Controversial ‘Quantum Advantage’ Claim Made by Computing Firm D-Wave

D-Wave Companies made by computerized “quantum advantage” claim

By Davide Castelvekchi & Nature Magazine

A “quantum processor” has solved the problem of physics about the behavior of magnetism to calculate hundreds of thousands of common supercomputers in certain solids. The result is the final claim of the machine that shows “quantum advantage” on classic computers.

Although Google and others claim to obtain a quantum advantage, Google presented Sycamore Chips – D-Wave researchers, a Burnaby company, said their result, published ScienceTrue physics is the first to solve the question. “We believe that no one has done the first time around a scientific interest problem,” says Andrew King by Physicist D-Wave.

The D-Wave team did a great job, but the classical computer has yet to be told, Miles Stoudenmire, a researcher at the center of the Flatiron Institute in New York City. “We’re still in the race.”

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The results also validates the approach that the company has taken the quantum computation. Universal quantum computer than building a universal, which can run a quantum algorithm – D-Wave has been limited to a certain calculations, but the scale is easier.

Early pioneering in quantum area, wavel machines have long been brought to the number of industrial quals, equivalent to classic information. The latest processor has thousands of quiz. “D-Wave hardware development and research results are 25 years of research,” says Mohammad Amin, another dominant physicist in the company.

Magnetic problem

The problem that D-Wave is fixed in the theory of magnetism is a large area of ​​theoretical physics. The electron of each atom acts like magnetic needles and the ways of guidance to respond to neighborhood guidance a prototype provided a prototype to analyze complex systems.

In a typical permanent magnet, all repeats are aligned in the same direction. But in general material, the surrounding tours provide conflicting effects on each other and stable adaptations do not exist or it is very difficult to predict. Quantum effect adds complications.

D-Wave’s King, Amine and various academic laboratories, used the latest D-Wave machine, called Advantage2, simulating round arrangements in 3D crystal structures. The exact problem examined that the temperature of the material begins in absolute zero, and quantum incidents left from one situation to another. Its machine estimates that it has achieved faster than any calculation of the classic calculation.

Advantage claims challenge

The results follow several quantum advantages. Google made the first claim of a quantum advantage in 2019 that it caused a feeling of feeling. Soon, IBM and other companies showed that improving classic techniques could be made equal calculations in common computers.

Then he got a quantum advantage in 2023.

Last week, in response to a background version of D-Wave, Stoudenmire had the result of Arxiv improved in classical algorithms.

“It’s a great piece of research, and it’s a great scientific breakthrough,” says Juan Carrasquilla, the computational physicist of Juan Zurich and the author of the author of the wavel. (An extraordinary team published a challenge for some D-Wave claims this week.) Still, the D-wave was well in front of the usual “spoofing” from the usual computers.

“What they did, is the subset of what we did,” King says. “They advanced the classical state of art, but not in our results.”

Stoudenmire’s team is improving techniques for covering all the waves simulations. “We’re trying now,” he said. “We think he will work.” Overall, Stoudenmire says it often does not appreciate how classic computer techniques are improved.

This article reproduces with permission and has been First posted On March 12, 2025.