We describe an effcient system-level simulator that, starting from the architecture of a well-specified transmissive medium (a channel modelled as single-ended or coupled differential microstrips plus cables) and including the system-level characteristics of transmitter and receiver (voltage swing, impedance, etc.), computes the eye diagram and the bit-error rate that is obtained in high-speed serial interfaces. Various equalization techniques are included, such as feed-forward equalization at the transmitter, continuous-time linear equalization and decision-feedback equalization at the receiver. The impact of clock and data jitter on the overall system performance can easily be taken into account and fully-adaptive equalization can be simulated without increasing the computational burden or the model’s complexity.
A Simple Modelling Tool for Fast Combined Simulation of Interconnections, Inter-Symbol Interference and Equalization in High-Speed Serial Interfaces for Chip-to-Chip Communications / Menin, Davide; Bernardi, Thomas; Cortiula, Alessio; Dazzi, Martino; Prà, Alessio De; Marcon, Mattia; Scapol, Marco; Bandiziol, Andrea; Brandonisio, Francesco; Cristofoli, Andrea; Grollitsch, Werner; Nonis, Roberto; Palestri, Pierpaolo. - In: ADVANCES IN SCIENCE, TECHNOLOGY AND ENGINEERING SYSTEMS JOURNAL. - ISSN 2415-6698. - 5:2(2020), pp. 527-536. [10.25046/aj050266]
A Simple Modelling Tool for Fast Combined Simulation of Interconnections, Inter-Symbol Interference and Equalization in High-Speed Serial Interfaces for Chip-to-Chip Communications
Palestri, Pierpaolo
2020
Abstract
We describe an effcient system-level simulator that, starting from the architecture of a well-specified transmissive medium (a channel modelled as single-ended or coupled differential microstrips plus cables) and including the system-level characteristics of transmitter and receiver (voltage swing, impedance, etc.), computes the eye diagram and the bit-error rate that is obtained in high-speed serial interfaces. Various equalization techniques are included, such as feed-forward equalization at the transmitter, continuous-time linear equalization and decision-feedback equalization at the receiver. The impact of clock and data jitter on the overall system performance can easily be taken into account and fully-adaptive equalization can be simulated without increasing the computational burden or the model’s complexity.
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