Neural network connectivity by optical broadcasting between III-V nanowires
Kristians Draguns, Vidar Flodgren, David Winge, Alfredo Serafini, Aigars Atvars, Janis Alnis, Anders Mikkelsen

TL;DR
Researchers developed a novel neural network using light-based communication between nanowires, enabling complex connectivity patterns for artificial neurons.
Contribution
A new method for neural network connectivity using optical broadcasting between III-V nanowires is introduced.
Findings
Complex weight distributions in neural networks can be achieved through nanowire geometry and light patterns.
A hexagonal nanowire pattern with random orientations successfully simulated chaotic time series prediction.
The design is compatible with silicon substrates and extensible to other nanophotonic components.
Abstract
Biological neural network functionality depends on the vast number of connections between nodes, which can be challenging to implement artificially. One radical solution is to replace physical wiring with broadcasting of signals between the artificial neurons. We explore an implementation of this concept by light emitting/receiving III-V semiconductor nanowire neurons in a quasi-2D waveguide. They broadcast light in anisotropic patterns and specific regions in the nanowires are sensitised to exciting and inhibiting light signals. Weights of connections between nodes can then be tailored using the geometric light absorption/emission patterns. Through detailed simulations, we determine the connection strength based on rotation and separation between the nanowires. Our findings reveal that complex weight distributions are possible, indicating that specific neuron geometric patterns can…
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Taxonomy
TopicsNeural Networks and Reservoir Computing · Advanced Memory and Neural Computing · Photonic and Optical Devices
