This paper introduces an algorithm for the construction of reduced-order macromodels of electrical interconnects starting from their sampled scattering responses. The produced macromodels embed in a closed-form an approximate dependence of the model equations on external parameters such as geometrical dimensions or material characteristics. The resulting parameterized models are easily cast as parameter-dependent SPICE netlists, which can be used for system-level Signal and Power Integrity assessment via numerical simulation, including sensitivity and optimization tasks. The main novel contribution of this work is the formulation of the model fitting equations in a decoupled form, which allows for a very efficient implementation in case of interconnects with a large number of interface ports, as typically required in Signal and Power Integrity applications. The parameterized models are guaranteed stable and passive for any configuration of the external parameters, thus ensuring stable transient numerical simulations.

A Scalable Reduced-Order Modeling Algorithm for the Construction of Parameterized Interconnect Macromodels from Scattering Responses / Bradde, T.; Grivet-Talocia, S.; De Stefano, M.; Zanco, A.. - ELETTRONICO. - (2018), pp. 650-655. (Intervento presentato al convegno 2018 IEEE Symposium on Electromagnetic Compatibility, Signal Integrity and Power Integrity (EMC, SI & PI) tenutosi a Long Beach (CA) USA nel 30 July-3 Aug, 2018) [10.1109/EMCSI.2018.8495287].

A Scalable Reduced-Order Modeling Algorithm for the Construction of Parameterized Interconnect Macromodels from Scattering Responses

Bradde, T.;Grivet-Talocia, S.;De Stefano, M.;Zanco, A.
2018

Abstract

This paper introduces an algorithm for the construction of reduced-order macromodels of electrical interconnects starting from their sampled scattering responses. The produced macromodels embed in a closed-form an approximate dependence of the model equations on external parameters such as geometrical dimensions or material characteristics. The resulting parameterized models are easily cast as parameter-dependent SPICE netlists, which can be used for system-level Signal and Power Integrity assessment via numerical simulation, including sensitivity and optimization tasks. The main novel contribution of this work is the formulation of the model fitting equations in a decoupled form, which allows for a very efficient implementation in case of interconnects with a large number of interface ports, as typically required in Signal and Power Integrity applications. The parameterized models are guaranteed stable and passive for any configuration of the external parameters, thus ensuring stable transient numerical simulations.
2018
978-1-5386-6621-0
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2717094
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