Department of Electrical Engineering and Computer Science
Integrated Nano-Systems Laboratory
2. Conference Papers
Adaptive Input-to-Neuron Interlink Development in Training of Spike-Based Liquid State Machines
- Title
- Adaptive Input-to-Neuron Interlink Development in Training of Spike-Based Liquid State Machines
- Author(s)
- Hwang, Sangwoo ; Lee, Junghyup ; Kung, Jaeha
- Issued Date
- 2021-05-24
- Citation
- IEEE International Symposium on Circuits and Systems (ISCAS 2021), pp.382 - 386
- Type
- Conference Paper
- ISBN
- 9781728192017
- ISSN
- 2158-1525
- Abstract
- In this paper, we present a novel approach in developing input-to-neuron interlinks to achieve better accuracy in spike-based liquid state machines. An energy-efficient Spiking Neural Network suffer from lower accuracy in image classification compared to deep learning models. The previous LSM models randomly connect input neurons to excitatory neurons in a liquid. This limits the expressive power of a liquid model as large portion of excitatory neurons become inactive which never fire. To overcome this limitation, we propose an adaptive interlink development method which achieves 3.2% higher classification accuracy than the static LSM model of 3,200 neurons. Also, our hardware implementation on FPGA improves performance by 3.16∼4.99× or 1.47∼3.95× over CPU/GPU. © 2021 IEEE
- Publisher
- IEEE Circuits and Systems Society
- Related Researcher
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Lee, Junghyup
- Research Interests Analog and Mixed Signal IC Design; Smart Sensor Systems; Bio-medical ICs and Body Channel Communication Systems
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