A 132 by 104 10μm-Pixel 250μW 1kefps Dynamic Vision Sensor with Pixel-Parallel Noise and Spatial Redundancy Suppression
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Date
2019
Publication Type
Other Conference Item
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yes
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Abstract
This paper reports a 132 by 104 dynamic vision sensor (DVS) with 10μm pixel in a 65nm logic process and a synchronous address-event representation (SAER) readout capable of 180Meps throughput. The SAER architecture allows adjustable event frame rate control and supports pre-readout pixel-parallel noise and spatial redundancy suppression. The chip consumes 250μW with 100keps running at 1k event frames per second (efps), 3-5 times more power efficient than the prior art using normalized power metrics. The chip is aimed for low power IoT and real-time high-speed smart vision applications.
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published
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2019 Symposium on VLSI Circuits
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Publisher
IEEE
Event
33rd Symposium on VLSI Circuits
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Software
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Subject
Vision sensor; Event-based; Neuromorphic; IoT
Organisational unit
08836 - Delbrück, Tobias (Tit.-Prof.)