ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks

Wolff C, Hartmann G, Rückert U (1999)
In: Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on. IEEE Comput. Soc: 324-331.

Konferenzbeitrag | Veröffentlicht | Englisch
 
Download
Es wurden keine Dateien hochgeladen. Nur Publikationsnachweis!
Autor*in
Wolff, C.; Hartmann, G.; Rückert, UlrichUniBi
Abstract / Bemerkung
The fast simulation of large networks of spiking neurons is a major task for the examination of biology inspired vision systems. Networks of this type are labelling features by synchronization of spikes and there is strong demand to simulate those effects in a real world environment. Because of the quite complex calculations for one model neuron the simulation of thousands or millions of these neurons is not efficient on existing hardware platforms. In order to simulate closer to the real time requirement, it is necessary to implement a dedicated hardware. Our aim is a hardware system mainly consisting of standard components which is as flexible as possible concerning the model neuron but as specialized as necessary to meet our performance requirements. Thus we decided to implement a parallel system with Digital Signal Processors (DSP) offering a large on-chip-memory. One main task of this work is the optimization of the simulation algorithm for the neurons distributed to the DSP which means the sequential part of simulation. This optimization benefits from the fact that there is only a very low percentage of simultaneously active neurons in vision networks. For communication between the nodes only spikes are distributed via a spike switching network. Processing of the network topology is realized by two different concepts. One idea is to compute the synapses autonomously on the processing node by representing a regular connection scheme with one connection mask for many neurons. Additional connections requiring adaptability and irregular connection schemes are stored in a shared memory. To avoid a bottleneck a synapse caching is used within each processing node. This paper describes the architecture of a DSP accelerator and shows the advantages with simulation results from a typical large vision network
Stichworte
parallel architectures; digital signal processing chips; synchronisation; regular connection scheme; ParSPIKE; adaptability; synapses; spike switching network; connection mask; biology inspired vision systems; dedicated hardware; dynamic simulation; digital signal processors; irregular connection schemes; large spiking neural networks; large vision network; network topology; on-chip-memory; processing node; simulation algorithm; parallel DSP-accelerator; synchronization; neural chips; computer vision
Erscheinungsjahr
1999
Titel des Konferenzbandes
Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on
Seite(n)
324-331
ISBN
0769500439
Page URI
https://pub.uni-bielefeld.de/record/2285834

Zitieren

Wolff C, Hartmann G, Rückert U. ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks. In: Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on. IEEE Comput. Soc; 1999: 324-331.
Wolff, C., Hartmann, G., & Rückert, U. (1999). ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks. Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on, 324-331. IEEE Comput. Soc. https://doi.org/10.1109/MN.1999.758882
Wolff, C., Hartmann, G., and Rückert, Ulrich. 1999. “ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks”. In Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on, 324-331. IEEE Comput. Soc.
Wolff, C., Hartmann, G., and Rückert, U. (1999). “ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks” in Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on (IEEE Comput. Soc), 324-331.
Wolff, C., Hartmann, G., & Rückert, U., 1999. ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks. In Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on. IEEE Comput. Soc, pp. 324-331.
C. Wolff, G. Hartmann, and U. Rückert, “ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks”, Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on, IEEE Comput. Soc, 1999, pp.324-331.
Wolff, C., Hartmann, G., Rückert, U.: ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks. Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on. p. 324-331. IEEE Comput. Soc (1999).
Wolff, C., Hartmann, G., and Rückert, Ulrich. “ParSPIKE-a parallel DSP-accelerator for dynamic simulation of large spiking neural networks”. Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on. IEEE Comput. Soc, 1999. 324-331.
Export

Markieren/ Markierung löschen
Markierte Publikationen

Open Data PUB

Suchen in

Google Scholar
ISBN Suche