<> "The repository administrator has not yet configured an RDF license."^^ . <> . . "Interconnect technologies for very large spiking neural networks"^^ . "In the scope of this thesis, a neural event communication architecture has been developed for use in an accelerated neuromorphic computing system and with a packet-based high performance interconnection network. Existing neuromorphic computing systems mostly use highly customised interconnection networks, directly routing single spike events to their destination. In contrast, the approach of this thesis uses a general purpose packet-based interconnection network and accumulates multiple spike events at the source node into larger network packets destined to common destinations. This is required to optimise the payload efficiency, given relatively large packet headers as compared to the size of neural spike events.\r\nTheoretical considerations are made about the efficiency of different event aggregation strategies. Thereby, important factors are the number of occurring event network-destinations and their relative frequency, as well as the number of available accumulation buffers. Based on the concept of Markov Chains, an analytical method is developed and used to evaluate these aggregation strategies. Additionally, some of these strategies are stochastically simulated in order to verify the analytical method and evaluate them beyond its applicability. Based on the results of this analysis, an optimisation strategy is proposed for the mapping of neural populations onto interconnected neuromorphic chips, as well as the joint assignment of event network-destinations to a set of accumulation buffers.\r\nDuring this thesis, such an event communication architecture has been implemented on the communication FPGAs in the BrainScaleS-2 accelerated neuromorphic computing system. Thereby, its usability can be scaled beyond single chip setups. For this, the EXTOLL network technology is used to transport and route the aggregated neural event packets with high bandwidth and low latency. At the FPGA, a network bandwidth of up to 12 Gbit/s is usable at a maximum payload efficiency of 94 %. The latency has been measured in the scope of this thesis to a range between 1.6 μs and 2.3 μs across the network between two neuron circuits on separate chips. This latency is thereby mostly dominated by the path from the neuromorphic chip across the communication FPGA into the network and back on the receiving side. As the EXTOLL network hardware itself is clocked at a much higher frequency than the FPGAs, the latency is expected to scale in the order of only approximately 75 ns for each additional hop through the network.\r\nFor being able to globally interpret the arrival timestamps that are transmitted with every spike event, the system time counters on the FPGAs are synchronised across the network. For this, the global interrupt mechanism implemented in the EXTOLL hardware is characterised and used within this thesis. With this, a synchronisation accuracy of ±40ns could be measured.\r\nAt the end of this thesis, the successful emulation of a neural signal propagation model, distributed across two BrainScaleS-2 chips and FPGAs is demonstrated using the implemented event communication architecture and the described synchronisation mechanism."^^ . "2023" . . . . . . . "Tobias"^^ . "Thommes"^^ . "Tobias Thommes"^^ . . . . . . "Interconnect technologies for very large spiking neural networks (PDF)"^^ . . . "Dissertation_TobiasThommes_141223_PDF-A.pdf"^^ . . . "Interconnect technologies for very large spiking neural networks (Other)"^^ . . . . . . "indexcodes.txt"^^ . . . "Interconnect technologies for very large spiking neural networks (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "Interconnect technologies for very large spiking neural networks (Other)"^^ . . . . . . "preview.jpg"^^ . . . "Interconnect technologies for very large spiking neural networks (Other)"^^ . . . . . . "medium.jpg"^^ . . . "Interconnect technologies for very large spiking neural networks (Other)"^^ . . . . . . "small.jpg"^^ . . "HTML Summary of #34189 \n\nInterconnect technologies for very large spiking neural networks\n\n" . "text/html" . . . "530 Physik"@de . "530 Physics"@en . .