Publication
A cellular structure for online routing of digital spiking neuron axons and dendrites on FPGAs
AbstractAs a step towards creating evolutionary developmental neural networks on FPGAs, a bio-inspired cellular structure suitable for online routing of axons and dendrites on FPGAs based on a new digital spiking neuron model (introduced previously by the authors) is proposed here. This structure is designed to allow changing the routing of the dendrites and axons and formation/elimination of synapses on the fly by dynamic partial reconfiguration of the LUTs. The feasibility and techniques for implementing this structure on a Xilinx Virtex-5 FPGA are also studied.
Download publicationAssociated Researchers
Related Resources
See what’s new.
2023
Identifying Visualization Opportunities to Help Architects Manage the Complexity of Building CodesInteractive visualizations have promising potential to aid design…
2019
Toward a Multi-Level and Multi-Paradigm Platform for Building Occupant SimulationIn recent years, simulation has been used to investigate the mutual…
2017
No Need to Stop What You’re Doing: Exploring No-Handed Smartwatch InteractionSmartwatches have the potential to enable quick micro-interactions…
2008
Video Browsing by Direct ManipulationWe present a method for browsing videos by directly dragging their…
Get in touch
Something pique your interest? Get in touch if you’d like to learn more about Autodesk Research, our projects, people, and potential collaboration opportunities.
Contact us