Supercomputer Frontier Shatters Exascale Barrier, Sets New Speed Milestone, US

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Frontier, the supercomputer developed by a team at the Oak Ridge National Laboratory, has broken through the exascale barrier and set a new speed milestone. The computer achieved an average speed of over 1.1 exaflops, or 1.1 quintillion calculations per second, making it the fastest computer in the world.

According to Feiyi Wang, the leader of research into artificial intelligence and analytics at Oak Ridge National Laboratory, the exascale achievement signifies a major milestone and opens a new chapter in high-speed computing. Wang believes that this breakthrough eliminates the need to wait for the next generation of computing, as the capabilities are available today.

The impressive speed of Frontier is achieved through calculations performed at double precision, which relies on 64 bits of memory per calculation for maximum accuracy. However, certain applications, such as artificial intelligence and machine learning algorithms, can operate with less precision. These algorithms mimic the human brain’s ability to recognize patterns over time and can function with as little as 32, 24, or even 16 bits of memory.

To measure the speed of Frontier’s mixed-precision calculations, which are used in AI and machine learning, Wang’s team had to devise a new test. The results showed that the supercomputer achieved a speed of 9.95 exaflops, almost eight times faster than the double-precision calculations that broke the exascale barrier.

The newfound capability of Frontier has significant implications for various fields, particularly in AI research. Wang explains that faster speeds allow for more data to be utilized in training AI models, resulting in more accurate results. In fact, Wang suggests that the rapid progress in computing speed brings us closer to the point where it’s possible to simulate the human brain.

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The human brain, which consists of approximately 80 million neurons, operates at an energy level of around a dozen watts. In comparison, Frontier requires 30 megawatts of power. Wang envisions bridging the gap between human intelligence and machine intelligence, aiming for computing efficiency similar to the human brain. He believes that achieving such efficiency would be a groundbreaking development for humankind, with implications for computing and our daily lives.

The Oak Ridge Leadership Computing Facility, located at ORNL, is responsible for managing Frontier, which is supported by the Department of Energy’s Office of Science. The Office of Science is the largest supporter of basic research in the physical sciences in the United States and is actively addressing pressing global challenges.

In summary, the team at Oak Ridge National Laboratory has developed the Frontier supercomputer, surpassing the exascale barrier and setting a new speed record. With its remarkable computational power and ability to perform AI and machine learning tasks at unprecedented speeds, Frontier marks a significant milestone in high-speed computing. The potential to bridge the gap between human and machine intelligence offers a promising future for computing technology and its impact on society.

Frequently Asked Questions (FAQs) Related to the Above News

What is Frontier?

Frontier is a supercomputer developed by a team at the Oak Ridge National Laboratory that has surpassed the exascale barrier, making it the fastest computer in the world.

How fast is Frontier?

Frontier achieved an average speed of over 1.1 exaflops, or 1.1 quintillion calculations per second. This remarkable speed milestone sets a new record in high-speed computing.

How does Frontier achieve its impressive speed?

Frontier's speed is primarily achieved through calculations performed at double precision, which utilize 64 bits of memory per calculation for maximum accuracy. However, for certain applications like artificial intelligence and machine learning, lower precision calculations (e.g., 32, 24, or 16 bits) can be used.

How does Frontier's speed impact AI research?

Frontier's faster speeds allow for more data to be utilized in training AI models, leading to more accurate results. This breakthrough brings us closer to simulating the human brain, enabling significant advancements in AI research.

What is the difference between the speed achieved through double precision calculations and mixed-precision calculations?

Double precision calculations achieve an average speed of over 1.1 exaflops, while mixed-precision calculations, commonly used in AI and machine learning, achieved a speed of 9.95 exaflops. This means that mixed-precision calculations on Frontier are nearly eight times faster than double precision calculations.

How does the speed of Frontier compare to the human brain?

The human brain operates at an energy level of around a dozen watts, while Frontier requires 30 megawatts of power. While Frontier's speed is impressive, it still has a long way to go to match the computational efficiency of the human brain.

What are the implications of Frontier's capabilities for computing technology and society?

The newfound capabilities of Frontier have significant implications for various fields, particularly in AI research. Faster speeds enable more accurate results, leading to advancements in AI models and the potential to bridge the gap between human and machine intelligence. This development could have a profound impact on computing technology and our daily lives.

Please note that the FAQs provided on this page are based on the news article published. While we strive to provide accurate and up-to-date information, it is always recommended to consult relevant authorities or professionals before making any decisions or taking action based on the FAQs or the news article.

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