One of the challenges in reaching the full potential of quantum computing is figuring out how to make millions of qubits work together. which is the quantum equivalent of the classical bits that hold 1s or 0s in traditional computers.
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Scientists at the University of Sussex in the UK have been able to let qubits travel directly between two quantum computer microchips with speed and accuracy that surpass anything the technology has seen before.
That suggests that quantum computers are scalable beyond the physical limits of microchips. This is a critical factor when you're dealing with millions of qubits on the same machine. Universal Quantum, a spin-off startup from the University of Sussex, will continue to develop the technology.
"The team demonstrated fast and consistent ion transfer using quantum matter linkage," said quantum scientist Mariam Akhtar. Akhtar led research on the prototype while she At the University of Sussex
“This experiment validates the unique architecture that Universal Quantum has developed. This is an exciting path to true large-scale quantum computing.
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