利用增强神经网络建立振子行为模型的方法

2017 IEEE 26th Conference on Electrical Performance of Electronic Packaging and Systems (EPEPS) Pub Date : 2017-10-01 DOI:10.1109/EPEPS.2017.8329714

Huan Yu, M. Swaminathan, C. Ji, David White

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引用次数: 7

摘要

本文介绍了一种利用增强神经网络对振子的非线性时域行为进行建模的新技术。该方法采用带周期单元的前馈神经网络捕获振荡输出波形的周期性。与基于微分方程系统的状态空间模型相反，振荡器的输出是使用本文提出的神经网络显式生成的。利用晶体管级电路模型仿真得到的数据对模型进行训练。应用于环形振荡器的实例表明，基于CPU时间和精度，该方法具有优势。该模型与Verilog-A兼容。

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A method for creating behavioral models of oscillators using augmented neural networks

This paper describes a novel technique to model the nonlinear time-domain behavior of oscillators using augmented neural networks. In the proposed method, a feed forward neural network with a periodic unit is used to capture the periodicity of the oscillatory output waveform. As opposed to the state space model, which is based on a system of differential equations, the output of the oscillator is generated explicitly using the neural network presented in this paper. The model is trained using the data obtained from the simulation of transistor-level circuit models. Examples applied to ring oscillators show the advantages using this method based on CPU time and accuracy. The proposed model is compatible with Verilog-A.

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2017 IEEE 26th Conference on Electrical Performance of Electronic Packaging and Systems (EPEPS)

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