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- ...ents on many state copies. The method described here perform quantum state tomography using linear inversion. '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum State density matrix reconstruction]], [[Linear inversion]]6 KB (944 words) - 14:36, 2 October 2019
- ...ents on many state copies. The method described here perform quantum state tomography using maximum likelihood estimation. '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum State density matrix reconstruction]], [[Maximum Likelihood Estimation]]9 KB (1,314 words) - 11:38, 6 June 2023
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- |[[Cross-Platform verification of Intermediate Scale Quantum Devices]] |[[Estimate average Fidelity of quantum gates]]2 KB (269 words) - 21:48, 15 January 2024
- ...t. The [[figure of merit]] here is the density matrix of the final quantum state. This method is extremely resource-intensive. * [[Full Quantum state tomography with Linear Inversion]]2 KB (319 words) - 14:32, 2 October 2019
- ...instead of a state. The figure of merit here is the density matrix of the quantum dynamic process. This method is extremely resource-intensive. * [[Full Quantum Process Tomography with Linear inversion]]2 KB (300 words) - 16:40, 20 September 2019
- ...gure of merit]] in these protocols is the fidelity of the prepared quantum state * The figure of merit is fidelity of the prepared quantum state to the actual state1 KB (164 words) - 16:23, 20 September 2019
- ...ents on many state copies. The method described here perform quantum state tomography using linear inversion. '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum State density matrix reconstruction]], [[Linear inversion]]6 KB (944 words) - 14:36, 2 October 2019
- ...ents on many state copies. The method described here perform quantum state tomography using maximum likelihood estimation. '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum State density matrix reconstruction]], [[Maximum Likelihood Estimation]]9 KB (1,314 words) - 11:38, 6 June 2023
- ...le based on the same type of randomly chosen measurements compared to full tomography. '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum State density matrix reconstruction]], [[compressed sensing]]11 KB (1,739 words) - 14:38, 2 October 2019
- ...ate instead of a state. The method described here performs quantum process tomography using linear inversion. '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum process density matrix reconstruction]], [[Linear inversion]]11 KB (1,729 words) - 11:46, 25 October 2019
- ...n estimate of the fidelity between the pure state and the actual arbitrary state in the lab, up to a constant additive error. The method requires measuring * The quantum state to be prepared is a pure state. Any other additional structure or symmetry is not assumed.7 KB (1,158 words) - 17:09, 6 May 2020
- ...rocess Tomography with Linear inversion]] is inaccurate in the presence of state preparation and measurement errors. This procedure estimates the complete p '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum process density matrix reconstruction]], [[Maximum Likelihood estimation]],14 KB (2,191 words) - 11:30, 18 June 2020
- ...ibly mixed states. This protocol infers the cross-platform fidelity of two quantum states from statistical correlations between the randomized measurements pe * There are no prior assumptions on the quantum states.10 KB (1,545 words) - 21:18, 30 May 2020