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Cerebras Sets New World Record in Molecular Dynamics at 1.1 Million Simulations per Second — 748x Faster than the World’s #1 Supercomputer ‘Frontier’

Wafer Scale Engine Unlocks 1.1 Million Simulations Steps/Sec, Enabling Scientists to Perform Two Years’ Worth of GPU-Based Simulations in a Single Day on Cerebras

Cerebras Systems, the pioneer in accelerating generative AI, in collaboration with researchers from Sandia, Lawrence Livermore, and Los Alamos National Laboratories, have set another world record and important breakthrough in molecular dynamics (MD) simulations. For the first time in the history of the field, researchers achieved more than 1 million simulation steps per second. A single Cerebras Wafer Scale Engine achieved over 1.1 million steps per second, which is 748x faster than what is possible on the world's leading supercomputer 'Frontier'.

This press release features multimedia. View the full release here: https://www.businesswire.com/news/home/20241118595546/en/

Using just a single wafer-scale chip and a tiny fraction of the power of general purpose and specialized supercomputers, Cerebras was able to run molecular simulations at over a million steps per second – a first for the industry. (Graphic: Cerebras Systems)

Using just a single wafer-scale chip and a tiny fraction of the power of general purpose and specialized supercomputers, Cerebras was able to run molecular simulations at over a million steps per second – a first for the industry. (Graphic: Cerebras Systems)

In addition, Cerebras outperformed Anton 3 – the world’s leading purpose-built supercomputer for molecular dynamics. Anton 3 uses 512 specialized processors and 400 kilowatts of power. In contrast, the Cerebras system uses a single accelerator, 7% of the power, and outperforms Anton 3 by 20%.

“This new world record means that scientists can now complete two years’ worth of GPU-based simulation work every single day. This will greatly accelerate the rate of innovation derived from molecular simulations,” said Michael James, Chief Architect of Advanced Technologies and co-founder of Cerebras Systems. “This critical breakthrough is ready to provide insights on material structure and function. When we extend our work to biomolecules, it will unlock new capabilities in protein folding, medicine, and drug development.”

Supercomputing performance can be achieved via weak scaling or strong scaling. Weak scaling increases the size of a simulation while strong scaling increases its speed. Existing supercomputer designs use many GPUs to increase simulation scale at the same speed. Cerebras in contrast achieves strong scaling – it accelerates simulation speed by hundreds of times over today’s leading supercomputers. Faster speed allows scientists to simulate materials longer, effectively seeing into its future.

Without strong scaling, existing supercomputers have been limited to simulating materials at the atomic scale for a few microseconds. This breakthrough by Cerebras and scientists at US national laboratories give researchers a new scientific instrument to investigate vital materials at the millisecond timescale, a view 1,000x further than what’s possible today.

“The partnership between the NNSA laboratories and Cerebras Systems is part of the Advanced Memory Technology (AMT) program, which aims to accelerate exascale supercomputers by 40x as early as 2025. With Cerebras’ currently deployed wafer-scale computers, the teams achieved this materials science breakthrough and a speedup that exceeded the goal of the AMT program by more than 4X,” said James H. Laros III, Distinguished Member of Technical Staff and AMT program lead. “This experience bodes well for future impacts to our program and potential scientific advances.”

Long timescale simulations allow scientists to explore previously inaccessible phenomena across a wide range of domains:

  • Materials scientists can now study the long-term behavior of complex materials, such as the evolution of grain boundaries in metals, leading to the development of stronger, more resilient materials.
  • Pharmaceutical researchers can simulate protein folding and drug-target interactions over physiologically relevant timescales, accelerating the discovery of life-saving therapies.
  • Renewable energy experts can optimize catalytic reactions and design more efficient energy storage systems by simulating atomic-scale processes over extended durations.

Sandia recently announced the deployment of a cutting-edge Cerebras CS-3 testbed for future AI workloads. For more information, please see https://www.sandia.gov/research/news/cerebras-collaborations-cs3/.

This work has been nominated as a finalist for the ACM Gordon Bell Prize. For more information on this molecular dynamics simulation work, please see our paper on ArXiv titled: “Breaking the mold: overcoming the time constraints of molecular dynamics on general-purpose hardware.”

About Cerebras Systems

Cerebras Systems is a team of pioneering computer architects, computer scientists, deep learning researchers, and engineers of all types. We have come together to accelerate generative AI by building from the ground up a new class of AI supercomputer. Our flagship product, the CS-3 system, is powered by the world’s largest and fastest commercially available AI processor, our Wafer-Scale Engine-3. CS-3s are quickly and easily clustered together to make the largest AI supercomputers in the world, and make placing models on the supercomputers dead simple by avoiding the complexity of distributed computing. Leading corporations, research institutions, and governments use Cerebras solutions for the development of pathbreaking proprietary models, and to train open-source models with millions of downloads. Cerebras solutions are available through the Cerebras Cloud and on premise. For further information, visit https://www.cerebras.net.

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