Readout Electronics for CBM-TOF Super Module Quality Evaluation

TL;DR

This paper presents a scalable readout electronics architecture for CBM-TOF super modules, capable of transmitting data at up to 6 Gbps using parallel Gigabit Ethernet-based modules, ensuring efficient quality evaluation.

Contribution

A novel parallel readout architecture based on Gigabit Ethernet is designed to achieve high-speed data transmission for CBM-TOF super module quality assessment.

Findings

System achieves 1.6 Gbps per readout group

Overall system meets 6 Gbps data rate requirement

Architecture offers good scalability for variable data rates

Abstract

A super module assembled with MRPC detectors is a component of TOF (Time of Flight) system for the Compressed Baryonic Matter (CBM) experiment. Before the super modules are applied to CBM-TOF, their quality needs to be evaluated. The readout electronics is confronted with a tremendous challenge of transmitting data at the maximal speed of 6 Gbps. In this paper, the readout method for CBM-TOF super module quality evaluation is presented. A parallel architecture based on the Gigabit Ethernet is designed to meet the requirement for data transmission rate. First, the data is sent from the front-end electronics to four readout module groups via optical fibers at the maximal rate of 1.5 Gbps per fiber. Next, the data are further distributed to sixteen parallel daughter readout models so that the maximal data throughput of each daughter readout module is 375 Mbps, within its capacity of 550 Mbps. Finally, the readout daughter modules send data to the data acquisition (DAQ) software through standard Gigabit Ethernet. The proposed readout method has the advantage of good scalability, so it can meet different requirements for variable data rate. The preliminary test result shows that each of four parallel readout groups can transmit data at the speed of 1.6 Gbps, which indicates that the overall readout system can meet the requirement for the maximal data-transmission speed of 6 Gbps.