Documentos de Vatalaro M. | REDI

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Mostrando 5 resultados de: 5

Filtros aplicados

Área temáticas: "Física aplicada"

Subtipo de publicación

Conference Object(1)

Publisher

Solid-State Electronics(2)

Electronics (Switzerland)(1)

ICECS 2022 - 29th IEEE International Conference on Electronics, Circuits and Systems, Proceedings(1)

IEEE Journal of Solid-State Circuits(1)

Área temáticas

Ciencias de la computación(2)

Instrumentos de precisión y otros dispositivos(1)

Área de conocimiento

Ingeniería electrónica(5)

Fabricación de dispositivos semiconductores(1)

Red neuronal artificial(1)

Año de Publicación

Origen

Palabras Claves

Hardware security(3)

2d materials(2)

Molybdenum disulfide (MoS ) 2(2)

Paper electronics(2)

Assessment of 2D-FET Based Digital and Analog Circuits on Paper

Abstract: Two-dimensional (2D) materials represent an emerging technology for transistor electronics in view o

Palabras claves:

2d materials, Field-Effect Transistor (FET), Molybdenum disulfide (MoS ) 2, Paper electronics, Verilog-A model

Crupi F., Iannaccone G., Marco Lanuzza, Rose R.D., Vatalaro M.

Assessment of paper-based MoS<inf>2</inf> FET for Physically Unclonable Functions

Abstract: Two-dimensional (2D) materials are recognized as a promising beyond-CMOS technology thanks to their

Palabras claves:

2d materials, Hardware security, Molybdenum disulfide (MoS ) 2, Paper electronics, physically unclonable function (PUF), Verilog-A model

Conti S., Crupi F., Iannaccone G., Magnone P., Marco Lanuzza, Rose R.D., Vatalaro M.

A low-voltage, low-power reconfigurable current-mode softmax circuit for analog neural networks

Abstract: This paper presents a novel low-power low-voltage analog implementation of the softmax function, wit

Palabras claves:

Activation functions, Deep Neural Networks, Machine learning, Softmax

Crupi F., Marco Lanuzza, Strangio S., Tatiana Moposita, Trojman L., Vatalaro M., Vladimirescu A.

Stability-Area Trade-off in Static CMOS PUF Based on 4T Subthreshold Voltage Divider

Conference Object

Abstract: A physically unclonable function (PUF) where the bitcell core is based on a four-transistor (4T) sub

Palabras claves:

CMOS design, Hardware security, internet of things, Physically Unclonable Function, voltage divider

Crupi F., Marco Lanuzza, Rose R.D., Vatalaro M.

Static CMOS Physically Unclonable Function Based on 4T Voltage Divider With 0.6%-1.5% Bit Instability at 0.4-1.8 V Operation in 180 nm

Abstract: This article introduces a novel class of static and monostable CMOS physically unclonable functions

Palabras claves:

CMOS design, Hardware security, internet of things (IoT), physically unclonable function (PUF), voltage divider

Crupi F., Marco Lanuzza, Rose R.D., Vatalaro M.