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M. Chiappalone, F. Difato, G. Breschi, V. Pasquale, M. Bisio et al., Linking biological and artificial neuronal assemblies to restore lost brain functions, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00966015

S. Baccar, T. Levi, D. Dallet, V. Shitikov, and F. Barbara, A Validity Study of an Industrial SPICE based Opamp Macromodel for High-Temperature Simulation, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00955722

F. Grassia, T. Levi, S. Saighi, and T. Kohno, Bifurcation analysis in a silicon neuron, 17 th International Symposium on Artificial Life and Robotics, 2012.
DOI : 10.1209/0295-5075/23/5/011
URL : https://hal.archives-ouvertes.fr/hal-00775856

S. Baccar, T. Levi, D. Dallet, V. Shitikov, and F. Barbara, A behavioral and temperature measurements-based modeling of an operational amplifier using VHDL-AMS, 2010 17th IEEE International Conference on Electronics, Circuits and Systems, 2010.
DOI : 10.1109/ICECS.2010.5724523
URL : https://hal.archives-ouvertes.fr/hal-00560417

S. Baccar, S. Quaisar, T. Levi, D. Dallet, V. Shitikov et al., Analog to digital converters for high temperature applications: The modeling approach issue, 2010 IEEE Instrumentation & Measurement Technology Conference Proceedings, 2010.
DOI : 10.1109/IMTC.2010.5488109
URL : https://hal.archives-ouvertes.fr/hal-00514180

T. Levi and T. Kohno, Silicon Neural Network Circuits for Smart-MEMs Systems, CMOS Emerging Technologies, 2009.

T. Levi and T. Kohno, Réseaux de neurones sur silicium : Conception et applications sur des MEMS, Journées Francophones de la Recherche JFR, 2009.

T. Levi, J. Beche, S. Bonnet, and R. Guillemaud, IP-based toolbox for digital signal processing reuse: Application to Real-time Spike sorting, IP-based Design Conference, 2008.

T. Levi, J. Beche, S. Bonnet, R. Escola, A. Defontaine et al., Traitement du signal embarqué temps réel pour les systèmes d'enregistrement de signaux neuronaux, 2008.

T. Levi, T. J. Lewis, N. Fouillat, and P. , Resizing methodology for CMOS analog circuit, SPIE Microtechnologies for the New Millenium, 2007.

T. Levi, T. J. Lewis, N. Fouillat, and P. , IP-based design reuse for analogue systems: a case study, SPIE Microtechnologies for the New Millenium, 2007.

T. Levi, N. Lewis, Y. Bornat, A. Destexhe, and T. J. , An IP-based library for the design of analog Hodgkin Huxley neurons, Systems, Signal and Devices Conference SSD, 2007.

T. Levi, N. Lewis, T. J. Fouillat, and P. , IP-based design for analogue ASICs: A case study, IP-based SoC Design Conference, pp.135-139, 2006.

T. Levi, N. Lewis, T. J. Fouillat, and P. , Scaling Rules for MOS Analog Design Reuse, Mixed Design of Integrated Circuits and Systems MIXDES, pp.378-382, 2006.

J. Tomas, Y. Bornat, S. Saighi, T. Levi, and S. Renaud, Design of a modular and mixed neuromimetic ASIC, 2006 13th IEEE International Conference on Electronics, Circuits and Systems, pp.946-949, 2006.
DOI : 10.1109/ICECS.2006.379946
URL : https://hal.archives-ouvertes.fr/hal-00181404

F. Khoyratee, T. Levi, and S. Saighi, FPGA Implementation of the Hodgkin-Huxley Model for Neurological Disease study, GDR BioComp, 2016.

T. Levi, Microfluidic neuron: a new way for neuromorphic research ?, GDR Microfluidique, 2016.

T. Levi and . Neuroprotest, Conception d'une plateforme de test pour les neuroprothèses, Workshop INSIS Electronique à l'interface avec le vivant, 2016.

T. Levi, M. Ambroise, and S. Saighi, Digital Biomimetic Spiking Neural Network for closed-loop systems, GDR MultiElectrode systems for, Neuroscience, pp.5-8, 2016.

S. Joucla, M. Ambroise, T. Levi, T. Lafon, P. Chauvet et al., Generation of Locomotor-Like Activity in the Isolated Rat Spinal Cord by Electrical Microstimulations Driven by an Artificial CPG, GDR multielectrode systems & signal processing for neuroscience, 2013.

S. Baccar, T. Levi, D. Dallet, V. Shitikov, and F. Barbara, Etude de la validité d'un macromodèle industriel SPICE d'un amplificateur opérationnel pour une simulation en hautes températures, 2012.

