Event-Driven Model for High Speed End-to-End Simulations of Transmission System with Non-Linear Optical Elements and Cascaded Clock-and-Data Recovery Circuits
2019 International Symposium on VLSI Design, Automation and Test (VLSI-DAT)(2019)
摘要
We describe a new end-to-end model for simulating high-speed transmission systems with electrical-to-optical and optical-to-electrical converters and the accompanying clock-and-data recovery (CDR) circuits. This developed model properly handles multiple CDR circuits cascaded in the system, is implemented in Simulink, and runs in an event-driven mode to reduce the simulation time. In this model, an optical signal is generated by solving the rate equation to represent the non-linear characteristics of the signal. The calculation speed is 10 times higher than that of the IBIS-AMI model. Our model allows us to simulate an end-to-end jitter analysis for signal transmission systems.
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关键词
optical signal generation,cascaded clock-and-data recovery circuits,electrical-to-optical converter,rate equation,simulation time reduction,Simulink,signal transmission systems,end-to-end jitter analysis,IBIS-AMI model,calculation speed,nonlinear characteristics,event-driven mode,multiple CDR circuits,optical-to-electrical converters,high-speed transmission systems,end-to-end model,nonlinear optical elements,transmission system,high speed end-to-end simulations,event-driven model
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