Entangled

Australia: Controlling Qubits on Silicon

Australia, in collaboration with U.S.A.’s Purdue University, surged forward with controlling qubits individually on silicon chips. The ability to control qubits singly is seen paramount to moving ahead in making quantum computing a reality. Additional positive findings were error-reductions in the system due to the ability to control qubits individually when in proximity to each other. This brings quantum computing one step closer to complex computations involving entangled states. 

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Tangle Lake, Alaska

What does Tangle Lake, Alaska, have in common with quantum computing? Intel named its 49-qubit processor “Tangle Lake”. Frigid conditions, an ‘entangled appearance’ from above; the similarities end there. Recently, Intel published an infographic explaining the components of this qubit processor. Visually interesting and a concise description of this 3×3 inch chip.

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