期刊
2015 52ND ACM/EDAC/IEEE DESIGN AUTOMATION CONFERENCE (DAC)
卷 -, 期 -, 页码 -出版社
IEEE COMPUTER SOC
DOI: 10.1145/2744769.2744930
关键词
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Recent advances in development of memristor devices and crossbar integration allow us to implement a low-power on-chip neuromorphic computing system (NCS) with small footprint. Training methods have been proposed to program the memristors in a crossbar by following existing training algorithms in neural network models. However, the robustness of these training methods has not been well investigated by taking into account the limits imposed by realistic hardware implementations. In this work, we present a quantitative analysis on the impact of device imperfections and circuit design constraints on the robustness of two popular training methods - close-loop on-device (CLD) and open-loop off-device (OLD). A novel variation-aware training scheme, namely, Vortex, is then invented to enhance the training robustness of memristor crossbar-based NCS by actively compensating the impact of device variations and optimizing the mapping scheme from computations to crossbars. On average, Vortex can significantly improve the test rate by 29.6% and 26.4%, compared to the traditional OLD and CLD, respectively.
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