A SIMD/dataflow architecture for a neurocomputer for spike-processing neural networks (NESPINN)

Author

Jahnke, Axel ; Roth, Ulrich ; Klar, Heinrich

Author_Institution

Inst. fur Mikroelectronik, Tech. Univ. Berlin, Germany

fYear

1996

fDate

12-14 Feb 1996

Firstpage

232

Lastpage

237

Abstract

We present the architecture of a a neurocomputer for the simulation of spike-processing biological neural networks (NESPINN). It consists mainly of a neuron state memory, two connectivity units, a spike-event list, a sector unit and the NESPINN chip with a control unit, and eight PEs with 2 kB local on-chip memory each. In order to increase the performance features such as mixed SIMD/dataflow mode are included. The neurocomputer allows the simulation of up to 512 k neurons with a speed-up of ca. 600 over a Sparc-10. It thus allows tackling difficult low vision problems (e.g. scene segmentation) or simulation of the detailed spike behaviour of large cortical networks

Keywords

computer vision; data flow computing; image segmentation; neural net architecture; parallel architectures; NESPINN; SIMD/dataflow architecture; connectivity units; large cortical networks; local on-chip memory; low vision problems; neurocomputer; neuron state memory; scene segmentation; sector unit; spike-event list; spike-processing neural networks; Assembly; Biological neural networks; Biological system modeling; Brain modeling; Delay; Layout; Network topology; Neural networks; Neurons; Signal processing;

fLanguage

English

Publisher

ieee

Conference_Titel

Microelectronics for Neural Networks, 1996., Proceedings of Fifth International Conference on

Conference_Location

Lausanne

ISSN

1086-1947

Print_ISBN

0-8186-7373-7

Type

conf

DOI

10.1109/MNNFS.1996.493796

Filename

493796