Argonne National Lab’s Aurora Exascale System
Aurora’s performance, projected to exceed two exaFLOPS, will empower research and engineering endeavors.
The Convergence of AI and HPC
Solving Challenging Energy Problems
Aurora Early Science Researcher Bert de Jong will use the powerful Exascale supercomputer at Argonne National Labs to help solve energy problems.
Understanding the Multiphysics in a Fusion Reactor
The work of Aurora Early Science Researcher CS Chang is based on understanding the multiphysics that occur in the edge area of a fusion reactor.
Building Patient-Specific Fluid Dynamic Models
Aurora Early Science Researcher Amanda Randles focuses on developing non-invasive, patient-specific fluid models to understand the progression and localization of different human diseases.
Visualizing Tumor Cell Trajectories on Aurora
Circulating tumor cells computed by HARVEY visualized on Aurora with Intel® Data Center Max GPUs and Intel® oneAPI Rendering Toolkit.
Scaling LLM on Aurora for Protein-Protein Interactions
Reconstruction of Protein-Protein Interaction networks by scaling Large Language Model (LLM) Inference on the Aurora Supercomputer.
Breakthrough HPC Performance
Intel's HPC platform integrates world-class compute with powerful memory, storage, fabric, and acceleration to tackle your biggest challenges.
AI: The Next Data Revolution
Intel® technology can help you create breakthrough results from medical discoveries to autonomous vehicle intelligence.
Intel® Xeon® Scalable Processors
Workload-optimized to support high-demand applications and drive actionable insight.
Software and Tools
Discover the open HPC and AI software development tools that are enabling the industry's most flexible GPUs.