Knowledge-Based neural networks for fast design space exploration of hybrid Copper-Graphene On-Chip interconnect networks

Sharma, R.; Narayan, S. S. L.; Roy, S.; Kumar, R.; Achar, R.; Kaushik, B. K.; Kumar, S.

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dc.contributor.author	Kumar, R.
dc.contributor.author	Narayan, S. S. L.
dc.contributor.author	Kumar, S.
dc.contributor.author	Roy, S.
dc.contributor.author	Kaushik, B. K.
dc.contributor.author	Achar, R.
dc.contributor.author	Sharma, R.
dc.date.accessioned	2021-10-24T07:05:51Z
dc.date.available	2021-10-24T07:05:51Z
dc.date.issued	2021-10-24
dc.identifier.uri	http://localhost:8080/xmlui/handle/123456789/3118
dc.description.abstract	In this article, an artificial neural network (ANN) is developed in order to predict the per-unit-length (p. u. l.) parameters of hybrid copper-graphene on-chip interconnects from a prior knowledge of their structural geometry and layout. The salient feature of the proposed ANN is that it combines knowledge of the p. u. l. parameters extracted from empirical models along with that extracted from a rigorous full-wave electromagnetic solver. As a result, the proposed ANN is referred to as a knowledge-based neural network (KBNN). The KBNN has been found to converge to the same accuracy as a conventional ANN but at the expense of far smaller training time costs. As a result, the KBNN is much more suitable for performing design space explorations.	en_US
dc.language.iso	en_US	en_US
dc.subject	Artificial neural networks (ANNs)	en_US
dc.subject	design space explorations	en_US
dc.subject	knowledge-based neural networks (KBNNs)	en_US
dc.subject	onchip interconnects	en_US
dc.subject	per-unit-length (p. u. l.) parameters	en_US
dc.subject	transient response.	en_US
dc.title	Knowledge-Based neural networks for fast design space exploration of hybrid Copper-Graphene On-Chip interconnect networks	en_US
dc.type	Article	en_US