2023
DOI: 10.1038/s41586-023-06927-3
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Logical quantum processor based on reconfigurable atom arrays

Dolev Bluvstein,
Simon J. Evered,
Alexandra A. Geim
et al.

Abstract: Suppressing errors is the central challenge for useful quantum computing1, requiring quantum error correction (QEC)2–6 for large-scale processing. However, the overhead in the realization of error-corrected ‘logical’ qubits, in which information is encoded across many physical qubits for redundancy2–4, poses substantial challenges to large-scale logical quantum computing. Here we report the realization of a programmable quantum processor based on encoded logical qubits operating with up to 280 physical qubits.… Show more

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Cited by 193 publications
(39 citation statements)
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“…In the context of NAQC, individual tweezers holding qubits can be dynamically moved during computation without disrupting entanglement, as demonstrated in [8,9,75]. This capability offers an alternative to implementing SWAP operations at the virtual level, requiring three CX gates.…”
Section: Atom Shuttlingmentioning
confidence: 99%
See 2 more Smart Citations
“…In the context of NAQC, individual tweezers holding qubits can be dynamically moved during computation without disrupting entanglement, as demonstrated in [8,9,75]. This capability offers an alternative to implementing SWAP operations at the virtual level, requiring three CX gates.…”
Section: Atom Shuttlingmentioning
confidence: 99%
“…Instead of using shuttling only as a substitute for virtual SWAP and MOVE operations, the recently discussed Dynamically Field-programmable Qubit Arrays (DPQA or D-FPQA) [8,9,30,35] has emerged as a quantum processor design, which entirely focuses on shuttling. Compared to the previous discussion, this new computation architecture is not based on qubits placed on a regular grid.…”
Section: Schedulingmentioning
confidence: 99%
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“…Superconducting circuits have also been used to create GHZ states [24,30] and implement error correction [103][104][105][106][107][108]. Error correction has recently been carried out in reconfigurable atom arrays [109]. Our proposal might offer a viable information processing scenario in the NISQ era [61], in which simple error mitigation technics are needed [110][111][112][113][114][115][116][117][118][119][120][121].…”
Section: Relation To the Bitflip Codementioning
confidence: 99%
“…47 The neutral-atom quantum computer with 280 physical qubits, 99.5% two-qubit gate fidelities, arbitrary connectivity, as well as fully programmable single-qubit rotations and mid-circuit readout was recently realized. 48 It has been pointed out from an algorithmic perspective that current quantum algorithms exhibit promise in the fields of drug discovery 49,50 and biology. 51 Specifically, these algorithms are capable of processing ground state calculations 52,53 and linear systems 54 at a faster rate, which enables more precise predictions of drug-receptor interactions 55 and protein folding.…”
Section: Introductionmentioning
confidence: 99%