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Main Authors: Maschek, Stefan Raimund, Schwitalla, Jürgen, Franz, Maja, Mauerer, Wolfgang
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.03636
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author Maschek, Stefan Raimund
Schwitalla, Jürgen
Franz, Maja
Mauerer, Wolfgang
author_facet Maschek, Stefan Raimund
Schwitalla, Jürgen
Franz, Maja
Mauerer, Wolfgang
contents Noise and imperfections are among the prevalent challenges in quantum software engineering for current NISQ systems. They will remain important in the post-NISQ area, as logical, error-corrected qubits will be based on software mechanisms. As real quantum hardware is still limited in size and accessibility, noise models for classical simulation--that in some cases can exceed dimensions of actual systems--play a critical role in obtaining insights into quantum algorithm performance, and the properties of mechanisms for error correction and mitigation. We present, implement and validate a tunable noise model building on the Kraus channel formalism on a large scale quantum simulator system (Qaptiva). We use empirical noise measurements from IBM quantum (IBMQ) systems to calibrate the model and create a realistic simulation environment. Experimental evaluation of our approach with Greenberger-Horne-Zeilinger (GHZ) state preparation and QAOA applied to an industrial use-case validate our approach, and demonstrate accurate simulation of hardware behaviour at reasonable computational cost. We devise and utilise a method that allows for determining the quality of noise models for larger problem instances than is possible with existing metrics in the literature. To identify potentials of future quantum software and algorithms, we extrapolate the noise model to future partially fault-tolerant systems, and give insights into the interplay between hardware-specific noise modelling and hardware-aware algorithm development.
format Preprint
id arxiv_https___arxiv_org_abs_2506_03636
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Make Some Noise! Measuring Noise Model Quality in Real-World Quantum Software
Maschek, Stefan Raimund
Schwitalla, Jürgen
Franz, Maja
Mauerer, Wolfgang
Quantum Physics
Noise and imperfections are among the prevalent challenges in quantum software engineering for current NISQ systems. They will remain important in the post-NISQ area, as logical, error-corrected qubits will be based on software mechanisms. As real quantum hardware is still limited in size and accessibility, noise models for classical simulation--that in some cases can exceed dimensions of actual systems--play a critical role in obtaining insights into quantum algorithm performance, and the properties of mechanisms for error correction and mitigation. We present, implement and validate a tunable noise model building on the Kraus channel formalism on a large scale quantum simulator system (Qaptiva). We use empirical noise measurements from IBM quantum (IBMQ) systems to calibrate the model and create a realistic simulation environment. Experimental evaluation of our approach with Greenberger-Horne-Zeilinger (GHZ) state preparation and QAOA applied to an industrial use-case validate our approach, and demonstrate accurate simulation of hardware behaviour at reasonable computational cost. We devise and utilise a method that allows for determining the quality of noise models for larger problem instances than is possible with existing metrics in the literature. To identify potentials of future quantum software and algorithms, we extrapolate the noise model to future partially fault-tolerant systems, and give insights into the interplay between hardware-specific noise modelling and hardware-aware algorithm development.
title Make Some Noise! Measuring Noise Model Quality in Real-World Quantum Software
topic Quantum Physics
url https://arxiv.org/abs/2506.03636