Title :
Digital Multiplierless Implementation of Biological Adaptive-Exponential Neuron Model
Author :
Gomar, Shaghayegh ; Ahmadi, Amin
Author_Institution :
Dept. of Electr. Eng., Razi Univ., Kermanshah, Iran
Abstract :
High-accuracy implementation of biological neural networks is a computationally expensive task, specially, for large-scale simulations of neuromorphic algorithms. This paper proposes a set of models for biological spiking neurons, which are efficiently implementable on digital platforms. Proposed models can reproduce different biological behaviors with a high precision. The proposed models are investigated, in terms of digital implementation feasibility and costs, targeting low-cost hardware implementation. Hardware synthesis and physical implementations on a field-programmable gate array show that the proposed models can produce biological behavior of different types of neurons with higher performance and considerably lower implementation costs compared with the original model.
Keywords :
biology computing; field programmable gate arrays; large-scale systems; neurophysiology; physiological models; biological adaptive-exponential neuron model; biological neural networks; biological spiking neurons; digital multiplierless implementation; field-programmable gate array; hardware synthesis; high-accuracy implementation; large-scale simulation; low-cost hardware implementation; neuromorphic algorithms; Adaptation models; Approximation methods; Biological system modeling; Brain modeling; Computational modeling; Mathematical model; Neurons; Adaptive exponential integrated and fire model (AdEx); field-programmable gate array (FPGA); neuromorphic; piecewise linear (PL); piecewise linear exponential (PLE);
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2013.2286030
