Carla Rieger scite author profile

Carla Rieger

5Publications

17Citation Statements Received

49Citation Statements Given

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Affiliations

Board of the Swiss Federal Institutes of Technology, ETH Zurich

Publications

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Hybrid quantum classical graph neural networks for particle track reconstruction

Tüysüz

Rieger

Novotny³

et al. 2021

Quantum Mach. Intell.

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The Large Hadron Collider (LHC) at the European Organisation for Nuclear Research (CERN) will be upgraded to further increase the instantaneous rate of particle collisions (luminosity) and become the High Luminosity LHC (HL-LHC). This increase in luminosity will significantly increase the number of particles interacting with the detector. The interaction of particles with a detector is referred to as “hit”. The HL-LHC will yield many more detector hits, which will pose a combinatorial challenge by using reconstruction algorithms to determine particle trajectories from those hits. This work explores the possibility of converting a novel graph neural network model, that can optimally take into account the sparse nature of the tracking detector data and their complex geometry, to a hybrid quantum-classical graph neural network that benefits from using variational quantum layers. We show that this hybrid model can perform similar to the classical approach. Also, we explore parametrized quantum circuits (PQC) with different expressibility and entangling capacities, and compare their training performance in order to quantify the expected benefits. These results can be used to build a future road map to further develop circuit-based hybrid quantum-classical graph neural networks.

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Embedding of particle tracking data using hybrid quantum-classical neural networks

Rieger

Tüysüz

Novotny³

et al. 2021

EPJ Web Conf.

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The High Luminosity Large Hadron Collider (HL-LHC) at CERN will involve a significant increase in complexity and sheer size of data with respect to the current LHC experimental complex. Hence, the task of reconstructing the particle trajectories will become more involved due to the number of simultaneous collisions and the resulting increased detector occupancy. Aiming to identify the particle paths, machine learning techniques such as graph neural networks are being explored in the HEP.TrkX project and its successor, the Exa.TrkX project. Both show promising results and reduce the combinatorial nature of the problem. Previous results of our team have demonstrated the successful attempt of applying quantum graph neural networks to reconstruct the particle track based on the hits of the detector. A higher overall accuracy is gained by representing the training data in a meaningful way within an embedded space. That has been included in the Exa.TrkX project by applying a classical MLP. Consequently, pairs of hits belonging to different trajectories are pushed apart while those belonging to the same ones stay close together. We explore the applicability of variational quantum circuits that include a relatively low number of qubits applicable to NISQ devices within the task of embedding and show preliminary results.

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Thermodynamics as Combinatorics: A Toy Theory

Baumeler

Rieger

Wolf

2022

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Quantum track reconstruction algorithms for non-HEP applications

Novotny¹,

Tüysüz²,

Rieger³

et al. 2021

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Exploring hybrid quantum-classical neural networks for particle tracking

Rieger¹

2020

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Carla Rieger

Hybrid quantum classical graph neural networks for particle track reconstruction

Embedding of particle tracking data using hybrid quantum-classical neural networks

Thermodynamics as Combinatorics: A Toy Theory

Quantum track reconstruction algorithms for non-HEP applications

Exploring hybrid quantum-classical neural networks for particle tracking

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