L1触发器的轨迹聚类和顶点化算法

IEEE Nuclear Science Symposium Conference Record, 2005 Pub Date : 2005-10-01 DOI:10.1109/NSSMIC.2005.1596250

G. Cancelo

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引用次数: 0

摘要

被取消的BTeV实验(由费米实验室的Tevatron提出)的关键之一是其复杂的三能级触发器。该触发器被设计为拒绝99.9%的轻夸克背景事件，并保留大量的B衰变。BTeV像素检测器提供了一个三维、高分辨率的跟踪系统来检测B信号。提出了1级像素检测器触发的两阶段过程，即轨迹段查找和顶点查找，并对每个加速器交叉点进行分析。在模拟中，轨迹段发现者阶段平均输出200个轨迹段每加速器交叉(2.5 MHz)。顶点化阶段查找顶点，并将轨迹段与找到的顶点关联起来。本文提出了一种新的自适应模式识别模型，用于寻找顶点的数量和估计位置，并在这些顶点周围聚类轨道段。轨迹聚类和顶点查找并行完成。模式识别模型还生成其他重要参数的估计，如聚类顶点的协方差矩阵和计算分离轨道所需的轨道到顶点的最小距离。

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Track clustering and vertexing algorithm for L1 trigger

One of the keystones of the canceled BTeV experiment (proposed at Fermilab's Tevatron) was its sophisticated three-level trigger. The trigger was designed to reject 99.9% of light-quark background events and retain a large number of B decays. The BTeV pixel detector provided a 3-dimensional, high resolution tracking system to detect B signatures. The level 1 pixel detector trigger was proposed as a two stage process, a track-segment finder and a vertex finder which analyzed every accelerator crossing. In simulations the track-segment finder stage outputs an average of 200 track-segments per accelerator crossing (2.5 MHz). The vertexing stage finds vertices and associates track-segments with the vertices found. This paper proposes a novel adaptive pattern recognition model to find the number and the estimated location of vertices, and to cluster track-segments around those vertices. The track clustering and vertex finding is done in parallel. The pattern recognition model also generates the estimate of other important parameters such as the covariance matrix of the cluster vertices and the minimum distances from the tracks to the vertices needed to compute detached tracks.

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IEEE Nuclear Science Symposium Conference Record, 2005

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