Surface code data generated using https://quantumsim.gitlab.ioThis data pertains to the publication https://arxiv.org/abs/2102.08336 and is part of a collection of supporting materials.See README for more information.</div
Quantum computing can become scalable through error correction, but logical error rates only decreas...
Minimizing leakage from computational states is a challenge when using many-level systems like super...
For quantum computing to become viable, the inherently fallible nature of qubits must be overcome wi...
Surface code data generated using https://quantumsim.gitlab.ioThis data pertains to the publication ...
Surface code data generated using https://quantumsim.gitlab.ioThis data pertains to the publication ...
Surface code data generated using https://quantumsim.gitlab.ioThis data pertains to the publication ...
Data and analysis chain for the results in the paper "A hardware-efficient leakage-reduction scheme ...
Minimal data plotted in the paper figures, together with the code used to generate them.This data pe...
Minimal data plotted in the paper figures, together with the code used to generate them.This data pe...
Full data produced by the Lindblad simulations (part of which is saved in the minimal data to reprod...
code used for the analysis: average leakage lifetime, steady state, analysis of the Lindblad simulat...
Leakage outside of the qubit computational subspace poses a threatening challenge to quantum error c...
Leakage outside of the qubit computational subspace poses a threatening challenge to quantum error c...
Includes the circuits that were executed, the samples that were collected, the corrections predicted...
Leakage outside of the qubit computational subspace, present in many leading experimental platforms,...
Quantum computing can become scalable through error correction, but logical error rates only decreas...
Minimizing leakage from computational states is a challenge when using many-level systems like super...
For quantum computing to become viable, the inherently fallible nature of qubits must be overcome wi...
Surface code data generated using https://quantumsim.gitlab.ioThis data pertains to the publication ...
Surface code data generated using https://quantumsim.gitlab.ioThis data pertains to the publication ...
Surface code data generated using https://quantumsim.gitlab.ioThis data pertains to the publication ...
Data and analysis chain for the results in the paper "A hardware-efficient leakage-reduction scheme ...
Minimal data plotted in the paper figures, together with the code used to generate them.This data pe...
Minimal data plotted in the paper figures, together with the code used to generate them.This data pe...
Full data produced by the Lindblad simulations (part of which is saved in the minimal data to reprod...
code used for the analysis: average leakage lifetime, steady state, analysis of the Lindblad simulat...
Leakage outside of the qubit computational subspace poses a threatening challenge to quantum error c...
Leakage outside of the qubit computational subspace poses a threatening challenge to quantum error c...
Includes the circuits that were executed, the samples that were collected, the corrections predicted...
Leakage outside of the qubit computational subspace, present in many leading experimental platforms,...
Quantum computing can become scalable through error correction, but logical error rates only decreas...
Minimizing leakage from computational states is a challenge when using many-level systems like super...
For quantum computing to become viable, the inherently fallible nature of qubits must be overcome wi...
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