Lachmair J, Merényi E, Porrmann M, Rückert U. A reconfigurable neuroprocessor for self-organizing feature maps. Neurocomputing. 2013;112(SI):189-199.In this article we compare a scalable FPGA-based hardware accelerator for the emulation of Self-Organizing Feature Maps (SOMs) with a multi-threaded software implementation on a state-of-the-art multi-core microprocessor. After discussing the mapping of SOMs to the reconfigurable digital hardware implementation, we present how the modular system architecture can be flexibly adapted to various application datasets as well as to variants of SOMs like Conscience SOM. Hyperspectral image processing is used as a benchmark scenario for the comparison of our FPGA-based hardware accelerator and state-o...
We have designed a modular SOM systolic architecture that can classify data vectors with thousands o...
In this paper we present a hardware realization of Kohonen's selforganizing feature map as a ne...
In this article, we propose to design a new modular architecture for a self-organizing map (SOM) neu...
Porrmann M, Witkowski U, Rückert U. A Massively Parallel Architecture for Self-Organizing Feature Ma...
Abstract. A dynamically reconfigurable hardware accelerator for self-organizing feature maps is pres...
Porrmann M, Kalte H, Witkowski U, Niemann J-C, Rückert U. A Dynamically Reconfigurable Hardware Acce...
Rüping S, Rückert U. A Scalable Processor Array for Self-Organizing Feature Maps. In: Proceedings o...
Rüping S, Porrmann M, Rückert U. SOM Accelerator System. Neurocomputing. 1998;21:31-50.Many applicat...
The motivation for this research is to be able to replicate a simplified neuronal model onto an FPGA...
Rüping S, Porrmann M, Rückert U. A High Performance SOFM Hardware-System. In: Proceedings of the In...
This article presents the implementation of a neuroprocessor based on a self-organizing map (SOM) ar...
International audienceFace to the limitations of the classical computationmodel, neuromorphic system...
The field of artificial intelligence has significantly advanced over the past decades, inspired by d...
The field of artificial intelligence has significantly advanced over the past decades, inspired by d...
Since its introduction in 1982, Kohonen’s Self-Organizing Map (SOM) showed its ability to classify a...
We have designed a modular SOM systolic architecture that can classify data vectors with thousands o...
In this paper we present a hardware realization of Kohonen's selforganizing feature map as a ne...
In this article, we propose to design a new modular architecture for a self-organizing map (SOM) neu...
Porrmann M, Witkowski U, Rückert U. A Massively Parallel Architecture for Self-Organizing Feature Ma...
Abstract. A dynamically reconfigurable hardware accelerator for self-organizing feature maps is pres...
Porrmann M, Kalte H, Witkowski U, Niemann J-C, Rückert U. A Dynamically Reconfigurable Hardware Acce...
Rüping S, Rückert U. A Scalable Processor Array for Self-Organizing Feature Maps. In: Proceedings o...
Rüping S, Porrmann M, Rückert U. SOM Accelerator System. Neurocomputing. 1998;21:31-50.Many applicat...
The motivation for this research is to be able to replicate a simplified neuronal model onto an FPGA...
Rüping S, Porrmann M, Rückert U. A High Performance SOFM Hardware-System. In: Proceedings of the In...
This article presents the implementation of a neuroprocessor based on a self-organizing map (SOM) ar...
International audienceFace to the limitations of the classical computationmodel, neuromorphic system...
The field of artificial intelligence has significantly advanced over the past decades, inspired by d...
The field of artificial intelligence has significantly advanced over the past decades, inspired by d...
Since its introduction in 1982, Kohonen’s Self-Organizing Map (SOM) showed its ability to classify a...
We have designed a modular SOM systolic architecture that can classify data vectors with thousands o...
In this paper we present a hardware realization of Kohonen's selforganizing feature map as a ne...
In this article, we propose to design a new modular architecture for a self-organizing map (SOM) neu...