David Atienza AlonsoDavid Atienza Alonso is an associate professor of EE and director of the Embedded Systems Laboratory (ESL) at EPFL, Switzerland. He received his MSc and PhD degrees in computer science and engineering from UCM, Spain, and IMEC, Belgium, in 2001 and 2005, respectively. His research interests include system-level design methodologies for multi-processor system-on-chip (MPSoC) servers and edge AI architectures. Dr. Atienza has co-authored more than 350 papers, one book, and 12 patents in these previous areas. He has also received several recognitions and award, among them, the ICCAD 10-Year Retrospective Most Influential Paper Award in 2020, Design Automation Conference (DAC) Under-40 Innovators Award in 2018, the IEEE TCCPS Mid-Career Award in 2018, an ERC Consolidator Grant in 2016, the IEEE CEDA Early Career Award in 2013, the ACM SIGDA Outstanding New Faculty Award in 2012, and a Faculty Award from Sun Labs at Oracle in 2011. He has also earned two best paper awards at the VLSI-SoC 2009 and CST-HPCS 2012 conference, and five best paper award nominations at the DAC 2013, DATE 2013, WEHA-HPCS 2010, ICCAD 2006, and DAC 2004 conferences. He serves or has served as associate editor of IEEE Trans. on Computers (TC), IEEE Design & Test of Computers (D&T), IEEE Trans. on CAD (T-CAD), IEEE Transactions on Sustainable Computing (T-SUSC), and Elsevier Integration. He was the Technical Program Chair of DATE 2015 and General Chair of DATE 2017. He served as President of IEEE CEDA in the period 2018-2019 and was GOLD member of the Board of Governors of IEEE CASS from 2010 to 2012. He is a Distinguished Member of ACM and an IEEE Fellow.
Sandro CarraraSandro Carrara a été nommé IEEE Fellow pour ses remarquables réalisations dans le domaine de la conception de biocapteurs CMOS à l'échelle nanométrique. Il a également reçu le prix "IEEE Sensors Council Technical Achievement Award" en 2016 pour son leadership dans le domaine émergent du co-design des interfaces Bio/Nano/CMOS. Il est un Professeur titulaire à l' EPFL à Lausanne (Suisse) et responsable du groupe de recherche "Bio/CMOS Interfaces" (BCI). Il est ancien professeur de biocapteurs optiques et électriques au Département de génie électrique et de biophysique (DIBE) de l'Université de Gênes (Italie) et ancien professeur de nanotechnologie à l'Université de Bologne (Italie). Il est titulaire d'un doctorat en biochimie et de biophysique de l'Université de Padoue (Italie), une master en physique de l'Université de Gênes (Italie), et un diplôme en électronique de l'Institut National de Technologie à Albenga (Italie). Ses intérêts scientifiques sont sur les phénomènes électriques de films nano-bio-structuré, et comprennent CMOS conception de biopuces à base de protéines et de l'ADN. Le long de sa carrière, il a publié 7 livres, l'un comme auteur avec Springer sur les interfaces Bio/CMOS et, plus récemment, un manuel de bioélectronique avec La prestigieuse Cambridge University Press. Il a également publié plus de 250 articles scientifiques et est l'auteur de 13 brevets. Il est maintenant chef rédacteur du Journal IEEE Sensors; il est également fondateur et chef rédacteur du Journal BioNanoScience par Springer, et rédacteur adjoint de IEEE Transactions on Circuits and Biomedical Systems. Il est membre du IEEE Sensors Council et de son comité exécutif. Il était membre du Conseil des gouverneurs de la IEEE Circuits And Systems Society (CASS). Il a été nommé IEEE conférencier émérite pour les années 2017-2019 pour le Conseil IEEE Sensors, et de la société CASS pour les années 2013-2014. Son travail a reçu plusieurs reconnaissances internationales: plusieurs Top-25 Hottest-articles (2004, 2005, 2008, 2009, et deux fois en 2012) publiés dans des journaux internationales très fort impact telles que Biosensors and Bioelectronics, Sensors And Actuators B, IEEE Sensors, et Thin Solid Films; un Award à une conference de l'OTAN en 1996 pour la contribution originale à la physique de la conductivité à électron unique dans les nano-particules; six "Best Paper Awards" pour des articles présentés à la conférence IEEE Sensors Conference en 2019 (Montreal), IEEE NGCAS en 2017 (Genoa), MOBIHEALTH en 2016 (Milan), IEEE PRIME en 2015 (Glasgow), en 2010 (Berlin) et en 2009 (Cork), un prix de la meilleure affiche au rencontre annuel de Nanotera en 2011 (Berne), et un prix de la meilleure affiche au NanoEurope Symposium en 2009 (Rapperswil). De 1997 à 2000, il a été membre d'un comité international au ELETTRA Synchrotron à Trieste. De 2000 à 2003, il était responsable scientifique d'un Programme national de recherche (PNR) dans le dépôt de nanobiotechnologie. Il était un expert internationalement estimé du comité d'évaluation de l'Académie de Finlande dans un programme de recherche pour les années 2010-2013. Il a été le président général (General Chair) de la Conférence IEEE BioCAS 2014, le premier conférence internationale dans le domaine des circuits et des systèmes pour les applications biomédicales.
