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Live Science on MSNScientists make 'magic state' breakthrough after 20 years — without it, quantum computers can never be truly usefulScientists demonstrate a process called "magic state distillation" in logical qubits for the first time, meaning we can now ...
The strategic advantage of QML continues to expand its presence in industries that deal with complex, high-dimensional data.
So, everyone’s talking about Google’s quantum computer, right? Like, how fast is Google’s quantum computer, really? Back ...
Advanced quantum technology needs integrated cryogenic control. Professor David Reilly and colleagues at the University of Sydney present in Nature a control platform that will allow the scale up ...
There are similarities and differences between what the company is talking about today and IBM's recent update of its roadmap ...
Quantum computers have the potential to speed up computation, help design new medicines, break codes, and discover exotic new materials—but that's only when they are truly functional.
IBM has revised its quantum computing roadmap, placing resilience and fault tolerance at the center. The race towards practical quantum computing needs to shift the emphasis from more physical qubits ...
Technology Qubit breakthrough could make it easier to build quantum computers Quantum computers that correct their own errors usually require hundreds of thousands of qubits.
In the rapidly evolving field of quantum computing, silicon spin qubits are emerging as a leading candidate for building scalable, fault-tolerant quantum computers.
QpiAI Gen-1 25 qubit Quantum computer Indus, picture from QpiAI Bangalore centre with CEO Dr Nagendra Nagaraja (Left) and VP of Quantum hardware Dr Manjunath R V (Right).
Quantum superposition is a phenomenon in which a tiny particle can be in two states at the same time — but only if it is not being directly observed.
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