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Paper detail

The BrainScaleS-2 accelerated neuromorphic system with hybrid plasticity

Since the beginning of information processing by electronic components, the nervous system has served as a metaphor for the organization of computational primitives. Brain-inspired computing today encompasses a class of approaches ranging from using novel nano-devices for computation to research into large-scale neuromorphic architectures, such as TrueNorth, SpiNNaker, BrainScaleS, Tianjic, and Loihi. While implementation details differ, spiking neural networks - sometimes referred to as the third generation of neural networks - are the common abstraction used to model computation with such systems. Here we describe the second generation of the BrainScaleS neuromorphic architecture, emphasizing applications enabled by this architecture. It combines a custom analog accelerator core supporting the accelerated physical emulation of bio-inspired spiking neural network primitives with a tightly coupled digital processor and a digital event-routing network.

preprint2022arXivOpen access
Christian PehleSebastian BillaudelleBenjamin CramerJakob KaiserKorbinian SchreiberYannik StradmannJohannes WeisAron LeibfriedEric MüllerJohannes Schemmel
Neural and Evolutionary Computingcond-mat.dis-nnNeurons and Cognition
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Christian PehleSebastian BillaudelleBenjamin CramerJakob KaiserKorbinian SchreiberYannik StradmannJohannes WeisAron LeibfriedEric MüllerJohannes Schemmel

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