A closed-form resource estimation tool for concatenated quantum error correction reveals that magic-state operations rarely dominate qubit costs, with general optimizations providing orders-of-magnitude larger reductions than magic-specific ones.
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2024 2representative citing papers
Experimental demonstration of a 6100-atom optical tweezer array with record 12.6 s hyperfine qubit coherence, 23 min trapping lifetime, 99.99% imaging fidelity, and coherence-preserving transport for zone-based quantum computing.
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Magic states are rarely the best resource to optimize: An analytical tool for qubit resource estimation in concatenated codes
A closed-form resource estimation tool for concatenated quantum error correction reveals that magic-state operations rarely dominate qubit costs, with general optimizations providing orders-of-magnitude larger reductions than magic-specific ones.
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A tweezer array with 6100 highly coherent atomic qubits
Experimental demonstration of a 6100-atom optical tweezer array with record 12.6 s hyperfine qubit coherence, 23 min trapping lifetime, 99.99% imaging fidelity, and coherence-preserving transport for zone-based quantum computing.