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Bibliographic Details
Main Authors: Shirizly, Liran, Govia, Luke C. G., McKay, David C.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2408.07677
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author Shirizly, Liran
Govia, Luke C. G.
McKay, David C.
author_facet Shirizly, Liran
Govia, Luke C. G.
McKay, David C.
contents Dynamic circuit operations -- measurements with feedforward -- are important components for future quantum computing efforts, but lag behind gates in the availability of characterization methods. Here we introduce a series of dynamic circuit benchmarking routines based on interleaving dynamic circuit operation blocks $F$ in one-qubit randomized benchmarking sequences of data qubits. $F$ spans between the set of data qubits and a measurement qubit and may include feedforward operations based on the measurement. We identify six candidate operation blocks, such as preparing the measured qubit in $|0\rangle$ and performing a $Z$-Pauli on the data qubit conditioned on a measurement of `1'. Importantly, these blocks provide a methodology to accumulate readout assignment errors in a long circuit sequence. We also show the importance of dynamic-decoupling in reducing ZZ crosstalk and measurement-induced phase errors during dynamic circuit blocks. When measured on an IBM Eagle device with appropriate dynamical decoupling, the results are consistent with measurement assignment error and the decoherence of the data qubit as the leading error sources.
format Preprint
id arxiv_https___arxiv_org_abs_2408_07677
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Randomized Benchmarking Protocol for Dynamic Circuits
Shirizly, Liran
Govia, Luke C. G.
McKay, David C.
Quantum Physics
Dynamic circuit operations -- measurements with feedforward -- are important components for future quantum computing efforts, but lag behind gates in the availability of characterization methods. Here we introduce a series of dynamic circuit benchmarking routines based on interleaving dynamic circuit operation blocks $F$ in one-qubit randomized benchmarking sequences of data qubits. $F$ spans between the set of data qubits and a measurement qubit and may include feedforward operations based on the measurement. We identify six candidate operation blocks, such as preparing the measured qubit in $|0\rangle$ and performing a $Z$-Pauli on the data qubit conditioned on a measurement of `1'. Importantly, these blocks provide a methodology to accumulate readout assignment errors in a long circuit sequence. We also show the importance of dynamic-decoupling in reducing ZZ crosstalk and measurement-induced phase errors during dynamic circuit blocks. When measured on an IBM Eagle device with appropriate dynamical decoupling, the results are consistent with measurement assignment error and the decoherence of the data qubit as the leading error sources.
title Randomized Benchmarking Protocol for Dynamic Circuits
topic Quantum Physics
url https://arxiv.org/abs/2408.07677