Abstract
Time synchronization is a critical feature for many scientific facilities and industrial infrastructures. The required performance is progressively increasing everyday, for instance, few tens of nanoseconds for Fifth Generation (5G) networks or sub-nanosecond accuracy on next family of particle accelerators and astrophysics telescopes. Due to this exigent accuracy, many applications require specific timing dedicated networks, increasing the system cost and complexity. Under this context, the new IEEE 1588-2019 High Accuracy (HA) default profile is intensively based on White Rabbit (WR) which can provide sub-nanosecond accurate synchronization for Ethernet networks. However, current WR solutions have not been designed to work properly with high data bandwidth delivery services even in 1 Gigabit Ethernet (GbE) links. On this contribution, the authors propose a new architecture design that enables WR and, consequently, the IEEE 1588-2019 HA profile to be deployed over 10 GbE links solving the already identified data bandwidth problem. Furthermore, this work addresses different experiments needed to characterize the system performance in terms of time synchronization and data transfer. As final result, this contribution presents for the first time in the literature a new WR system which allows high bandwidth data exchange in 10 GbE networks while providing sub-nanosecond accuracy synchronization. The proposed solution maintains the time synchronization performance of existing WR 1 GbE devices with significant advantages in terms of latency and data bandwidth, enabling its deployment in applications that integrate data and synchronization information in the same network.
Highlights
T IME synchronization is a key factor for many applications in the Information Technology (IT) age
Phase noise is the instability of a frequency expressed in the frequency domain and it is relevant and widely used to evaluate the timing performance on applications related to Radio Frequency (RF) systems, radars or telecommunication links
Jitter is the fluctuation of the signal waveform in the time domain measured with standard estimators [44] (ITUT) such as Maximum Time Interval Error (MTIE) and Time Deviation (TDEV)
Summary
T IME synchronization is a key factor for many applications in the Information Technology (IT) age. Synchronization is the cornerstone for industrial infrastructures from strategic sectors as telecommunication, smart grids, finance, data centers, Internet of Things (IoT), avionics and new generation networks [1], [2] This variety of applications and requirements has motivated the development of standard protocols such as Network Time Protocol (NTP) [3] and IEEE 1588 [4]. In terms of synchronization accuracy, NTP is able to provide millisecond-scale whilst IEEE 1588 usually ensures a microsecond-scale performance [5], it can be improved up to hundreds or even tens of nanoseconds using specific configurations These time synchronization protocols do not fulfill synchronization requirements for many new applications and they are not suitable for their systems, motivating the development of more advanced synchronization technologies such as White Rabbit (WR) [6], [7]. For the sake of completeness, some relevant cases are briefly described here:
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