A Basic Chemical Synaptic Euler Model and Its Triad Trigger Topology

To deeply understand neuromorphic electronic systems, a basic chemical synapse model is given by logistic Euler inverse mapping and transformation in tandem, 3T-MOS triod-trigger-topology (3T3) is designed in sub-threshold region at 100mV supply for compact synaptic circuit, and the power consumption of synapse in brain-circuitry (ion-bump-city) is compared with its five mimic blocks of HfOx/AlOx typed memristor, modified 2T-MOS-K+-bump circuit, 3T3 synaptic circuit and 4T-Schmitt-oscillator based synaptic circuit, and Chua's circuit on Power-delay-products’ (PDP) levels. Above works will match searching for novel feature operators during pushing forward brain health microelectronics.