具有ATLAS 1级量热计触发系统的调试经验

2007 15th IEEE-NPSS Real-Time Conference Pub Date : 2007-11-12 DOI:10.1109/RTC.2007.4382863

R. Achenbach, P. Adragna, V. Andrei, B. Barnett, B. Bauss, M. Bendel, C. Bohm, J. Booth, L. Brawn, D. Charlton, C. Curtis, A. Davis, E. Eisenhandler, P. Faulkner, F. Fohlisch, C. Gee, C. Geweniger, A. Gillman, P. Hanke, S. Hellman, A. Hidvégi, S. Hillier, M. Johansen, E. Kluge, M. Landon, V. Lendermann, K. Mahboubi, G. Mahout, K. Meier, V. Perera, D. Prieur, W. Qian, S. Rieke, F. Ruhr, D. Sankey, U. Schafer, K. Schmitt, H. Schultz-Coulon, S. Silverstein, R. Staley, R. Stamen, S. Tapprogge, J.P. Thomas, T. Trefzger, P. Watkins, A. Watson, P. Weber, E. Woehrling

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摘要

ATLAS 1级量热计触发器是大型强子对撞机ATLAS实验第一阶段事件选择的主要组成部分之一。输入级由混合模拟/数字组件组成，从ATLAS量热计中获取触发和。触发逻辑在数字流水线系统中执行，具有多个处理阶段，主要基于fpga，以固定延迟并行执行可编程算法，处理约300gbyte /s的输入数据。实时输出包括不同类型物理对象的计数和能量总和。最终模块的生产始于2006年，在ATLAS上安装这些模块和必要的基础设施已经进行了一段时间，目的是在2007年大型强子对撞机首次碰撞之前，在现场建立一个完整的系统。将介绍调试和运行全尺寸系统的初步经验，以及与上游量热计、下游触发和数据流系统进行的集成测试的结果。

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Commissioning Experience with the ATLAS Level-1 Calorimeter Trigger System

The ATLAS Level-1 Calorimeter Trigger is one of the main elements of the first stage of event selection for the ATLAS experiment at the LHC. The input stage consists of a mixed analogue/digital component taking trigger sums from the ATLAS calorimeters. The trigger logic is performed in a digital, pipelined system with several stages of processing, largely based on FPGAs, which perform programmable algorithms in parallel with a fixed latency to process about 300 Gbyte/s of input data. The real-time output consists of counts of different types of physics objects and energy sums. The production of final modules started in 2006, and installation of these modules and the necessary infrastructure at ATLAS has been underway for some time, with the intention of having a full system in situ during 2007, before first collisions at the LHC. The first experiences of commissioning and running the full scale system will be presented, along with results from integration tests performed with the upstream calorimeters, and the downstream trigger and data flow systems.

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2007 15th IEEE-NPSS Real-Time Conference

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