Quantum Gate Set Tomography: Difference between revisions

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Quantum gate set tomography is a robust and powerful method for self-consistently characterizing an entire set of quantum logic gates on a black-box quantum device.  This method arose from the observation that [[Quantum Process tomography]] is inaccurate in the presence of state preparation and measurement errors. This procedure estimates the complete process matrices of Pauli transfer matrices for the gate set based on experimental data.
Quantum gate set tomography is a robust and powerful method for self-consistently characterizing an entire set of quantum logic gates on a black-box quantum device.  This method arose from the observation that [[Full Quantum Process Tomography with Linear inversion]] is inaccurate in the presence of state preparation and measurement errors. This procedure estimates the complete process matrices of Pauli transfer matrices for the gate set based on experimental data.


'''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum process density matrix reconstruction]], [[Maximum Likelihood estimation]], [[Linear Inversion]], [[Gate set]]
'''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum process density matrix reconstruction]], [[Maximum Likelihood estimation]], [[Linear Inversion]], [[Gate set]]
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