A Neuromorphic Cortical-Layer Microchip for Spike-Based Event Processing Vision Systems
Abstract
We present a neuromorphic cortical-layer processing microchip for address event representation (AER) spike-based processing systems. The microchip computes 2-D convolutions of video information represented in AER format in real time. AER, as opposed to conventional frame-based video representation, describes visual information as a sequence of events or spikes in a way similar to biological brains. This format allows for fast information identification and processing, without waiting to process complete image frames. The neuromorphic cortical-layer processing microchip presented in this paper computes convolutions of programmable kernels over the AER visual input information flow. It not only computes convolutions but also allows for a programmable forgetting rate, which in turn allows for a bio-inspired coincidence detection processing. Kernels are programmable and can be of arbitrary shape and arbitrary size of up to 32
- Publication:
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IEEE Transactions on Circuits and Systems I: Regular Papers
- Pub Date:
- 2006
- DOI:
- Bibcode:
- 2006ITCSR..53.2548S
- Keywords:
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- 2-D convolutions;
- address-event representation (AER);
- bio-inspired systems;
- digitally calibrated analog circuits;
- high-speed signal processing;
- MOS transistor mismatch;
- spike-based processing;
- subthreshold circuits;
- vision;
- VLSI mixed-circuit design