, internal know-how, and policies. That can be a challenge in the current era of new hardware architectures, programming paradigms, and constantly changing simulation software.
Whether it’s understanding our environment, public health, energy sustainability, weather modeling, economic growth, and many others finding solutions to these important challenges requires huge amounts of focused computing power.
Today Azure advances the velocity at which we bring the latest technologies to our HPC customers and the compute performance we put at their fingertips.