Deep Learning for Real-Time Top Quark Jet Tagging
Deep-Learning-for-Real-Time-Top-Jet-Tagging
End-to-end MATLAB® workflow for Real-Time Top Quark Jet Tagging is presented. Live script contains a predictive model, based on deep convolutional neural network, that discriminates top quark (signal) jets from QCD plain vanilla (background) jets. Besides a predictive model, the workflow presented includes: accessing and preprocessing particle scattering data, transforming jets to 2D images, and code generation for deployment of the network on FPGA.
Setup
To Run:
- Download particle jets open datasets as instructed in the Reference Datasets section of the Live script. Open Python, import part of the randomly sampled data as pandas dataframes and save in parquet format.
- Import parquet data as a MATLAB table, preprocess jets to images and save to disc.
- Build deep convolusional neural network using App designer® and train network using training datasets.
- Check accuracy of the network on test datasets.
- Deploy trained network on FPGA following Deploy Trained Network on FPGA section of the Live script.
MathWorks Products (https://www.mathworks.com)
Requires MATLAB release R2020a or newer
Citation pour cette source
Temo Vekua (2024). Deep Learning for Real-Time Top Quark Jet Tagging (https://github.com/MathWorks-Teaching-Resources/Deep-Learning-for-Real-Time-Top-Jet-Tagging), GitHub. Extrait(e) le .
Compatibilité avec les versions de MATLAB
Plateformes compatibles
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Version | Publié le | Notes de version | |
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1.2.0 | included image |
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1.1.0 | connected to github |
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1.0.0 |