TY  - GEN
AB  - This paper introduces the ubichip, a custom reconfigurable electronic device capable of implementing bioinspired circuits featuring growth, learning, and evolution. The ubichip is developed in the framework of Perplexus, a European project that aims to develop a scalable hardware platform made of bio-inspired custom reconfigurable devices for simulating large-scale complex systems. In  this paper, we describe the configurability and architectural mechanisms that will allow the implementation of evolvable and developmental cellular and neural systems in an efficient way. These mechanisms are dynamic routing, selfreconfiguration, and a neural-friendly logic cell’s architecture.
AD  - School of Engineering and Management Vaud, HES-SO, University of Applied Sciences and Arts Western Switzerland
AD  - School of Engineering and Management Vaud, HES-SO, University of Applied Sciences and Arts Western Switzerland
AD  - School of Engineering and Management Vaud, HES-SO, University of Applied Sciences and Arts Western Switzerland
AD  - School of Engineering and Management Vaud, HES-SO, University of Applied Sciences and Arts Western Switzerland
AD  - UPC, Barcelona, Spain
AD  - UPC, Barcelona, Spain
AU  - Upegui, Andres
AU  - Thoma, Yann
AU  - Sanchez, Eduardo
AU  - Perez-Uribe, Andres
AU  - Moreno, Juan Manuel
AU  - Madrenas, Jordi
CY  - Edinurgh, UK
DA  - 2007-08
ID  - 3479
JF  - Proceedings of Second NASA/ESA Conference on Adaptive Hardware and Systems(AHS 2007), 5-8 August 2007, Edinburgh, UK
KW  - Ingénierie
L1  - https://arodes.hes-so.ch/record/3479/files/Thoma_2007_Perplexus_bio-inspired_reconfigurable_circuit.pdf
L2  - https://arodes.hes-so.ch/record/3479/files/Thoma_2007_Perplexus_bio-inspired_reconfigurable_circuit.pdf
L4  - https://arodes.hes-so.ch/record/3479/files/Thoma_2007_Perplexus_bio-inspired_reconfigurable_circuit.pdf
LA  - eng
LK  - https://arodes.hes-so.ch/record/3479/files/Thoma_2007_Perplexus_bio-inspired_reconfigurable_circuit.pdf
N2  - This paper introduces the ubichip, a custom reconfigurable electronic device capable of implementing bioinspired circuits featuring growth, learning, and evolution. The ubichip is developed in the framework of Perplexus, a European project that aims to develop a scalable hardware platform made of bio-inspired custom reconfigurable devices for simulating large-scale complex systems. In  this paper, we describe the configurability and architectural mechanisms that will allow the implementation of evolvable and developmental cellular and neural systems in an efficient way. These mechanisms are dynamic routing, selfreconfiguration, and a neural-friendly logic cell’s architecture.
PB  - 5-8 August 2007
PP  - Edinurgh, UK
PY  - 2007-08
SN  - 978-0-7695-2866-3
T1  - The Perplexus bio-inspired reconfigurable circuit
TI  - The Perplexus bio-inspired reconfigurable circuit
UR  - https://arodes.hes-so.ch/record/3479/files/Thoma_2007_Perplexus_bio-inspired_reconfigurable_circuit.pdf
Y1  - 2007-08
ER  -