A Neuromorphic Digital Circuit for Neuronal Information Encoding Using Astrocytic Calcium Oscillations

Faramarzi, Farnaz; Azad, Fatemeh; Amiri, Mahmood; Linares-Barranco, B.

doi:10.3389/fnins.2019.00998

Cited by 13 publications

(7 citation statements)

References 48 publications

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“…The hardware analysis of the proposed astrocyte model in desynchronizing the hypersynchronous coupled neurons and regulating the synaptic transmission between presynaptic and postsynaptic neurons has the same performance of the original model. The comparison results of the hardware realization in terms of the number of resources and maximum speed have been performed between the modified models and the previous proposed tripartite synapse models in [17], [27], [43], [50]- [52]. These results are reported in Table . IV.…”

Section: Implementation Resultsmentioning

confidence: 99%

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A Digital Realization of Neuroglial Interaction Model and Its Network Structure

Seyedbarhagh

Ahmadi

2022

IEEE Access

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Astrocyte cells, the most existing abundant cells in central nervous system, play an essential role in modulating the neuronal activities, information processing, and regulating the synaptic plasticity through calcium (Ca2+) fluctuations of ions hemostasis by using a feedback mechanism. The pathophysiological and hypersynchronous neuronal activity can lead to the epileptic seizures, which is known as one of the neurodegenerative disorders in the field of neuroscience. This paper presents a modified neuron-astrocyte interaction (tripartite synapse) model based on leaky and integrate fire neuron and the astrocyte-synapse models using an area-efficient hardware approach called stochastic computing paradigm. The proposed model is synthesized physically on field-programmable gate array as a proof of concept. The implementation results of the presented model can mimic the bidirectional communication in biological minimal network of pre-postsynaptic and Ca2+-based model for astrocyte with considerably lower hardware cost. The influence of astrocytes on neural network behavioral has been investigated by providing a proper feedback mechanism and considering the role of gap junction coupling and the various coefficients on desynchronizing the impaired synchronization of the coupled neurons.INDEX TERMS Astrocytes, Desynchronization, Field programmable gate array (FPGA), Neural-Glial interaction.

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Section: Implementation Resultsmentioning

confidence: 99%

“…Furthermore, the frequency of the design in [51] is reported 139MHz. A neuromorphic digital design for neuroglial interaction model by employing the linear approximation method is realized in [52]. Based on their research work, 5 multipliers are reported in the high-level utilization table.…”

Section: Implementation Resultsmentioning

confidence: 99%

A Digital Realization of Neuroglial Interaction Model and Its Network Structure

Seyedbarhagh

Ahmadi

2022

IEEE Access

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“…Recently, there has been extensive literature reporting astrocyte computational models and their impact on synaptic learning (De Pittà et al, 2012 ; Manninen et al, 2018 ). Continuing these fundamental investigations to decode neuro-glia interaction, there have been recent neuromorphic implementations of astrocyte functionality in analog and digital Complementary Metal Oxide Semiconductor (CMOS) hardware (Möller et al, 2007 ; Irizarry-Valle and Parker, 2015 ; Naeem et al, 2015 ; Ranjbar and Amiri, 2017 ; Karimi et al, 2018 ; Faramarzi et al, 2019 ). For instance, analog CMOS circuits capturing the neural-glial transmitter behavior have been demonstrated (Joshi et al, 2011 ; Irizarry-Valle et al, 2013 ; Irizarry-Valle and Parker, 2015 ; Lee and Parker, 2016 ).…”

Section: Introductionmentioning

confidence: 99%

“…For instance, analog CMOS circuits capturing the neural-glial transmitter behavior have been demonstrated (Joshi et al, 2011 ; Irizarry-Valle et al, 2013 ; Irizarry-Valle and Parker, 2015 ; Lee and Parker, 2016 ). There is also increasing interest in low-complexity FPGA implementation of the astrocyte computation models (Nazari et al, 2015 ; Ranjbar and Amiri, 2016 , 2017 ; Karimi et al, 2018 ; Faramarzi et al, 2019 ). However, the primary focus has been on a brain-emulation perspective, i.e., implementing astrocyte computational models with high degree of detail in the underlying hardware.…”

Section: Introductionmentioning

confidence: 99%

Emulation of Astrocyte Induced Neural Phase Synchrony in Spin-Orbit Torque Oscillator Neurons

2021

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Astrocytes play a central role in inducing concerted phase synchronized neural-wave patterns inside the brain. In this article, we demonstrate that injected radio-frequency signal in underlying heavy metal layer of spin-orbit torque oscillator neurons mimic the neuron phase synchronization effect realized by glial cells. Potential application of such phase coupling effects is illustrated in the context of a temporal “binding problem.” We also present the design of a coupled neuron-synapse-astrocyte network enabled by compact neuromimetic devices by combining the concepts of local spike-timing dependent plasticity and astrocyte induced neural phase synchrony.

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“…Recently, there has been extensive literature reporting astrocyte computational models and their impact on synaptic learning [8,9]. Continuing these fundamental investigations to decode neuro-glia interaction, there have been recent neuromorphic implementations of astrocyte functionality in analog and digital Complementary Metal Oxide Semiconductor (CMOS) hardware [3,[10][11][12][13][14]. While there has been extensive work on exploring post-CMOS technologies for mimicking bio-realistic computations due to the prospects of low-power and compact hardware design, they have been only studied from standalone neuron/synapse perspective.…”

Section: Introductionmentioning

confidence: 99%