Papers

Topics

Authors

Recent

View all

Detailed Answer

Quick Answer

Concise responses based on abstracts only

Detailed Answer

Well-researched responses based on abstracts and relevant paper content.

Custom Instructions Pro

Preferences or requirements that you'd like Emergent Mind to consider when generating responses

Gemini 2.5 Flash

Gemini 2.5 Flash 37 tok/s

Gemini 2.5 Pro 44 tok/s Pro

GPT-5 Medium 14 tok/s Pro

GPT-5 High 14 tok/s Pro

GPT-4o 90 tok/s Pro

Kimi K2 179 tok/s Pro

GPT OSS 120B 462 tok/s Pro

Claude Sonnet 4 37 tok/s Pro

2000 character limit reached

Quantum Convolutional Neural Networks for High Energy Physics Data Analysis (2012.12177v1)

Published 22 Dec 2020 in cs.LG, cs.AI, hep-ex, physics.data-an, and quant-ph

Abstract: This work presents a quantum convolutional neural network (QCNN) for the classification of high energy physics events. The proposed model is tested using a simulated dataset from the Deep Underground Neutrino Experiment. The proposed architecture demonstrates the quantum advantage of learning faster than the classical convolutional neural networks (CNNs) under a similar number of parameters. In addition to faster convergence, the QCNN achieves greater test accuracy compared to CNNs. Based on experimental results, it is a promising direction to study the application of QCNN and other quantum machine learning models in high energy physics and additional scientific fields.

Citations (84)

View on Semantic Scholar