Publication: Automatic Gain Control of Ultra-Low Leakage Synaptic Scaling Homeostatic Plasticity Circuits
Automatic Gain Control of Ultra-Low Leakage Synaptic Scaling Homeostatic Plasticity Circuits
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Qiao, N., Indiveri, G., & Bartolozzi, C. (2016, October 19). Automatic Gain Control of Ultra-Low Leakage Synaptic Scaling Homeostatic Plasticity Circuits. Biomedical Circuits and Systems (BIOCAS) 2016. Biomedical Circuits and Systems Conference (BioCAS), 2016, Shanghai. https://doi.org/10.1109/BioCAS.2016.7833755
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Homeostatic plasticity is a stabilizing mechanism that allows neural systems to maintain their activity around a functional operating point. This is an extremely useful mechanism for neuromorphic computing systems, as it can be used to compensate for chronic shifts, for example due to changes in the network structure. However, it is important that this plasticity mechanism operates on time scales that are much longer than conventional synaptic plasticity ones, in order to not interfere with the learning process. In this paper we prese
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- Qiao, Ning
- Indiveri, Giacomo
- Bartolozzi, Chiara
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Qiao, N., Indiveri, G., & Bartolozzi, C. (2016, October 19). Automatic Gain Control of Ultra-Low Leakage Synaptic Scaling Homeostatic Plasticity Circuits. Biomedical Circuits and Systems (BIOCAS) 2016. Biomedical Circuits and Systems Conference (BioCAS), 2016, Shanghai. https://doi.org/10.1109/BioCAS.2016.7833755
