Did you know that entangled particles are monogamous? If two qubits A and B are maximally quantumly correlated they cannot be correlated at all with a third qubit C. Almost like humans :) See below a romance-like explanation of the “Spooky action at a distance”.So this week is about entanglement and its properties. But also about scalability. Have you seen all those cables and pipes going into the chandellier of your typical quantum computer? How would you scale all that connectivity for 100x more qubits? Quantum Supremacy is not just about the amount of qubits its realiability (see a novel approach for phase-flip error correction below). But also about how to integrate all that in a chip. That is one of the main research areas at Intel. Research does not stop not even for love. From the demonstration of one single qubit being able to model any function (from Barcelona!), to more quantum operating systems lining up. Read on this week’s packed newsletter!
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The Week in Quantum Computing - February 15th
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Did you know that entangled particles are monogamous? If two qubits A and B are maximally quantumly correlated they cannot be correlated at all with a third qubit C. Almost like humans :) See below a romance-like explanation of the “Spooky action at a distance”.So this week is about entanglement and its properties. But also about scalability. Have you seen all those cables and pipes going into the chandellier of your typical quantum computer? How would you scale all that connectivity for 100x more qubits? Quantum Supremacy is not just about the amount of qubits its realiability (see a novel approach for phase-flip error correction below). But also about how to integrate all that in a chip. That is one of the main research areas at Intel. Research does not stop not even for love. From the demonstration of one single qubit being able to model any function (from Barcelona!), to more quantum operating systems lining up. Read on this week’s packed newsletter!