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Dataset supporting the conference paper "Enabling efficient pure-NMOS circuits through adiabatic complementary pass-transistor logic"

Dataset supporting the conference paper "Enabling efficient pure-NMOS circuits through adiabatic complementary pass-transistor logic"
Dataset supporting the conference paper "Enabling efficient pure-NMOS circuits through adiabatic complementary pass-transistor logic"
Thin Film transistors are starting to become a promising material for flexible electronics as they are bendable. However, current TFT industry does not have efficient p-type transistors, and the utilization of NMOS logic leads to severe static energy consumption. Replacing NMOs logic with adiabatic logic which is pure-NMOS can be a promising solution, and the number of transistors can be reduced to a reasonable value with correct phase management.
University of Southampton
Chen, Keyu
854fa139-4391-44ed-85bb-fa638ab2c0f7
Merrett, Geoff
89b3a696-41de-44c3-89aa-b0aa29f54020
Zwolinski, Mark
adfcb8e7-877f-4bd7-9b55-7553b6cb3ea0
Chen, Keyu
854fa139-4391-44ed-85bb-fa638ab2c0f7
Merrett, Geoff
89b3a696-41de-44c3-89aa-b0aa29f54020
Zwolinski, Mark
adfcb8e7-877f-4bd7-9b55-7553b6cb3ea0

Chen, Keyu (2025) Dataset supporting the conference paper "Enabling efficient pure-NMOS circuits through adiabatic complementary pass-transistor logic". University of Southampton doi:10.5258/SOTON/D3479 [Dataset]

Record type: Dataset

Abstract

Thin Film transistors are starting to become a promising material for flexible electronics as they are bendable. However, current TFT industry does not have efficient p-type transistors, and the utilization of NMOS logic leads to severe static energy consumption. Replacing NMOs logic with adiabatic logic which is pure-NMOS can be a promising solution, and the number of transistors can be reduced to a reasonable value with correct phase management.

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Published date: 30 April 2025
Learn more about School of Electronics and Computer Science research Learn more about Cyber Physical Systems research Learn more about Sustainable Electronic Technologies research

Identifiers

Local EPrints ID: 501498
URI: http://eprints.soton.ac.uk/id/eprint/501498
DOI: doi:10.5258/SOTON/D3479
PURE UUID: f4703120-7043-45ea-a363-cd30ed9e547d
ORCID for Geoff Merrett: ORCID iD orcid.org/0000-0003-4980-3894
ORCID for Mark Zwolinski: ORCID iD orcid.org/0000-0002-2230-625X

Catalogue record

Date deposited: 02 Jun 2025 17:05
Last modified: 03 Jun 2025 01:41

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Contributors

Creator: Keyu Chen
Research team head: Geoff Merrett ORCID iD
Research team head: Mark Zwolinski ORCID iD

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