Forget data centers – This German startup is the construction of quantum chips that you can connect such as a graphic card
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Diamonds have emerged as a critical material in the development of quantum technologies because of their unique ateo properties, and Quantum Brilliance, a company based in Germany and Australia, has outlined an ambitious plan to develop portable quantum computers using diamond -based quantum processing units (QPUs).
These devices are designed to work at room temperature and can ultimately be integrated alongside GPUs and High-end CPUs In servers or vehicles.
But while the company’s vision promises a future in which Quantum Computing is just as seamless as connecting a GPU Various technical and commercial obstacles will continue to exist for AI conclusion.
Reconsideration of quantum computing with diamonds
In the past decade, researchers have increasingly focused on engineering with synthetic diamonds of high purity to minimize interference of impurities.
In particular a collaboration of 2022 between a Japanese jewelry company and academic researchers led to a new method for Producing ultra-pure 2-inch diamond waffles.
In 2023, Amazon participated in the effort via the Center for Quantum NetworksCollaboration with De Beers’ Element Six to grow lab-made diamonds for use in quantum communication systems.
Now Quantum Brilliance wants to use nitrogen vacancies in Diamond to create qubits, making a more compact and more powerful alternative to cryogenic quantum systems.
“We do have a route map for fault tolerance, but we are not worried about that at the moment,” said Andrew Dunn, Coo of Quantum Brilliance.
“People think of millions of quubits, but that will be very expensive and powerful.
This indicates a deviation from the ruling trend in Quantum Computing, which focuses on building systems with millions of quubits.
Instead, the company focuses on cheap and practical user scenarios, in particular in applications such as AI inference and scarce data processing.
Quantum Brilliance already works together with research institutions such as the Fraunhofer Institute for Applied Solid State Physics (IAF).
IAF is currently evaluating the second generation Quantum Development Kit of the company, QB-QDK2.0, which integrates classic processors such as Like Nvidia GPUs and CPUs with the QPU in a single box.
In parallel, Oak Ridge National Laboratory has acquired three systems in the US to study scalability and parallel processing for applications such as molecular modeling.
“The reason they buy three systems is that they want to investigate parallelization of systems,” Dunn added.
Quantum Brilliance also works closely with IMEC to integrate diamond processes into standard chip production.
In addition to calculation, the company sees potential in quantum detection and the technology can also be reused for defense and industrial sensors.
Ultimately, the Quantum Computing company wants to become as normal as any other chip in a server.
“Personally, I want to make Quantum really boring and invisible, just another chip who does his job,” Dunn said.
By Eenewseurope
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