Diego Ruben BarrettinoDiego Barrettino (S’93–M’98–SM’06) received the Dipl.-Ing. degree in Electronic Engineering from the University of Buenos Aires, Argentina, in 1997, and the Ph.D. degree in Electrical Engineering from the Swiss Federal Institute of Technology Zurich (ETHZ) in 2004.
He worked at Allegro MicroSystems Inc., from 1997 to 2000, where he was an Analog IC Designer of Hall-effect magnetic sensors. From 2000 to 2004, he was a Ph.D. student and Research Assistant at ETHZ, where he designed chemical and mechanical sensors. In 2004, he moved to the USA where he designed biomedical devices first as a Post-Doctoral Research Associate in the University of Washington, and then as an Assistant Professor in the University of Hawaii. In 2006, he returned to Europe where he joined the Swiss Federal Institute of Technology Lausanne (EPFL) as a Senior Research Scientist for the design and development of biosensors using organic nanotransistors. From 2007 to 2009, he was a Senior Lecturer in the University of Glasgow, U.K., and in the University College Cork, Republic of Ireland, where he designed ultra-low power biomedical devices. From 2009 to 2017, he was Full Professor and Head of the Laboratory of Microelectronics, Bioelectronics and Sensor Systems (LMBS) at the University of Applied Sciences of Southern Switzerland (SUPSI), where he designed smart contact lenses and eye implants. In 2017, he joined both the Lucerne University of Applied Sciences (HSLU) and EPFL as a part-time Senior Research Scientist to continue his work on smart sensor systems.
His research interests are in the fields of physical, chemical, and biomedical microsensors; sensor fusion algorithms; analog and mixed-signal IC design; MEMS; embedded systems; avionics and bioelectronics.
Diego Barrettino is a senior member of the Institute of Electrical and Electronics Engineers (IEEE), a member of the American Institute of Aeronautics and Astronautics (AIAA) and a member of the American Association for the Advancement of Science (AAAS).
Mandresy Ivan Ny HanitraIvan received in 2013 a bachelor degree in Physics and Chemistry from Grenoble Institute of Technology (France), after two years of intensive training at Lycée Pierre de Fermat (France). He currently holds a master degree in Micro and Nanotechnologies for Integrated Systems, a joint degree between Politecnico di Torino (Italy), Grenoble Institute of Technology (France), and EPFL. During this international training, he acquired knowledge in Semiconductor physics and technology, Microtechnology (cleanroom practice), Microelectronics (analog/digital circuits design), Nanoelectronics (state-of-the art of emerging electron devices), Micro-nano systems modelling, VLSI design and testing, Embedded systems, and Optoelectronics. He pursued his master thesis at EPFL, in Electronics Laboratory (Prof. Kayal), developing low-power systems for photoplethysmographic-based heart rate monitoring. Ivan joined the Integrated Systems Laboratory (Prof. De Micheli), in October 2016, where he designed and realized in cleanroom multi-sensing platforms for electrochemical sensing applications.
Gian Luca BarbruniGian Luca Barbruni achieved his BSc and his MSc in Biomedical Engineering with specialisation in Biomedical Instrumentation at the Politecnico di Torino in 2017 and 2019, respectively.During his master thesis, supervised by Prof. Danilo Demarchi from Politecnico di Torino and titled “Body Dust: Feasibility study on signal transmission for sub-100μm-size active wireless biosensors”, he spent a semester of research at Integrated Circuit Laboratory (ICLAB) of Neuchâtel under the supervision of Prof. Sandro Carrara from École Polytechnique Fédérale de Lausanne (EPFL), Switzerland. He discusses about the feasibility on creating an UltraSound (US) communication circuit to wirelessly transmit outside the body diagnostic information from multiplexed biosensors chip built on the top layer of a drinkable CMOS “Body Dust” cube. The results of the feasibility study have been published showing promising results with sub-10 µW of power consumption and a total chip area of 43 x 44 µm2.He was a Research Assistant at the Department of Electronic Engineering (DET) of Politecnico di Torino.Actually he is conducting his PhD focusing on design and fabrication of analog and digital circuits for ultra-miniaturized CMOS for vision prosthesis, directed by Prof. Diego Ghezzi at Medtronic Chair in Neuroengineering in Geneva and co-directed by Prof. Sandro Carrara at ICLAB in Neuchâtel.
Junrui ChenJunrui Chen was born in 1995 in Jinhua, China.
He achieved his BSc. in mechanism and its automation from Beihang University(BUAA), Beijing in 2017. Meanwhile, he also gets a second degree in Business administration and management. He graduated with MSc. at Karlsruhe Institute of Technology (KIT), Germany in 2021, majored in medical technology (IBT, Instituts für Biomedizinische Technik) and Biomems technology (IMT, Institute of Microstructure Technology).
In March 2022 he joined Integrated Circuits Laboratory (ICLAB) at EPFL and is currently pursuing his Ph.D. in Microsystems and Microelectronics under the supervision of Prof. Sandro Carrara. His current research field is based on silicon memristive nanowire, which is a cross-discipline project supported by expertise in Microstructure technology, promoted by a solid background in Machinery and Electronics, and supplemented by programming skills.
