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IEEE CASS RJ Chapter Lecture – Flexible Electronics Sensors and Diagnostics
Centro de Tecnologia da UFRJ Cidade Universitária, Centro de Tecnologia, bloco H, sala 322, Rio de JaneiroCASS Distinguished Lecturer Sameer Sonkusale Abstract This talk will explore the new realm of making flexible sensors and diagnostics for point of care diagnostics. Specific applications range from early screening in resource poor settings, to smart wound dressings for chronic wounds. The key contributions of the work are on utilization of locally sourced universally available, low-cost materials such as paper, threads and textile, and close integration of such devices with miniaturized and integrated circuits and systems. In the first part of the talk, I will focus on the development of sensors and diagnostics on paper as an unconventional substrate. Fabrication of these devices rely on low cost, room temperature processing using a combination of screen and wax printing using locally available materials. Readout is achieved using a CMOS based low power cell phone accessory for point of care diagnostics. Other versions include using the imager on the smart phone itself for readout. An application in monitoring saliva for stomach ulcer screening will be discussed for paper diagnostics, In the second part of the talk, I will discuss our work on thread as an unconventional substrate for the realization of microfluidics, sensors and electronics for diagnostics. Beyond serving as an ideal platform for disposable lab on chip applications, thread also serves as an ideal platform for wearable and implantable application where softness, flexibility and the possibility of an intimate interface with skin and tissue is important. Application in chronic wound monitoring, smart surgical sutures and sweat monitoring will be shown. The talk will be interspersed with knowledge gaps and how the biomedical circuits and systems community can help address those in near term and long term. Short-bio Sameer Sonkusale is a Professor of Electrical and Computer Engineering at Tufts University, where he holds joint appointments in the departments of Biomedical Engineering and Chemical and Biological Engineering. He also served as a visiting professor at the Wyss Institute at Harvard University and Brigham and Women’s Hospital of the Harvard Medical School during 2011-2012 and 2018-2019, respectively. In 2012-2013, Dr. Sonkusale also served as the Associate Dean of Graduate Education in the School of Engineering at Tufts University. He currently directs an interdisciplinary research group, the Nano Lab, which focuses on developing new devices and systems for healthcare, biology, life sciences, and the environment. Dr. Sonkusale is a prolific inventor of several biomedical devices, including "smart bandages," "smart sutures," and "lab-on-a-pill." His innovation on "lab-on-a-pill" was listed as one of the top eight biomedical innovations in the world for the year 2020 in the STAT Madness challenge. The technologies developed in his lab have been licensed to several companies and have resulted in the creation of venture backed startup companies. Dr. Sonkusale earned his MS and PhD in Electrical Engineering from the University of Pennsylvania and has received several awards, including the National Science Foundation CAREER award in 2010. He was also honored with a Distinguished Alumni award from his alma mater, BITS Pilani. He is Radha K Maheshwari Distinguished Lecturers at USU in 2023, and IEEE CAS Distinguished Lecturer in 2024-2025. Dr. Sonkusale is also an alumnus of the National Academy of Engineering US Frontiers of Engineering meeting in 2015, and the National Academy of Sciences Arab-America Frontiers meeting in 2014 and 2016. Dr. Sonkusale serves on the editorial boards of several prominent journals, including Scientific Reports (Nature Publishing Group), IEEE Transactions on Biomedical Circuits and Systems, PLoS One, and Electronic Letters. He is a senior member of the IEEE and a member of OSA, MRS, BMES, and AAAS. Register Now CASS RJ Instagram: @ieee_cass_rj
IEEE CASS Workshop Rio: Current Trends in IC Design
Data: 31 de agosto de 2023 as 14:00 horas Endereço: Museu de Arte do Rio – MAR, Praça Mauá, 5 - Centro, Rio de Janeiro - RJ, 20081-240 O capítulo IEEE CASS Rio convida seus membros para participar do IEEE CASS Workshop: Current Trends in IC Design, o qual acontecerá no Museu de Arte do Rio (MAR) no dia 31 de agosto a partir das 14:00 horas. O Workshop acontecerá como um co-evento do SBCCI - Chip in Rio 2023, a principal conferência de microeletrônica do Brasil. Os membros ativos da IEEE CAS Society previamente inscritos até dia 22/08, e os participantes da conferencia Chip in Rio, terão o acesso gratuito ao Workshop. Lecture 01: Ratio based analog/RF design: a generalization of gm/ID and Inversion Coefficient methods - By Fernando Silveira - 14:20 PM to 15:00 PM Abstract Design methods for analog integrated circuits based on gm/ID have the key feature of being based on a magnitude (the gm/ID ratio) that provides information about the transistor operation independently of its width (W, letting aside very narrow transistors rarely applied in analog design) and length (L), except for a slight dependence on L in short channel devices. A general characteristic for the transistors of a given length in a given process is obtained. Therefore, it gives a global view