新型LpGBT-FPGA IP:仿真模型与首次实现

Proceedings of Topical Workshop on Electronics for Particle Physics — PoS(TWEPP2018) Pub Date : 2019-05-21 DOI:10.22323/1.343.0059

J. Mendez, S. Baron, S. Kulis, J. Fonseca

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引用次数: 6

摘要

在高能物理实验中，高速链路常用于数据采集、触发和时序分配。因此，为了满足后端电子和计算系统日益增长的带宽需求，正在开发一种抗辐射链路。在这个框架中，GBTx SERDES的演进版lgbbt正在设计中，预计将安装在CMS和ATLAS中进行第二阶段升级。提出了lpbt - fpga IP核，以提供lpbt的后端对应物。本文介绍了IP体系结构及其发展现状和未来的步骤。

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New LpGBT-FPGA IP: Simulation model and first implementation

High-speed links are commonly used in High Energy Physics experiments for data acquisition, trigger and timing distribution. For this reason, a radiation-hard link is being developed in order to match the increasing bandwidth demand of the backend electronics and computing systems. In this framework, the LpGBT - which is the evolution of the GBTx SERDES - is being designed and is foreseen to be installed in CMS and ATLAS for Phase-2 upgrades. The LpGBT-FPGA IP core is proposed to offer a backend counterpart of the LpGBT. This paper presents the IP architecture, the status of its development and future steps.

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Proceedings of Topical Workshop on Electronics for Particle Physics — PoS(TWEPP2018)

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