Biologically-inspired stochastic vector matching for noise-robust information processing |
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| Authors: | Michihito Ueda Masahiro Ueda Hiroaki Takagi Masayuki J. Sato Toshio Yanagida Ichiro Yamashita Kentaro Setsune |
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| Affiliation: | aAdvanced Technology Research Laboratories, Matsushita Electric Industrial Co., Ltd. (Panasonic), Japan;bLaboratories for Nanobiology, Graduate School of Frontier Biosciences, Osaka University, Japan |
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| Abstract: | “End of Moore’s Law” has recently become a topic. Keeping the signal-to-noise ratio (SNR) at the same level in the future will surely increase the energy density of smaller-sized transistors. Lowering the operating voltage will prevent this, but the SNR would inevitably degrade. Meanwhile, biological systems such as cells and brains possess robustness against noise in their information processing in spite of the strong influence of stochastic thermal noise. Inspired by the information processing of organisms, we propose a stochastic computing model to acquire information from noisy signals. Our model is based on vector matching, in which the similarities between the input vector carrying external noisy signals and the reference vectors prepared in advance as memorized templates are evaluated in a stochastic manner. This model exhibited robustness against the noise strength and its performance was improved by addition of noise with an appropriate strength, which is similar to a phenomenon observed in stochastic resonance. Because the stochastic vector matching we propose here has robustness against noise, it is a candidate for noisy information processing that is driven by stochastically-operating devices with low energy consumption in future. Moreover, the stochastic vector matching may be applied to memory-based information processing like that of the brain. |
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| Keywords: | Stochastic computing Noise-robust Vector matching Biological system Similarity |
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