Neural Flip-Flops III: Stomatogastric Ganglion | bioRxiv
Neural Flip-Flops I: Short-Term Memory | bioRxiv
The Flip-flop neuron – A memory efficient alternative for solving challenging sequence processing and decision making problems | bioRxiv
Figure 3 from Design of Ternary D Flip-Flop Using Neuron MOSFET | Semantic Scholar
Hunger States Switch a Flip-Flop Memory Circuit via a Synaptic AMPK-Dependent Positive Feedback Loop: Cell
Ultralow-Power Implementation of Neural Networks Using Inverter-Based Memristive Crossbars | SpringerLink
Mathematics | Free Full-Text | An Investigation on Spiking Neural Networks Based on the Izhikevich Neuronal Model: Spiking Processing and Hardware Approach
Novel Approach to Design Ternary D- flip flop using FGMOS | Semantic Scholar
Neural Flip-Flops I: Short-Term Memory | bioRxiv
Sensors | Free Full-Text | A Low-Power Spiking Neural Network Chip Based on a Compact LIF Neuron and Binary Exponential Charge Injector Synapse Circuits
Flip-flop neural memory given by formal neurons 11c-d. | Download Scientific Diagram
PDF) The Flip-flop neuron – A memory efficient alternative for solving challenging sequence processing and decision making problems
The flip-flop neuron: a memory efficient alternative for solving challenging sequence processing and decision-making problems | SpringerLink
Fuzzy D flip-flop neuron block diagram | Download Scientific Diagram
Figure 2 from Design of Ternary D Flip-Flop Using Neuron MOSFET | Semantic Scholar
Quaternary edge-triggered flip-flop with neuron-MOS literal circuit | Semantic Scholar
Neural Flip-Flops III: Stomatogastric Ganglion | bioRxiv
Frontiers | Simulating the Cortical Microcircuit Significantly Faster Than Real Time on the IBM INC-3000 Neural Supercomputer
Figure 1 from Comparison of a Neural Network Based on Fuzzy Flip-Flops and an MLP Robustness in Function Approximation | Semantic Scholar
Flip Flop Neural Networks: Modelling Memory for Efficient Forecasting | SpringerLink
Digital circuits and neural networks based on acid-base chemistry implemented by robotic fluid handling | Nature Communications
