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Memristive Device for Logic Design and Computing. / Xie, Lei.

2018. 109 p.

Research output: ThesisDissertation (TU Delft)Scientific

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@phdthesis{52c58e54883a42688413c7491dc78671,
title = "Memristive Device for Logic Design and Computing",
abstract = "Memristive device or memristor is a promising emerging technology due to its good scalability, near-zero standby power consumption, high integration density, and CMOS fabrication compatibility. Several potential applications based on memristor technology have been proposed, such as non-volatile memories, neuromorphic systems, and resistive computing. However, research on resistive computing is still in its infancy phase. Therefore, it faces challenges with respect to the development of the device technology, logic design styles, computer architectures, compilers and applications.This thesis focuses on the logic design (including primitive logic gates, interconnect, circuit,and synthesis flow) and a novel non-Von Neumann architecture.",
keywords = "Memristor, Logic, Computing",
author = "Lei Xie",
year = "2018",
doi = "10.4233/uuid:52c58e54-883a-4268-8413-c7491dc78671",
language = "English",
isbn = "978-94-6366-013-6",
school = "Delft University of Technology",

}

RIS

TY - THES

T1 - Memristive Device for Logic Design and Computing

AU - Xie, Lei

PY - 2018

Y1 - 2018

N2 - Memristive device or memristor is a promising emerging technology due to its good scalability, near-zero standby power consumption, high integration density, and CMOS fabrication compatibility. Several potential applications based on memristor technology have been proposed, such as non-volatile memories, neuromorphic systems, and resistive computing. However, research on resistive computing is still in its infancy phase. Therefore, it faces challenges with respect to the development of the device technology, logic design styles, computer architectures, compilers and applications.This thesis focuses on the logic design (including primitive logic gates, interconnect, circuit,and synthesis flow) and a novel non-Von Neumann architecture.

AB - Memristive device or memristor is a promising emerging technology due to its good scalability, near-zero standby power consumption, high integration density, and CMOS fabrication compatibility. Several potential applications based on memristor technology have been proposed, such as non-volatile memories, neuromorphic systems, and resistive computing. However, research on resistive computing is still in its infancy phase. Therefore, it faces challenges with respect to the development of the device technology, logic design styles, computer architectures, compilers and applications.This thesis focuses on the logic design (including primitive logic gates, interconnect, circuit,and synthesis flow) and a novel non-Von Neumann architecture.

KW - Memristor

KW - Logic

KW - Computing

UR - http://resolver.tudelft.nl/uuid:52c58e54-883a-4268-8413-c7491dc78671

U2 - 10.4233/uuid:52c58e54-883a-4268-8413-c7491dc78671

DO - 10.4233/uuid:52c58e54-883a-4268-8413-c7491dc78671

M3 - Dissertation (TU Delft)

SN - 978-94-6366-013-6

ER -

ID: 39463211