Fast triggering in high-energy physics experiments using hardware neural networks

Denby B.; Garda P.; Granado B.; Kiesling C.; Prevotet J.-C.; Wassatsch A.

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Fast triggering in high-energy physics experiments using hardware neural networks

机译：使用硬件神经网络的高能物理实验中的快速触发

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摘要

High-energy physics experiments require high-speed triggering systems capable of performing complex pattern recognition at rates of Megahertz to Gigahertz. Neural networks implemented in hardware have been the solution of choice for certain experiments. The neural triggering problem is presented here via a detailed look at the H1 level 2 trigger at the HERA accelerator, Hamburg, Germany, followed by a section on the importance of hardware preprocessing for such systems, and finally some new architectural ideas for using field programmable gate arrays in very high-speed neural-network triggers at upcoming experiments.

机译：高能物理实验需要能够以兆赫兹至千兆赫兹的速率执行复杂模式识别的高速触发系统。在硬件中实现的神经网络已成为某些实验的首选解决方案。通过详细查看德国汉堡的HERA加速器的H1 2级触发，提出了神经触发问题，随后是关于此类系统的硬件预处理重要性的最后一节，最后是使用现场可编程控制器的一些新架构思想。高速神经网络中的门阵列将在即将进行的实验中触发。

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《IEEE Transactions on Neural Networks》 |2003年第5期|p.1010-1027|共18页
作者
Denby B.; Garda P.; Granado B.; Kiesling C.; Prevotet J.-C.; Wassatsch A.;
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Lab. des Instrum. et Syst. d'Ile de France, Univ. Pierre et Marie Curie, Paris, France;

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原文格式 PDF
正文语种 eng
中图分类自动化技术、计算机技术;
关键词
nuclear electronics; storage rings; particle accelerators; trigger circuits; high energy physics instrumentation computing; pattern recognition; field programmable gate arrays; neural nets; fast triggering; high-energy physics experiments; hardware neural networks; high-speed triggering systems; pattern recognition; H1 level 2 trigger; HERA accelerator; Hamburg; Germany; hardware preprocessing; architectural ideas; field programmable gate arrays; very high-speed neural-network triggers; FPGA;

机译：核电子学;存储环;粒子加速器;触发电路;高能物理仪器计算;模式识别;现场可编程门阵列;神经网络;快速触发;高能物理实验;硬件神经网络;高速触发系统;模式识别;H1 2级触发器;HERA加速器;汉堡;德国;硬件预处理;体系结构思想;现场可编程门阵列;非常高速的神经网络触发器;FPGA;

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专利

1. Fast online triggering in high-energy physics experiments using GPUs [J] . G. Collazuol, G. Lamanna, J. Pinzino, Nuclear Instruments & Methods in Physics Research . 2012,第1期

机译：使用GPU在高能物理实验中快速在线触发
2. A Fully Bidirectional Optical Network With Latency Monitoring Capability for the Distribution of Timing-Trigger and Control Signals in High-Energy Physics Experiments [J] . Papakonstantinou I., Soos C., Papadopoulos S., Nuclear Science, IEEE Transactions on . 2011,第4期

机译：具有延迟监视功能的全双向光网络，用于在高能物理实验中分配定时触发和控制信号
3. Fast and resource-efficient Deep Neural Network on FPGA for the Phase-II Level-0 muon barrel trigger of the ATLAS experiment [J] . Stefano Giagu EPJ Web of Conferences . 2020,第4期

机译：FPGA的快速和资源高效的深度神经网络，适用于地图集实验的II级-0 muon枪管触发器
4. Hardware solutions for implementation of neural networks in High Energy Physics triggers [C] . J.-C. Prevotet, B.Denby, P.Garda, European symposium on artificial neural networks . 2002

机译：高能量物理学中神经网络实施的硬件解决方案触发器
5. Applications of neural networks in high-energy physics. [D] . Tayebnejad, Mohammad Reza. 1997

机译：神经网络在高能物理中的应用。
6. CLUE: A Fast Parallel Clustering Algorithm for High Granularity Calorimeters in High-Energy Physics [O] . Marco Rovere, Ziheng Chen, Antonio Di Pilato, 2020

机译：线索：高能量物理中的高粒度热量计快速平行聚类算法
7. Fast Triggering in High Energy Physics Experiments Using Hardware Neural Networks [O] . B. Denby, P. Garda, B. Granado, 2008

机译：使用硬件神经网络的高能物理实验中的快速触发

Fast triggering in high-energy physics experiments using hardware neural networks

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