Real-time multicompartment Hodgkin-Huxley neuron emulation on SoC FPGA - presented by Pr Timothée Levi

Real-time multicompartment Hodgkin-Huxley neuron emulation on SoC FPGA

Pr Timothée Levi

Pr Timothée Levi
Slide at 04:12
Bio-Hybrid schematic Timothee Dissociated Cortical Biological Neuromorphic Conventional Neuron Culture Preparation Computing Platform Areas of Adaptation and Organotypic FPGA Hippocampal Slice Plasticity in Neuromorphic Biohybrid Systems Spinal Cord In Vitro Electrophysiological Interfaces Digital ASIC Acquisition Frontend Brainstem In Vitro Pre-Processing Analog Mixed-Signal ASIC Stimulation Frontend Stimulus Whole Brain Generator In Vitro
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Summary (AI generated)

You can use slides of the brain or spinal cord, as well as IP cells that can differentiate into various types of neurons. On the right is a different neuromorphic computing platform, typically consisting of a conventional PC followed by different hardware such as FPGA or ASIC. These platforms can work in real time, but have limited resources compared to PCs. Interface components such as amplifiers, filters, noise removal, and signal preprocessing are necessary for both acquisition and stimulation on both sides.