Superconducting optoelectronic hardware is being explored as a path towards artificial spiking neural networks with unprecedented scales of complexity and computational ability. Such hardware combines integrated-photonic components for few-photon, light-speed communication with superconducting circuits for fast, energy-efficient computation. Monolithic integration of superconducting and photonic devices is necessary for the scaling of this technology. In the present work, superconducting-nanowire single-photon detectors are monolithically integrated with Josephson junctions for the first time, enabling the realization of superconducting optoelectronic synapses. We present circuits that perform analog weighting and temporal leaky integration of single-photon presynaptic signals. Synaptic weighting is implemented in the electronic domain so that binary, single-photon communication can be maintained. Records of recent synaptic activity are locally stored as current in superconducting loops. Dendritic and neuronal nonlinearities are implemented with a second stage of Josephson circuitry. The hardware presents great design flexibility, with demonstrated synaptic time constants spanning four orders of magnitude (hundreds of nanoseconds to milliseconds). The synapses are responsive to presynaptic spike rates exceeding 10 MHz and consume approximately 33 aJ of dynamic power per synapse event before accounting for cooling. In addition to neuromorphic hardware, these circuits introduce new avenues towards realizing large-scale single-photon-detector arrays for diverse imaging, sensing, and quantum communication applications.
翻译:正在探索超导光电子硬件,作为人工喷射神经网络的一条路径,其复杂性和计算能力达到前所未有的规模。这种硬件将微光、光速通信和超导电路的集成-光速通信结合成几发光速、节能计算。超导和光电装置的单线集成对于推广这一技术十分必要。在目前的工作中,超导-纳诺威单粒子探测器首次与约瑟森接合点的单体融合在一起,从而实现超导电子神经突触。我们展示了对单发光速前合成信号进行模拟加权和时间泄漏整合的电路。在电子领域实施同步加权,这样可以保持超导导电路、单发光电和光电装置的单发集集成。最近合成活动的记录被本地存储为超导回路流中的最新存储记录。在约瑟夫森电路的第二个新版本应用中,使超导电子神经神经神经神经神经通点的超导质应用得以实现。 硬件展示了设计上的巨大灵活性,并展示了单发光速前期前的神经- 直径直径直径直径直径直径直径直径直径, 直到连续的直径直径直径直径直径直系直达至四级直系的直径直径直径直径直系的直径直径直径直径直系的直至直至直至直至直至直至直至直径直径直径直至直至直系。