Modeling crosstalk effects in CNT bus architectures
Modeling crosstalk effects in CNT bus architectures
Carbon nanotubes (CNTs) have been widely proposed as interconnect fabric for nano and very deep submicron (silicon-based) technologies due to their robustness to electromigration. In this paper, issues associated with crosstalk among bus lines implemented by CNTs are investigated in detail. CNT-based interconnects are modeled and the effects of crosstalk on performance and correct operation are evaluated by simulation. Existing models are modified to account for geometries in bus architectures made of parallel single-walled nanotubes and a single multiwalled nanotube. New RLC equivalent circuits are proposed for these bus architectures. A novel bus architecture with low crosstalk features is also proposed. This bus architecture is made of dual-walled nanotubes arranged in parallel. In this architecture, the crosstalk-induced delay and corresponding uncertainty (as well as crosstalk-induced peak voltage) are significantly reduced; a modest area penalty is incurred. Reductions up to 59% for the crosstalk-induced delay and up to 81% for the crosstalk-induced peak voltage are reported. These results confirm that the proposed bus arrangement noticeably improves performance and provides reliable operation.
133-145
Rossi, Daniele
30c42382-cf0a-447d-8695-fa229b7b8a2f
Cazeaux, Jose Manuel
56eb0eda-d852-43af-9227-054d92e9f755
Metra, Cecilia
c420be13-a9cf-471a-96fb-3f43a694ffae
Lombardi, Fabrizio
e36a0194-d0fc-443b-82c5-72cefd730b0f
March 2007
Rossi, Daniele
30c42382-cf0a-447d-8695-fa229b7b8a2f
Cazeaux, Jose Manuel
56eb0eda-d852-43af-9227-054d92e9f755
Metra, Cecilia
c420be13-a9cf-471a-96fb-3f43a694ffae
Lombardi, Fabrizio
e36a0194-d0fc-443b-82c5-72cefd730b0f
Rossi, Daniele, Cazeaux, Jose Manuel, Metra, Cecilia and Lombardi, Fabrizio
(2007)
Modeling crosstalk effects in CNT bus architectures.
IEEE Transactions on Nanotechnology, 6 (2), .
(doi:10.1109/TNANO.2007.891814).
Abstract
Carbon nanotubes (CNTs) have been widely proposed as interconnect fabric for nano and very deep submicron (silicon-based) technologies due to their robustness to electromigration. In this paper, issues associated with crosstalk among bus lines implemented by CNTs are investigated in detail. CNT-based interconnects are modeled and the effects of crosstalk on performance and correct operation are evaluated by simulation. Existing models are modified to account for geometries in bus architectures made of parallel single-walled nanotubes and a single multiwalled nanotube. New RLC equivalent circuits are proposed for these bus architectures. A novel bus architecture with low crosstalk features is also proposed. This bus architecture is made of dual-walled nanotubes arranged in parallel. In this architecture, the crosstalk-induced delay and corresponding uncertainty (as well as crosstalk-induced peak voltage) are significantly reduced; a modest area penalty is incurred. Reductions up to 59% for the crosstalk-induced delay and up to 81% for the crosstalk-induced peak voltage are reported. These results confirm that the proposed bus arrangement noticeably improves performance and provides reliable operation.
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Published date: March 2007
Organisations:
Electronic & Software Systems
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Local EPrints ID: 368678
URI: http://eprints.soton.ac.uk/id/eprint/368678
PURE UUID: 0a5e7f00-42e4-4995-8251-01244f9ac0df
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Date deposited: 23 Sep 2014 10:34
Last modified: 14 Mar 2024 17:51
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Author:
Daniele Rossi
Author:
Jose Manuel Cazeaux
Author:
Cecilia Metra
Author:
Fabrizio Lombardi
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