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Auto-generation of passive scalable macromodels for microwave components using scattered sequential sampling

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Abstract
This paper presents a method for automatic construction of stable and passive scalable macromodels for parameterized frequency responses. The method requires very little prior knowledge to build the scalable macromodels thereby considerably reducing the burden on the designers. The proposed method uses an efficient scattered sequential sampling strategy with as few expensive simulations as possible to generate accurate macromodels for the system using state-of-the-art scalable macromodeling methods. The scalable macromodels can be used as a replacement model for the actual simulator in overall design processes. Pertinent numerical results validate the proposed sequential sampling strategy.
Keywords
CAD-MODEL CONSTRUCTION, IBCN, CAUCHY METHOD, RESPONSES, INTERPOLATION, PARTITIONS, Modeling, Simulation and Characterizations of devices and circuits, Passive components and circuits

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Citation

Please use this url to cite or link to this publication:

Chicago
Chemmangat Manakkal Cheriya, Krishnan, Tom Dhaene, and Luc Knockaert. 2014. “Auto-generation of Passive Scalable Macromodels for Microwave Components Using Scattered Sequential Sampling.” International Journal of Microwave and Wireless Technologies 6 (6): 591–602.
APA
Chemmangat Manakkal Cheriya, K., Dhaene, T., & Knockaert, L. (2014). Auto-generation of passive scalable macromodels for microwave components using scattered sequential sampling. INTERNATIONAL JOURNAL OF MICROWAVE AND WIRELESS TECHNOLOGIES, 6(6), 591–602.
Vancouver
1.
Chemmangat Manakkal Cheriya K, Dhaene T, Knockaert L. Auto-generation of passive scalable macromodels for microwave components using scattered sequential sampling. INTERNATIONAL JOURNAL OF MICROWAVE AND WIRELESS TECHNOLOGIES. 2014;6(6):591–602.
MLA
Chemmangat Manakkal Cheriya, Krishnan, Tom Dhaene, and Luc Knockaert. “Auto-generation of Passive Scalable Macromodels for Microwave Components Using Scattered Sequential Sampling.” INTERNATIONAL JOURNAL OF MICROWAVE AND WIRELESS TECHNOLOGIES 6.6 (2014): 591–602. Print.
@article{5871419,
  abstract     = {This paper presents a method for automatic construction of stable and passive scalable macromodels for parameterized frequency responses. The method requires very little prior knowledge to build the scalable macromodels thereby considerably reducing the burden on the designers. The proposed method uses an efficient scattered sequential sampling strategy with as few expensive simulations as possible to generate accurate macromodels for the system using state-of-the-art scalable macromodeling methods. The scalable macromodels can be used as a replacement model for the actual simulator in overall design processes. Pertinent numerical results validate the proposed sequential sampling strategy.},
  author       = {Chemmangat Manakkal Cheriya, Krishnan and Dhaene, Tom and Knockaert, Luc},
  issn         = {1759-0787},
  journal      = {INTERNATIONAL JOURNAL OF MICROWAVE AND WIRELESS TECHNOLOGIES},
  keyword      = {CAD-MODEL CONSTRUCTION,IBCN,CAUCHY METHOD,RESPONSES,INTERPOLATION,PARTITIONS,Modeling,Simulation and Characterizations of devices and circuits,Passive components and circuits},
  language     = {eng},
  number       = {6},
  pages        = {591--602},
  title        = {Auto-generation of passive scalable macromodels for microwave components using scattered sequential sampling},
  url          = {http://dx.doi.org/10.1017/S1759078714000038},
  volume       = {6},
  year         = {2014},
}

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