Picture for Byung-Gook Park

Byung-Gook Park

Pulse-Width Modulation Neuron Implemented by Single Positive-Feedback Device

Add code
Aug 23, 2021
Figure 1 for Pulse-Width Modulation Neuron Implemented by Single Positive-Feedback Device
Figure 2 for Pulse-Width Modulation Neuron Implemented by Single Positive-Feedback Device
Figure 3 for Pulse-Width Modulation Neuron Implemented by Single Positive-Feedback Device
Figure 4 for Pulse-Width Modulation Neuron Implemented by Single Positive-Feedback Device
Viaarxiv icon

Unsupervised Online Learning With Multiple Postsynaptic Neurons Based on Spike-Timing-Dependent Plasticity Using a TFT-Type NOR Flash Memory Array

Add code
Nov 17, 2018
Figure 1 for Unsupervised Online Learning With Multiple Postsynaptic Neurons Based on Spike-Timing-Dependent Plasticity Using a TFT-Type NOR Flash Memory Array
Figure 2 for Unsupervised Online Learning With Multiple Postsynaptic Neurons Based on Spike-Timing-Dependent Plasticity Using a TFT-Type NOR Flash Memory Array
Figure 3 for Unsupervised Online Learning With Multiple Postsynaptic Neurons Based on Spike-Timing-Dependent Plasticity Using a TFT-Type NOR Flash Memory Array
Figure 4 for Unsupervised Online Learning With Multiple Postsynaptic Neurons Based on Spike-Timing-Dependent Plasticity Using a TFT-Type NOR Flash Memory Array
Viaarxiv icon

Adaptive Learning Rule for Hardware-based Deep Neural Networks Using Electronic Synapse Devices

Add code
Aug 19, 2017
Figure 1 for Adaptive Learning Rule for Hardware-based Deep Neural Networks Using Electronic Synapse Devices
Figure 2 for Adaptive Learning Rule for Hardware-based Deep Neural Networks Using Electronic Synapse Devices
Figure 3 for Adaptive Learning Rule for Hardware-based Deep Neural Networks Using Electronic Synapse Devices
Figure 4 for Adaptive Learning Rule for Hardware-based Deep Neural Networks Using Electronic Synapse Devices
Viaarxiv icon