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Hypothesis Testing for Error Mitigation: How to Evaluate Error Mitigation
, 2023 In the noisy intermediate-scale quantum (NISQ) era, quantum error mitigation will be a necessary tool to extract useful performance out of quantum devices. However, there is a big gap between the noise models often assumed by error mitigation techniques and the actual noise on quantum devices.
Saki, Abdullah Ash +3 more
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Variational Quantum‐Neural Hybrid Error Mitigation
Advanced Quantum Technologies, 2023 Abstract Quantum error mitigation (QEM) is crucial for obtaining reliable results on quantum computers by suppressing quantum noise with moderate resources. It is a key factor for successful and practical quantum algorithm implementations in the noisy intermediate scale quantum (NISQ) era. Since quantum‐classical hybrid algorithms can
Shi‐Xin Zhang +4 more
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Error mitigation for quantum approximate optimization
Physical Review A, 2023 Solving optimization problems on near term quantum devices requires developing error mitigation techniques to cope with hardware decoherence and dephasing processes. We propose a mitigation technique based on the LHZ architecture. This architecture uses a redundant encoding of logical variables to solve optimization problems on fully programmable ...
Anita Weidinger +2 more
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The application of iterative equalisation to high data rate wireless personal area networks [PDF]
, 2002 There is increasing demand for broadband wireless personal area networking devices, mainly fuelled by mobile multimedia applications such as wireless home networks. This paper investigates the suitability of iterative equalisation as a means of achieving
Fletcher, PN +3 more
core +2 more sources
Modelling for Quantum Error Mitigation [PDF]
2021 IEEE 18th International Conference on Software Architecture Companion (ICSA-C), 2021 While we expect quantum computers to surpass their classical counterparts in the future, current devices are prone to high error rates and techniques to minimise the impact of these errors are indispensable. There already exists a variety of error mitigation methods addressing this quantum noise that differ in effectiveness, and scalability.
Weber, Tom +4 more
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Digital zero noise extrapolation for quantum error mitigation
, 2021 Zero-noise extrapolation (ZNE) is an increasingly popular technique for mitigating errors in noisy quantum computations without using additional quantum resources.
Giurgica-Tiron, Tudor +4 more
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Conditionally Rigorous Mitigation of Multiqubit Measurement Errors [PDF]
Physical Review Letters, 2021 Several techniques have been recently introduced to mitigate errors in near-term quantum computers without the overhead required by quantum error correcting codes. While most of the focus has been on gate errors, measurement errors are significantly larger than gate errors on some platforms. A widely used {\it transition matrix error mitigation} (TMEM)
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Pauli Error Propagation-Based Gate Rescheduling for Quantum Circuit Error Mitigation
IEEE Transactions on Quantum Engineering, 2022 Noisy intermediate-scale quantum algorithms, which run on noisy quantum computers, should be carefully designed to boost the output state fidelity. While several compilation approaches have been proposed to minimize circuit errors, they often omit the ...
Vedika Saravanan, Samah M. Saeed
doaj +1 more source
Mitigation of cross-saturation effects in resonance-based sensorless switched reluctance drives [PDF]
, 2010 The stator and rotor yoke in a switched reluctance motor form magnetic circuit parts that are typically shared by different phases. If these parts saturate due to the excitation of one phase, this will lead to a change of the magnetic characteristics of ...
Geldhof, Kristof +2 more
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Error Mitigation for Short-Depth Quantum Circuits [PDF]
Physical Review Letters, 2017 new journal reference and updated ...
Temme, Kristan +2 more
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