In this article, we propose to design a new modular architecture for a self-organizing map (SOM) neural network. The proposed approach, called systolic-SOM (SSOM), is based on the use of a generic model inspired by a systolic movement. This model is formed by two levels of nested parallelism of neurons and connections. Thus, this solution provides a distributed set of independent computations between the processing units called neuroprocessors (NPs) which define the SSOM architecture. The NP modules have an innovative architecture compared to those proposed in the literature. Indeed, each NP performs three different tasks without requiring additional external modules. To validate our approach, we evaluate the performance of several SOM netw...
We define a hardware controller in which a grid of processing elements (PEs) will support a set of n...
Porrmann M, Ruping S, Rückert U. SOM hardware with acceleration module for graphical representation ...
Depuis son introduction en 1982, la carte auto-organisatrice de Kohonen (Self-Organizing Map : SOM) ...
Rüping S, Porrmann M, Rückert U. SOM Accelerator System. Neurocomputing. 1998;21:31-50.Many applicat...
International audienceThis paper presents the self-organized neuromorphic architecture named SOMA. T...
International audienceFace to the limitations of the classical computationmodel, neuromorphic system...
The motivation for this research is to be able to replicate a simplified neuronal model onto an FPGA...
We have designed a modular SOM systolic architecture that can classify data vectors with thousands o...
Since its introduction in 1982, Kohonen’s Self-Organizing Map (SOM) showed its ability to classify a...
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...
The paper presents a method for FPGA implementation of Self-Organizing Map (SOM) artificial neural n...
In this paper we present a system which enables easy and fast computation of Kohonen's selforga...
Rüping S, Porrmann M, Rückert U. A High Performance SOFM Hardware-System. In: Proceedings of the In...
Honolulu, HI. 1-5 April 2007. Proceedings of the 2007 IEEE Symposium on Foundations of Computational...
We define a hardware controller in which a grid of processing elements (PEs) will support a set of n...
Porrmann M, Ruping S, Rückert U. SOM hardware with acceleration module for graphical representation ...
Depuis son introduction en 1982, la carte auto-organisatrice de Kohonen (Self-Organizing Map : SOM) ...
Rüping S, Porrmann M, Rückert U. SOM Accelerator System. Neurocomputing. 1998;21:31-50.Many applicat...
International audienceThis paper presents the self-organized neuromorphic architecture named SOMA. T...
International audienceFace to the limitations of the classical computationmodel, neuromorphic system...
The motivation for this research is to be able to replicate a simplified neuronal model onto an FPGA...
We have designed a modular SOM systolic architecture that can classify data vectors with thousands o...
Since its introduction in 1982, Kohonen’s Self-Organizing Map (SOM) showed its ability to classify a...
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...
The paper presents a method for FPGA implementation of Self-Organizing Map (SOM) artificial neural n...
In this paper we present a system which enables easy and fast computation of Kohonen's selforga...
Rüping S, Porrmann M, Rückert U. A High Performance SOFM Hardware-System. In: Proceedings of the In...
Honolulu, HI. 1-5 April 2007. Proceedings of the 2007 IEEE Symposium on Foundations of Computational...
We define a hardware controller in which a grid of processing elements (PEs) will support a set of n...
Porrmann M, Ruping S, Rückert U. SOM hardware with acceleration module for graphical representation ...
Depuis son introduction en 1982, la carte auto-organisatrice de Kohonen (Self-Organizing Map : SOM) ...