ATLAS的FTK处理器的联想内存板

2013 IEEE Nuclear Science Symposium and Medical Imaging Conference (2013 NSS/MIC) Pub Date : 2013-11-15 DOI:10.1109/NSSMIC.2013.6829752

D. Calabró, R. Cipriani, S. Citraro, S. Donati, P. Giannetti, A. Lanza, P. Luciano, D. Magalotti, M. Piendibene

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引用次数: 1

摘要

联想记忆(AM)系统是FastTracker (FTK)处理器的主要组成部分，设计用于使用ATLAS实验中硅跟踪探测器的信息进行模式匹配。它找到低分辨率的候选轨道，并将其发送到轨道拟合阶段。该系统必须支持具有挑战性的数据流量，由一组具有低功耗千兆收发器(GTPs)的现代低成本fpga Xilinx Artix 7芯片处理。每个GTP是一个组合的发射器和接收器，能够以高达7 Gb/s的数据速率运行。本文介绍了基于串行I/O的新型调幅芯片设计的最新版本调幅系统的设计和初步测试。给出了最终系统的功耗估计，并描述了冷却系统的设计。报告了第一次冷却试验结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Associative Memory Boards for the FTK processor at ATLAS

The Associative Memory (AM) system, a major component of the FastTracker (FTK) processor, is designed to perform pattern matching using the information from the silicon tracking detectors of the ATLAS experiment. It finds track candidates at low resolution that are sent to the track fitting stage. The system has to support challenging data traffic, handled by a group of modern low-cost FPGAs, the Xilinx Artix 7 chips, which have Low-Power Gigabit Transceivers (GTPs). Each GTP is a combined transmitter and receiver capable of operating at data rates up to 7 Gb/s. The paper reports on the design and initial tests of the most recent version of the AM system, based on the new AM chip design which uses serialized I/O. An estimation of the power consumption of the final system is also provided and the cooling system design is described. The first cooling test results are reported.

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2013 IEEE Nuclear Science Symposium and Medical Imaging Conference (2013 NSS/MIC)

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