Implementation of a neuron model using FPGAS

M. A. Bañuelos-Saucedo; J. Castillo-Hernández; S. Quintana-Thierry; R. Damián-Zamacona; J. Valeriano-Assem; R. E. Cervantes; R. Fuentes-González; G. Calva-Olmos; J. L. Pérez-Silva

Journal ArticleOPEN ACCESS

Implementation of a neuron model using FPGAS

Bañuelos-Saucedo M
Castillo-Hernández J
Quintana-Thierry S
et al.

Journal of Applied Research and Technology (2003) 1(03)

DOI: 10.22201/icat.16656423.2003.1.03.611

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Abstract

Artificial neural networks base their processing capabilities in a parallel architecture, and this makes them useful to solve pattern recognition, system identification, and control problems. In this paper, we present a FPGA (Field Programmable Gate Array) based digital implementation of a McCulloch-Pitts type of neuron model with three types of non-linear activation function: step, ramp-saturation, and sigmoid. We present the VHDL language code used to implement the neurons as well as to present simulation results obtained with Xilinx Foundation 3.0 software. The results are analyzed in terms of speed and percentage of chip usage.

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Bañuelos-Saucedo, M. A., Castillo-Hernández, J., Quintana-Thierry, S., Damián-Zamacona, R., Valeriano-Assem, J., Cervantes, R. E., … Pérez-Silva, J. L. (2003). Implementation of a neuron model using FPGAS. Journal of Applied Research and Technology, 1(03). https://doi.org/10.22201/icat.16656423.2003.1.03.611

Implementation of a neuron model using FPGAS

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