Cover Image
Read Now

Semiconductor Memory Devices for Hardware-Driven Neuromorphic Systems

This book aims to convey the most recent progress in hardware-driven neuromorphic systems based on semiconductor memory technologies. Machine learning systems and various types of artificial neural networks to realize the learning process have mainly focused on software technologies. Tremendous adva...

Full description

Bibliographic Details
Main Author: Cho, Seongjae
Format: eBook
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Schottky Barrier Tunneling
Non Filamentary Resistive Switching
Neuromorphic Engineering
Energy Industries & Utilities / Bicssc
Synaptic Devices
Neuromorphic Platform
Leaky Integrate-and-fire Neuron
Synaptic Device
On-chip Learning
Dna Matching Algorithm
Boyer-moore
Energy Consumption
3-d Neuromorphic System
Ionized Oxygen Vacancy
Charge-trap Flash Synapse
Technology: General Issues / Bicssc
Spinnaker
Mpi For Neuromorphic Hw
Si Processing Compatibility
Spiking Neural Network
Bimodal Distribution Of Effective Schottky Barrier Height
Spinmpi
Short-term Plasticity
Organic Field-effect Transistors
A-igzo Memristor
Flexible Electronics
Overlapping Pattern Issue
Vanadium Dioxide
Hardware-based Neuromorphic System
Benchmarking Neuromorphic Hw
Pattern Recognition
3-d Stacked Synapse Array
Gradual And Abrupt Modulation
Tcad Device Simulation
Neural Network
Neuromorphic System
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
Description
Summary:This book aims to convey the most recent progress in hardware-driven neuromorphic systems based on semiconductor memory technologies. Machine learning systems and various types of artificial neural networks to realize the learning process have mainly focused on software technologies. Tremendous advances have been made, particularly in the area of data inference and recognition, in which humans have great superiority compared to conventional computers. In order to more effectively mimic our way of thinking in a further hardware sense, more synapse-like components in terms of integration density, completeness in realizing biological synaptic behaviors, and most importantly, energy-efficient operation capability, should be prepared. For higher resemblance with the biological nervous system, future developments ought to take power consumption into account and foster revolutions at the device level, which can be realized by memory technologies. This book consists of seven articles in which most recent research findings on neuromorphic systems are reported in the highlights of various memory devices and architectures. Synaptic devices and their behaviors, many-core neuromorphic platforms in close relation with memory, novel materials enabling the low-power synaptic operations based on memory devices are studied, along with evaluations and applications. Some of them can be practically realized due to high Si processing and structure compatibility with contemporary semiconductor memory technologies in production, which provides perspectives of neuromorphic chips for mass production.
Item Description:Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
Physical Description:1 electronic resource (81 p.)
ISBN:9783036517339
9783036517346
books978-3-0365-1733-9

Similar Items