In this paper we present a new dynamic routing algorithm specially implemented for a new electronic tissue called POEtic. This reconfigurable circuit is designed to ease the implementation of bio-inspired systems that bring cellular applications into play. Specifically designed for implementing cellular applications, such as neural networks, this circuit is composed of two main parts: a two-dimensional array of basic elements similar to those found in common commercial FPGAs, and a two-dimensional array of routing units that implement a dynamic routing algorithm which allows the creation of data paths between cells at runtime
In this paper we explain how the POEtic chip can be used for rapid prototyping. The POEtic chip, cur...
This paper presents the physical hardware realization of a novel bio-inspired architecture, called P...
Dynamic Circuit Specialization (DCS) is a new FPGA CAD tool flow that uses Run-Time Reconfiguration ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
This paper introduces the ubichip, a custom reconfigurable electronic device capable of implementing...
The ubichip is a bio-inspired reconfigurable circuit developed in the framework of the european proj...
In the recent years, Xilinx devices, like the XC6200, were the preferred solutions for evolving digi...
A novel multi-cellular electronic circuit capable of evolution and development is described here. T...
A novel multi-cellular electronic circuit capable of evolution and development is described here. Th...
Fault tolerance is a crucial operational aspect of biological systems and the self-repair capabiliti...
Every commercially available FPGA supplies high routing capabilities. However, placement and routing...
In this paper we explain how the POEtic chip can be used for rapid prototyping. The POEtic chip, cur...
The implementation of bio-inspired systems in hardware has traditionally been more a matter of artis...
In this paper we explain how the POEtic chip can be used for rapid prototyping. The POEtic chip, cur...
This paper presents the physical hardware realization of a novel bio-inspired architecture, called P...
Dynamic Circuit Specialization (DCS) is a new FPGA CAD tool flow that uses Run-Time Reconfiguration ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
This paper introduces the ubichip, a custom reconfigurable electronic device capable of implementing...
The ubichip is a bio-inspired reconfigurable circuit developed in the framework of the european proj...
In the recent years, Xilinx devices, like the XC6200, were the preferred solutions for evolving digi...
A novel multi-cellular electronic circuit capable of evolution and development is described here. T...
A novel multi-cellular electronic circuit capable of evolution and development is described here. Th...
Fault tolerance is a crucial operational aspect of biological systems and the self-repair capabiliti...
Every commercially available FPGA supplies high routing capabilities. However, placement and routing...
In this paper we explain how the POEtic chip can be used for rapid prototyping. The POEtic chip, cur...
The implementation of bio-inspired systems in hardware has traditionally been more a matter of artis...
In this paper we explain how the POEtic chip can be used for rapid prototyping. The POEtic chip, cur...
This paper presents the physical hardware realization of a novel bio-inspired architecture, called P...
Dynamic Circuit Specialization (DCS) is a new FPGA CAD tool flow that uses Run-Time Reconfiguration ...