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Report . 2021
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Quantum GANs for ��������������(����������) Process Data Generation

descriptionPublicationkeyboard_double_arrow_right Report 19 Oct 2021Publisher:Zenodo
Authors: Togan Tlimakhov Yusuf, Eraraya Ricardo Muten, Andrei Voicu Tomut;

doi: 10.5281/zenodo.5577409 , 10.5281/zenodo.5577410

Quantum GANs for ��������������(����������) Process Data Generation

Abstract

In this report, we present the Deep Learning generative model GAN for the Higgs bosont ��������������(����������) process data generation. Initially, a classical GAN model is considered, with Convolutional layers, Batch Normalization layers, and a Leaky ReLU activation function. The GAN aims to simulate the Higgs process precisely, capturing the crucial features in each b-jet produced. Two b-jets were considered in this work, each possessing four features that were resized to fit the Neural Network training process, where a relatively decent Wasserstein distance was obtained. Subsequently, a Quantum GAN model was considered, where the Quantum Circuit consisted of Gaussian gates as a continuous variable architecture per the nature of the dataset constraint. Xanadu's both PennyLane and Strawberry Fields Python libraries were used on a continuous variable quantum neural networkbased, where obtaining comparable results with the classical benchmark was intended on the simulators, considering a smaller dataset with fewer features.

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summer-student programme, CERN openlab

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This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
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impulse
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