Difference between revisions of "An Ultra-Low-Power Neuromorphic Spiking Neuron Design"
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=== Description === | === Description === | ||
− | Integrate-and-Fire (IAF) neurons are widely available in neuromorphic spike-processing applications. Analog LIF neurons are considered | + | Integrate-and-Fire (IAF) neurons are widely available in neuromorphic spike-processing applications. Analog LIF neurons are considered a breakthrough to realize fully analog, fully asynchronous spiking neural network implementation for ultra-low-power AI-embedded systems. In this project, you will seek to realize an analog ultra-low-power (thus low energy/spike) LIF neuron, having a very low-frequency spiking rate (e.g., <100Hz). The prerequisite course is Analog integrated circuits. If the design result is promising, the study will be summarized and submitted to IEEE conferences such as ISCAS/BioCAS. |
===Status: To be Available=== | ===Status: To be Available=== |
Revision as of 16:40, 20 October 2023
Contents
Description
Integrate-and-Fire (IAF) neurons are widely available in neuromorphic spike-processing applications. Analog LIF neurons are considered a breakthrough to realize fully analog, fully asynchronous spiking neural network implementation for ultra-low-power AI-embedded systems. In this project, you will seek to realize an analog ultra-low-power (thus low energy/spike) LIF neuron, having a very low-frequency spiking rate (e.g., <100Hz). The prerequisite course is Analog integrated circuits. If the design result is promising, the study will be summarized and submitted to IEEE conferences such as ISCAS/BioCAS.
Status: To be Available
- Looking for master or semester thesis students
- Supervisor: Kwantae Kim <kimkwa@ethz.ch>
Prerequisites
- Analog Circuit Design
Character
- 20% Literature review
- 20% Theory
- 60% Circuit Design
Professor
Prof. Taekwang Jang <tjang@ethz.ch>
Reference
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