Title :
Transient Behavioral Modeling of Nonlinear I/O Drivers Combining Neural Networks and Equivalent Circuits
Author :
Cao, Yi ; Erdin, Ihsan ; Zhang, Qi-Jun
Author_Institution :
Res. In Motion Ltd., Waterloo, ON, Canada
Abstract :
In this letter, a new method for nonlinear behavioral modeling of high-speed I/O drivers is presented, combining neural networks with driver specific circuit knowledge. In the proposed technique, the circuit knowledge of the driver is exploited to preserve the physical property of the driver. In addition, several neural network sub-models are incorporated into the overall model structure to effectively compensate the missing information in the existing buffer models, when dealing with analog input signals of various shapes. The validity and efficiency of the proposed technique are demonstrated through the modeling of a commercial I/O driver and the use of the resulting model for signal integrity simulations.
Keywords :
analogue circuits; circuit analysis computing; driver circuits; equivalent circuits; neural nets; nonlinear network analysis; transient analysis; analog input signals; commercial I-O driver; driver specific circuit knowledge; equivalent circuits; high-speed I-O drivers; neural network submodels; neural networks; nonlinear I-O drivers; nonlinear behavioral modeling; signal integrity simulations; transient behavioral modeling; Artificial neural networks; Data models; Driver circuits; Equivalent circuits; Integrated circuit modeling; Transient analysis; Behavioral modeling; I/O buffers; neural networks; signal integrity;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2010.2080670