and orientation about the design space. This makes it very suitable for helping the designer to gain insight on how to tune the design and, particularly, aiding novel designers to quickly find their way in the analog design art. The same applies to the, somehow “dual”, inversion coefficient (IC) based methods. Both methods are based on magnitudes (gm/ID and IC) that are ratios (or proportional to ratios) of key magnitudes of the transistor operation. Extensions and evolutions of the gm/ID method have, implicitly or explicitly, identified this “ratio based characteristic” and have shown the advantages of considering other key ratios of magnitudes that share the same characteristics as gm/ID of being W independent. The approach presented is particularly appropriate for nanoscale devices where multiple unitary devices in parallel are usually applied. This talk will provide an overview on these ratio based analog design approaches, contributing to show a general vision about them. These methods originally targeted small signal analog design. In the talk it will be shown examples of extension of the basic idea to nonlinear RF blocks (power amplifiers and envelope detectors) as well as to distortion analysis. Biography Fernando Silveira received the electrical engineering degree from Universidad de la República, Montevideo, Uruguay, in 1990, and the M.Sc. and Ph.D. degrees in microelectronics from Université catholique de Louvain, Louvain-la-Neuve, Belgium, in 1995 and 2002, respectively. He is currently a Professor with the Electrical Engineering Department, Universidad de la República. His research interests include the design of ultra-low-power analog and RF integrated circuits and systems, in particular with biomedical application. In this field, he has co-authored two books and many technical papers. He has had multiple industrial activities including leading the design of an application specified integrated circuit for implantable pacemakers and designing analog circuit modules for implantable devices for various companies worldwide, field in which he continues to do consulting. He was member of the Technical Advisory Board of Gtronix, Inc, USA from 2006 to 2010, received the “Ingeniero Destacado” (Distinguished Engineer) award by the Uruguayan Association of Engineers in 2007 and was a member for 2011-2012 of the Distinguished Lecturers Program of the IEEE Circuits and Systems Society. Since 2017 he is a member of the Honorary Committee of the National Researchers System of Uruguay. Lecture 02: Physical Design: New Solutions Inspired in the Past – By Ricardo Reis - 15:00 PM to 15:40 PM Abstract By the end of years ‘70s, microprocessors were designed by hand, showing na excellent layout compaction. It will be presented some highlights of the reverse engineering of the Z8000, which control part was designed by hand, showing several layout optimization strategies as well an optimization of the number of transistors. The observation of the Z8000 layout inspired the research of methods to do the automatic generation of the layout of any transistor network, allowing to reduce the number of transistors to implement a circuit, and by consequence, the leakage power consumption. Power Optimization is a keyword in the IoT world. Some of the layout automation tools developed by our group are briefly presented. It will also be presented why the use of visualization tools can help to improve the quality of EDA tools and to improve the quality of the solution. Biography Ricardo Reis received a Bachelor degree in Electrical Engineering from Federal University of Rio Grande do Sul (UFRGS), Porto Alegre, Brazil, in 1978, and a Ph.D. degree in Microelectronics from the National Polytechnic Institute of Grenoble (INPG), France, in 1983. Doctor Honoris Causa by the University of Montpellier in 2016. He is a full professor at the Informatics Institute of Federal University of Rio Grande do Sul. His main research includes physical design automation, design methodologies, fault tolerant systems and microelectronics education. He has more than 700 publications including books, journals and conference proceedings. He was vice-president of IFIP (International Federation for Information Processing) and he was also president of the Brazilian Computer Society (two terms) and vice-president of the Brazilian Microelectronics Society. He is an active member of CASS and he received the 2015 IEEE CASS Meritorious Service Award. He was vice-president of CASS for two terms (2008/2011). He is the founder of the Rio Grande do Sul CAS Chapter, which got the World CASS Chapter of The Year Award 2011, 2012, 2018 and 2022, and R9 Chapter of The Year 2013, 2014, 2016, 2017 and 2020. He is a founder of several conferences like SBCCI and LASCAS, the CASS Flagship Conference in Region 9. He was the General or Program Chair of several conferences like IEEE ISVLSI, SBCCI, IFIP VLSI-SoC, ICECS, PATMOS. Ricardo was the Chair of the IFIP/IEEE VLSI-SoC Steering Committee, vice-chair of the IFIP WG10.5 and he is Chair of IFIP TC10. He also started with the EMicro, an annually microelectronics school in South Brazil. In 2002 he received the Researcher of the Year Award in the state of Rio Grande do Sul. He is a founding member of the SBC (Brazilian Computer Society) and also founding member of SBMicro (Brazilian Microelectronics Society). He was member of CASS DLP Program (2014/2015), and he has done more than 70 invited