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Efﬁcient Data Compression for 3D Sparse TPC via Bicephalous Convolutional Autoencoder

Real-time data collection and analysis in large experimental facilities present a great challenge across multiple domains, including high energy physics, nuclear physics, and cosmology. To address this, machine learning (ML)-based methods for real-time data compression have drawn significant attention. However, unlike natural image data, such as CIFAR and ImageNet that are relatively small-sized and continuous, scientific data often come in as three-dimensional (3D) data volumes at high rates with high sparsity (many zeros) and non-Gaussian value distribution.

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Cite this as

Yi Huang, Yihui Ren, Shinjae Yoo, Jin Huang (2024). Dataset: Efﬁcient Data Compression for 3D Sparse TPC via Bicephalous Convolutional Autoencoder. https://doi.org/10.57702/qmvzf6r4

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Additional Info

Field	Value
Created	December 16, 2024
Last update	December 16, 2024
Author	Yi Huang
More Authors	Yihui Ren Shinjae Yoo Jin Huang