Method for weight control and information integration by utilizing time encoding
A technology of time encoding and information integration, applied in the field of neuron circuits
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[0043] At the input end of the pulse-coupled neuron circuit, different signal combinations are used to open a parallel set of P-type MOS transistors with different combinations of width-to-length ratios, and the complementary N-type MOS transistors with fixed width-to-length ratios form an input stage inversion device structure. The input signal combination is different, the noise margin of the inverter will change, thus affecting the pulse train output frequency of the pulse coupling circuit. The combination of different width-to-length ratios of the P-type MOS transistors at the input end is related to the weight of the pulse-coupled neuron circuit. It is certain that the greater the noise margin of the input stage inverter, the greater the coupling weight of the pulse-coupled neuron circuit.
[0044] like Figure 5 As shown, the ratio of the width to length (W / L) of a group of parallel-connected PMOS transistors and a series-connected NMOS transistor in the dendritic circu...
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