A Fully Bidirectional Optical Network With Latency Monitoring Capability for the Distribution of Timing-Trigger and Control Signals in High-Energy Physics Experiments

Papakonstantinou I.; Soos C.; Papadopoulos S.; Detraz S.; Sigaud C.; Stejskal P.; Storey S.; Troska J.; Vasey F.; Darwazeh I.

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A Fully Bidirectional Optical Network With Latency Monitoring Capability for the Distribution of Timing-Trigger and Control Signals in High-Energy Physics Experiments

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

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The present paper discusses recent advances on a Passive Optical Network inspired Timing-Trigger and Control scheme for the future upgrade of the TTC system installed in the LHC experiments' and more specifically the currently known as TTCex to TTCrx link. The timing PON is implemented with commercially available FPGAs and 1-Gigabit Ethernet PON transceivers and provides a fixed latency gigabit downlink that can carry level-1 trigger accept decisions and commands as well as an upstream link for feedback from the front-end electronics.

机译：本文讨论了在无源光网络启发下的定时触发和控制方案的最新进展，该方案用于LHC实验中安装的TTC系统的未来升级，更具体地说是当前称为TTCex到TTCrx链路。定时PON由市售的FPGA和1千兆位以太网PON收发器实现，并提供了固定延迟的千兆位下行链路，该下行链路可以携带1级触发接受决策和命令以及上游链路，以接收前端电子设备的反馈。

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来源
《Nuclear Science, IEEE Transactions on 》 |2011年第4期| p.1628-1640| 共13页
作者
Papakonstantinou I.; Soos C.; Papadopoulos S.; Detraz S.; Sigaud C.; Stejskal P.; Storey S.; Troska J.; Vasey F.; Darwazeh I.;
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PH Department, CERN, CERN??European Organization for Nuclear Research, Geneva, Switzerland;

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正文语种 eng
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Field-programmable gate arrays and gigabit links; fixed and low latency serial links; passive optical networks in high energy physics experiments; timing trigger and control applications;

机译：现场可编程门阵列和千兆链路;固定和低延迟串行链路;高能物理实验中的无源光网络;定时触发和控制应用;

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专利

1. A Timing, Trigger, and Control System With Picosecond Precision Based on 10 Gbit/s Passive Optical Networks for High-Energy Physics [J] . Mendes Eduardo, Baron Sophie, Soos Csaba, IEEE Transactions on Nuclear Science . 2021 ,第4期

机译：基于10 Gbit / s无源光网络的PICOSECOND精度的定时，触发和控制系统，用于高能量物理学
2. Grid-enabled particle physics event analysis: experiences using a 10 Gb, high-latency network for a high-energy physics application [J] . W. Allcock, J. Bresnahan, J. Bunn, Future generation computer systems . 2003 ,第6期

机译：启用网格的粒子物理事件分析：使用10 Gb高延迟网络进行高能物理应用的经验
3. FF-LYNX: Fast and flexible electrical links for data acquisition and distribution of Timing, Trigger and Control signals in future High Energy Physics experiments [J] . G. Bianchi, R. Castaldi, L. Fanucci, Nuclear instruments and methods in physics research . 2010 ,第1a3期

机译：FF-LYNX：快速灵活的电气链路，用于未来高能物理实验中的定时，触发和控制信号的数据采集和分配
4. Passive Optical Networks for Timing-Trigger and Control applications in high energy physics experiments [C] . Papakonstantinou Ioannis, Soos Csaba, Papadopoulos Spyridon, 2010 17th IEEE-NPSS Real Time Conference : Conference Record . 2010

机译：用于高能物理实验中的定时触发和控制应用的无源光网络
5. Optical performance monitoring and signal processing to enable robust and reconfigurable optical networks. [D] . Yang, Jeng-Yuan. 2011

机译：光学性能监控和信号处理，以实现强大且可重新配置的光学网络。
6. A System for Analog Control of Cell Culture Dynamics to Reveal Capabilities of Signaling Networks [O] . Chaitanya S. Mokashi, David L. Schipper, Mohammad A. Qasaimeh, 2019

机译：细胞培养动力学模拟控制以揭示信号网络能力的系统
7. A Fully Bidirectional Optical Network With Latency Monitoring Capability for the Distribution of Timing-Trigger and Control Signals in High-Energy Physics Experiments [O] . Ioannis Papakonstantinou, Csaba Soos, Spyridon Papadopoulos, 2011

机译：具有延迟监控能力的全双向光网络，用于分配定时触发和控制信号在高能物理实验中的控制信号

A Fully Bidirectional Optical Network With Latency Monitoring Capability for the Distribution of Timing-Trigger and Control Signals in High-Energy Physics Experiments

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