J. A. Aguilar-Saavedra, E. Arganda, F. R. Joaquim, R. M. Sandá Seoane, J. F. Seabra
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引用次数: 0
摘要
质量无特定监督标记(MUST)方法已被证明能够成功地实现通用喷流标记器,能够在广泛的喷流质量范围内分辨各种信号。我们通过使用极端梯度提升(XGBoost)分类器来实现 MUST 概念,而不是像以前那样使用神经网络(NN)。我们建立了完全通用的和特定的多管齐下标记器,以便从 SM QCD 背景中识别出 2、3 和/或 4 管齐下信号。我们的研究表明,基于 XGBoost 的标记器不仅比基于 NN 的标记器更容易优化、速度更快,而且即使在使用训练中未使用的信号进行测试时,也能表现出相当相似的性能。因此,它们为通用射流标记器提供了一种相当高效的替代机器学习实现方法。
Gradient boosting MUST taggers for highly-boosted jets
The Mass Unspecific Supervised Tagging (MUST) method has proven to be successful in implementing generic jet taggers capable of discriminating various signals over a wide range of jet masses. We implement the MUST concept by using eXtreme Gradient Boosting (XGBoost) classifiers instead of neural networks (NNs) as previously done. We build both fully-generic and specific multi-pronged taggers, to identify 2, 3, and/or 4-pronged signals from SM QCD background. We show that XGBoost-based taggers are not only easier to optimize and much faster than those based in NNs, but also show quite similar performance, even when testing with signals not used in training. Therefore, they provide a quite efficient alternative machine-learning implementation for generic jet taggers.
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