talks in conferences. Member of IEEE CASS BoG and IEEE CEDA BoG. He is the CASS representative at the IEEE IoT TC. Ricardo received the IFIP Fellow Award in 2021 and the ACM/ISPD Lifetime Achievement Award in 2022. He received the 2023 IEEE CASS John Choma Educational Award. Lecture 03: The Tangled Tree of Technology – by Victor Grimblatt - 15:40 PM to 16:20 PM Abstract Charles Darwin’s “tree of life” is a model used to represent the “vertical evolution”: in Darwin’s “tree of life”, each new generation inherits the parental genes, the strongest, most favorable genes sprout, while the weakest become extinct. There is a “tree of technology” too. In truth, there are many; among the most notable are CMOS, and xPU. In these “trees of technology”, each new generation inherits the parental “genes”, unchanged, unchallenged, just smaller (CMOS) or bigger (xPU), an artificial Galapagos Islands ecosystem. Darwin’s “tree of life” has been challenged by UIUC Prof. Carl Woese, an “evolutionary biologist”, who proposed a more “tangled tree of life”, in which gene transfer, and therefore evolution happens both vertically (VGT), slowly, generation after generation of one organism, and horizontally (HGT), rapidly, across different organisms. Over the last four billion years, there have been several bursts of horizontal evolution, among which the “Cambrian explosion”, when practically all major phyla started appearing in the fossil record. In this talk, I propose that we are at the dawn of a technological “Cambrian explosion”; that we must challenge the established “trees of technology”; that only the entanglement of many different “trees of technology” will allow us to leapfrog the fundamental, physical limits that CMOS and xPU, are hitting against. Biography Victor Grimblatt has an engineering diploma in microelectronics from Institut Nationale Polytechnique de Grenoble (INPG – France) and an electronic engineering diploma from Universidad Tecnica Federico Santa Maria (Chile). He got his PhD on Electronics in 2021 from University of Bordeaux. He is currently R&D Group Director and General Manager of Synopsys Chile. He has published several papers in IoT, EDA, Smart Agriculture, Climate Change, and embedded systems development. Since 2012 he is chair of the IEEE Chilean joint chapter of CASS/EDS/SSCS. He has been part of several conferences TCP (ISCAS, ICECS, LASCAS) and Steering Committees. He is TPC chair of ISCAS 2024. He is member of the IEEE CASS Board of Governors for the period 2021 – 2023. He founded the Electronics for Agrifood SIG at CASS and chairs it. He was Chair of LASCAS Steering Committee from 2018 to 2022. He is CASS representative at the IEEE Climate Change TAB. He was President of the Chilean Electronic and Electrical Industry Association (AIE) from 2017 to 2021. From 2006 to 2008 he was member of the “Chilean Offshoring Committee” organized by the Minister of Economy of Chile. In 2010 he was awarded as “Innovator of the Year in Services Export”. In 2022 he was awarded as “IEEE/AIE Best Engineer” in Chile. In 2023 he was awarded as IEEE R9 Outstanding Engineer”. Victor’s research areas are EDA (Electronic Design Automation), Climate Change, and Smart Agriculture.
IEEE CASS RJ Chapter Lecture – Humans and Semiconductors Interface: Energy Efficiency and Edge Artificial Intelligence
Centro de Tecnologia da UFRJ Cidade Universitária, Centro de Tecnologia, bloco H, sala 322, Rio de JaneiroTitle Humans and Semiconductors Interface: Energy Efficiency and Edge Artificial Intelligence Abstract Humans' and Semiconductors' relationship have reshaped history for the past five decades. From Moore's Law, the semiconductor industry has favored a fast and low-cost development of technology. During the crisis, supply chain ruptures and resource scarcity have changed such equilibrium. It is time for the microelectronic research field to bring out some paradigms breakthroughs in terms of extreme energy efficient systems and bringing artificial intelligence to the sensor's edge. This tutorial summarizes the state of the art in this field and brings some recent scientific results of our team. Few of them includes: (a) low area, low power eNeurons suitable for Spiking Neural Networks; (b) spiking frequency modulation over audio bandwidth suggesting a Smart IoT hearing; (c) spiking frequency responsiveness over input waves suggesting a Smart IoT vision; (d) deep learning and energy efficiency trade-offs in analog spiking neurons. Short-bio Pietro FERREIRA (IEEE S'03-SG'06-M'12-SM'18) received the B.Eng. cum lauda in Electronics and Computer Eng. in 2006 the M.Sc. in Microelectronics in 2008 from the Federal University of Rio de Janeiro (UFRJ), Brazil; and the Ph.D. degree in Communications and Electronics from the Télécom Paris, IPP, France. Researching high-performance high-reliability circuits and systems, he joined IM2NP lab. (UMR CNRS 7334) for one year and IEMN lab. (UMR CNRS 8520) for two years during his tenure track. Since 2014, he has been an Associate Professor at Université Paris-Saclay, CentraleSupélec, GeePs (UMR 8507), France. In 2019, he defended his Research Direction Project (HDR) in Physics from the Université Paris-Saclay. His research interest is design methodologies for harsh environments, microwave, and ultra-low power integrated circuits. Recent projects aim at the Internet of Things industry considering IA-edge and reliability. Register Now CASS RJ Instagram: @ieee_cass_rj