S. Baccar, T. Levi, and D. Dallet, Modélisation Comportementale d'un Amplificateur Opérationnel en Hautes Températures, GDR SoC-SIP, 2011.

T. Levi, N. Lewis, T. J. Fouillat, and P. Ip-, Based Library for Analog Design Reuse, GDR SoC-SIP, pp.13-15, 2007.
DOI : 10.1117/12.721882
URL : https://hal.archives-ouvertes.fr/hal-00181424

N. Lewis, Y. Bornat, L. Alvado, C. Lopez, A. Daouzli et al., PAX : un outil logiciel / matériel d'investigation pour les neurosciences computationnelles, 1ère conférence française de Neurosciences Computationnelles, pp.171-174, 2006.

T. Levi, Implantation sur Silicium en Technologie CMOS d'un Modèle de Neurones, Journées Nationales du Réseau Doctoral de Microélectronique, pp.10-12, 2005.

T. Levi, NEUROPROTEST: Conception d'une plateforme de test pour les neuroprothèses, Workshop INSIS Electronique à l'interface avec le vivant, 2016.

T. Levi, Biomimetic Neural Network for the new generation of neuroprothesis, ENS Paris, 2016.

T. Levi, Digital Biomimetic neural networks for hybrid experiments, 2016.

T. Levi, Biomimetic neural network for the new neuromorphic roadmap, Beyond CMOS, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01227648

T. Levi, Biomimetic artificial neural network for hybrid experiments, BioElectronics for Medical Engineering Brainetome, Chinese Academy of Science, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01227642

T. Levi, Postdoctorat à l'etranger, 2013.

T. Levi, Neuromorphic engineering, BioElectronics for Medical Engineering, BELEM IP, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00587519

T. Levi, BioElectronic and Microfluidic Neurons, LIMMS Scientific Meeting, 2012.

T. Levi, System-level design methods, BioElectronics for Medical Engineering, BELEM IP, 2012.

T. Levi, La microélectronique pour simuler les neurones, Conférences CPGE Brizeux, pp.25-2011

T. Levi and T. Kohno, Silicon Neural Network Circuits for Smart-MEMs Systems, CMOS Emerging Technologies, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00514191

T. Levi, Neuromorphic Engineering, Science Dialogue JSPS Quarterly, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00587519

. Le-professeur-takashi and . Kohno, Celui-ci a été chercheur invité du laboratoire IMS à mon initiative de Novembre à Décembre 2011 Une ANR Blanche a été déposée en collaboration avec le Pr. T. Kohno cette année. J'ai été invité trois fois à l, Novembre 2012 et Octobre 2016) pour assister à l'évaluation CNRS et également présenté mes travaux au LIMMS Scientific Meeting. J'ai été en délégation CNRS au LIMMS pour une durée de 2 ans, 2008.

I. and R. Scientifiques, Responsabilités scientifiques -Co-responsable du Groupement de Travail (GT) de l'INSIS sur le Neuro-Engineering

. Honegger, G. Ltm-), . Larrieu, F. Laas-), and . Alibart, 2016 -Responsable scientifique pour le CNRS du PEPS BioElectronique, NeuroProtest, 2015 -Responsable scientifique pour le CNRS du contrat de recherche européen BrainBow (Linking biological and artificial neuronal assemblies to restore lost brain functions: towards the design of innovative bi-directional neuroprostheses, FP7, FET Young Explorer Scientific leader, Principal Investigator. http://www.brainbowproject.eu/ -Responsable scientifique local du contrat de recherche ANR Blanche HYRENE (Circuits et systèmes intégrés pour l'hybridation de réseaux de neurones artificiels avec la moelle épinière ex vivo) -Participation au contrat de recherche européen FACETS-ITN 2009-2014 (Fast Analog Computing with Emergent Transient States, FP7-PEOPLE-ITN-2008-237955). http://facets.kip.uni-heidelberg.de/. -Participation au contrat de recherche européen FACETS, Fast Analog Computing with Emergent Transient States, pp.2012-2015, 2001.

L. Geii-de, Bordeaux est le n°1 en France pour les stages à l'étranger. Plus de 33% des étudiants effectuent leur stage à l'international. Par exemple, cette année 35 étudiants sur une promotion de 89 étudiants (en enlevant les étudiants en alternance)

S. Avec-mes-collègues, J. Bouter, and . Guillet, nous avons créé un groupe (26 étudiants) 2 nd year International Track pour les étudiants de l'IUT GEII Bordeaux. Les cours, TD, TP du S3 sont à 55% en anglais ; en outre un stage à l'international de 10 semaines est obligatoire