Accelerate Breakthrough Discovery with Exascale Supercomputing
Exascale supercomputing will drive breakthrough innovation and help shape the future of research. The Intel® portfolio of powerful, highly scalable HPC and AI technologies is leading the way into the exascale era.
Unlock Endless Possibilities with Exascale
With unprecedented scale and performance levels, exascale supercomputing will help leading-edge scientists, engineers, and researchers make discoveries and solve complex problems in biochemistry, engineering, astrophysics, energy, healthcare, and beyond.
Representing an exponential leap in computing power, storage, and bandwidth, exascale supercomputers are capable of performing at least a quintillion (a billion billion) calculations per second. That’s 10 to 20 times faster than previous generations of supercomputers. This speed and computing power will enable the integration of data analytics, AI, and simulation for advanced 3D modeling to help researchers understand the building blocks of our universe in new ways and lead to solutions for some of the world’s biggest problems.
Intel is at the forefront of delivering exascale computing. The Intel® HPC and AI portfolio, including hardware and software, is designed specifically for the convergence of artificial intelligence and high performance computing at extreme scale.
Video: How exascale supercomputing could help solve today’s most pressing problems
Explore Exascale Use Cases
Exascale is a transformative tool that will help researchers better model and analyze complex systems to advance scientific discovery and address global-scale challenges. Discover some of the ways leading researchers and innovators are already leveraging the power of exascale.
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.
Intel Drives Exascale Vision at Argonne National Laboratory
Discover how the Aurora Supercomputer, built on Intel® technologies, will integrate HPC, AI, and data analytics to enable breakthrough research and discovery.
Build a Futureproof Foundation for Your Exascale System
Building systems and solutions that enable the use of exascale requires powerful technologies and tools. Discover what Intel offers to support your exascale development.
Intel® Data Center GPU Max Series
Maximize impact with the Intel® Data Center GPU Max Series, Intel’s highest-performing, highest-density, general-purpose discrete GPU architected to power the most demanding HPC and AI workloads.
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Intel® Xeon® CPU Max Series
Designed for the future demands of supercomputing, the Intel® Xeon® CPU Max Series enables fast discoveries and more-effective research by providing high-bandwidth memory.
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Intel® Xeon® Scalable Processors
With the most built-in accelerators of any CPU on the market, Intel® Xeon® processors deliver a scalable foundation for any HPC system and offer AI acceleration support for high-demand applications.
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Intel® oneAPI Toolkits
Quickly build, test, and optimize applications that scale across today’s diverse HPC architectures in a single, unified programming model.
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Browse Partner HPC Solutions
Explore our partner HPC offerings to help you plan, build, launch, and scale your exascale system.
See How Others Are Using Exascale to Drive Discovery
Explore HPC and Supercomputing Resources
Support
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