Far-detuned cross-resonance designs cut frequency collisions in transmon processors, achieving 10% collision-free yield for 1024 qubits with qubit-frequency spread reduced to 6.8 MHz.
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Engineered on-site energies maximize localization in 2D tight-binding and qubit lattices beyond random disorder averages.
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Systematic frequency-collision analysis of the cross-resonance gate outside the straddling regime
Far-detuned cross-resonance designs cut frequency collisions in transmon processors, achieving 10% collision-free yield for 1024 qubits with qubit-frequency spread reduced to 6.8 MHz.
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Is the most random pattern random? Maximizing localization in a two-dimensional lattice with engineered disorder
Engineered on-site energies maximize localization in 2D tight-binding and qubit lattices beyond random disorder averages.