Neuromorphic object localization using resistive memories and ultrasonic transducers

Abstract: Real-world sensory-processing applications require compact, low-latency, and low-power computing systems. Enabled by their in-memory event-driven computing abilities, hybrid memristive-CMOS neuromorphic architectures provide an ideal hardware substrate for such tasks. To demonstrate the full potential of such systems, we propose and experimentally demonstrate an end-to-end sensory processing solution for a real-world object localization application. Drawing inspiration from the barn owl’s neuroanatomy, we deve… Show more

“…The devices were tested with pulses to simulate sound signals, showing that the training accuracy and energy consumption of the system built using the memristor array were signicantly improved, representing a signicant advance in auditory localization systems with memristors. F. Moro et al 64 designed an event-driven object localization system inspired by the owl auditory cortex using a combination of stateof-the-art piezoelectric micromechanical ultrasound sensors and RRAM. The system was more efficient and power-efficient than microcontrollers performing the same task by several orders of magnitude.…”

Research progress in architecture and application of RRAM with computing-in-memory

“…The devices were tested with pulses to simulate sound signals, showing that the training accuracy and energy consumption of the system built using the memristor array were signicantly improved, representing a signicant advance in auditory localization systems with memristors. F. Moro et al 64 designed an event-driven object localization system inspired by the owl auditory cortex using a combination of stateof-the-art piezoelectric micromechanical ultrasound sensors and RRAM. The system was more efficient and power-efficient than microcontrollers performing the same task by several orders of magnitude.…”

Research progress in architecture and application of RRAM with computing-in-memory