Вештачка интелигенција

New era of research: Unleashing the Power of Supercomputers at the University of Stuttgart

Summary

The University of Stuttgart and Hewlett-Packard Enterprise (HPE) have joined forces to enhance their research capabilities. They recently announced an agreement to build two new supercomputers at the High-Performance Computing Center Stuttgart (HLRS), opening up countless possibilities in the fields […]

Dva nova superkompjutera: Revolutionizing istraživanje u Štutgartu

The University of Stuttgart and Hewlett-Packard Enterprise (HPE) have joined forces to enhance their research capabilities. They recently announced an agreement to build two new supercomputers at the High-Performance Computing Center Stuttgart (HLRS), opening up countless possibilities in the fields of engineering and applied sciences.

The first supercomputer, known as “Hunter,” is set to begin operation in 2025 and is expected to deliver peak performance of up to 39 petaflops. Utilizing advanced technology, Hunter will serve as a transitional supercomputer that will enable the HLRS user community to transition to a massively parallel, GPU-accelerated architecture called “Herder.” This will be a significant challenge that will empower researchers to improve performance, efficiency, and data transmission speed.

The second supercomputer, “Herder,” will be installed in 2027 and will be an exascale system with performance capabilities of up to one quintillion (10^18) FLOPS. The final configuration of “Herder” will be determined by the end of 2025.

These supercomputers will not only revolutionize the way research is conducted but also inspire innovation. Researchers will have the opportunity to apply advanced technologies to a wide range of applications, including the development of more fuel-efficient vehicles, highly productive wind turbines, and novel materials for electronics.

FAQ:

1. When will “Hunter” become operational?

“Hunter” is expected to begin operation in 2025.

2. What performance can be expected from “Hunter”?

“Hunter” is expected to deliver peak performance of up to 39 petaflops.

3. How will “Hunter” assist the HLRS user community?

“Hunter” will serve as a transitional supercomputer that will help the HLRS user community transition to a massively parallel, GPU-accelerated architecture called “Herder”.

4. When will “Herder” be installed?

“Herder” will be installed in 2027.

5. What are the advantages of “Herder” compared to other supercomputers?

“Herder” will be an exascale system capable of delivering performance up to one quintillion (10^18) FLOPS, providing incredible opportunities for advanced research and innovation.