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Posts Tagged ‘Webinar’

2024 IEEE NTC TC10 Modeling and Simulation December Webinar

Thursday, October 17th, 2024

Date: Wednesday, December 4, 2024

Time: 08:00 AM Pacific time

Speaker: Kevin Roche, Research Engineer & Quantum Ambassador, IBM Research Almaden

Organizer: TC 10 Co-Chair, Josef Weinbub

Title: A Practical Introduction to Quantum Computing

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Abstract:

Quantum Computing is a developing technology that promises the exciting possibility of solving computational challenges not accessible with classical processors. It can also be the subject of a great deal of hype and exaggerated claims. This webinar will offer a practical view of the technology, beginning with a brief, accessible, introduction to the unusual physics harnessed by quantum processors, followed by a summary of the actual, practical technology currently available to the public and others, focusing on IBM Quantum’s offerings, then a short live demonstration (connectivity permitting) of interacting with the systems both via the web and Qiskit software libraries.

Bio:

Kevin Roche is a research engineer at IBM Research Almaden, specializing in materials for magnetoelectronics, spintronics, and other related fields. He is an expert in ultra-high-vacuum systems and thin-film deposition, data acquisition and laboratory automation. A native of the San Francisco Bay Area, Kevin earned his Bachelor’s degree in Physics at the University of California, Berkeley in 1983. He first joined IBM Research in 1982 as an American Physical Society intern; after completing his degree, he returned to IBM Research.

Since 2002, Kevin has been introducing and explicating his work in physics and materials science publicly, making it accessible to audiences with a wide range of technical education; he was a featured expert on magnetic levitation for Episode 4 of Science and Star Wars. In 2017 he added quantum computing concepts to that role and is now both an official IBM Quantum Ambassador and a Qiskit Advocate. Kevin has been a dedicated science fiction fan since he learned to read, and his hobbies include building bartending robots, designing and making costumes, and running science fiction conventions; he was Chair of the 76th World Science Fiction Convention in August 2018.

 

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    2024 IEEE NTC Modeling and Simulation Webinar Series

    Webinar December 4th Registration (free)

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    2024 IEEE NTC TC10 Modeling and Simulation November Webinar

    Thursday, October 17th, 2024

    Date: Wednesday, November 13

    Time: 17:00 CET (UTC+1) Vienna (Austria) time (8AM PT/11AM ET)

    Speaker: Dr. Zlatan Stanojevic, CTO, Global TCAD Solutions

    Organizer: TC 10 Co-Chair, Josef Weinbub

    Title: Advanced Nanoscale MOSFET Simulation with the Subband Boltzmann Transport Equation

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    Abstract:

    Join us for an in-depth exploration of Nanoscale MOSFET Simulation using the Subband Boltzmann Transport Equation (SBTE), powered by the advanced GTS Nano Device Simulator (NDS). This webinar will guide you through the fundamentals of simulating MOSFETs at the nanoscale, focusing on device performance and transport phenomena. We will demonstrate live simulations and cover not only traditional silicon-based MOSFETs but also cutting-edge 1D and 2D materials like transition metal dichalcogenides (TMDs), graphene, and carbon nanotubes. Attendees will gain hands-on insights into modeling these materials and learn how to leverage the SBTE for advanced device design.

     

    Bio:

    Zlatan Stanojević holds MSc and PhD degrees in Microelectronics from the Vienna University of Technology, completed in 2009 and 2016, respectively. An expert in TCAD and advanced device simulation, he co-developed the Subband Boltzmann Transport Equation (SBTE) simulation method. As the Chief Technology Officer at Global TCAD Solutions, he oversees the company’s R&D efforts. A Senior IEEE member, he is actively engaged in the electron devices and nanotechnology communities, contributing to major journals and conferences such as IEDM, ESSDERC, SISPAD, or NMDC, on some of which he has also served as reviewer and technical committee member.

     

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      2024 IEEE NTC Modeling and Simulation Webinar Series

      Webinar November 13th Registration (free)

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      IEEE Nanotechnology Council and IEEE Sensors Council YPs Region 8 Webinar

      Monday, July 29th, 2024

      Join us for the next exciting webinar in our series, hosted by the IEEE NANOTECHNOLOGY COUNCIL & IEEE SENSORS COUNCIL Young Professionals Region 8

      Date & Time: 30 August 2024, 14:00 CET (UTC+2)

      Speaker: Jacek Ryl, Gdańsk University of Technology, Poland

      Topic: Multiparametric Impedance Discriminant Analysis – A New, Effective Tool to Study Macromolecular Fingerprints

      Don’t miss this opportunity to learn from a leading expert in the field!

      Register Now!  https://forms.gle/1GjeT2ryzsnh1K1Q6

      Abstract:

      The following talk will be dedicated to introducing the development in a novel approach to modus operandi of electrochemical biosensors. By implementing a real-time impedimetric monitoring under various electric field and combined with statistical data analysis tools we obtain full impedance characteristics constituting an explicit fingerprint of the macromolecular interactions [1,2]. This measurement methodology, multiparametric impedance discriminant analysis (MIDA), processes large amounts of generated impedimetric data and brings information on most effective measurement conditions (DC polarization, AC amplitude, frequency range, etc.). The proposed approach neglects some of affinity biosensors reproducibility issues, typically induced by non-specific adsorption and fouling.

      [1] Brodowski et al., Sens. Actuators B. Chem., 2022, 370, 132427. 10.1016/j.snb.2022.132427
      [2] Koterwa et al., Biosens. Bioelectron., 2023, 238, 115561. 10.1016/j.bios.2023.115561

      Bio:

      Jacek Ryl obtained his Ph.D. and D.Sc. in chemical technology in 2010 and 2018, respectively. From 2021, he works at the Institute of Nanotechnology and Materials Engineering, Faculty of Applied Physics and Mathematics, at Gdańsk University of Technology. He is the head of the Division of Electrochemistry and Surface Physicochemistry. In his scientific work, he focuses on topics related to electrochemical sensors, corrosion and degradation of functional materials, description of non-stationary electrode processes and surface physicochemistry. Currently, he conducts research related to the use of nanomaterials and additive technologies in molecular diagnostics.

      He was the PI of scientific projects (NCN Sonata, Sonata Bis, Opus, Iuventus+, KBN). He is a multiple winner of GUT Rector’s Awards for scientific achievements and awards for young scientists. He received a scholarship from the Ministry of Science and Higher Education (2017) and a scientific award from the 4th Division of Technical Sciences of the Polish Academy of Sciences (2019). He is the author or co-author of over 50 expert opinions and analyzes for industrial partners and numerous publications in renowned scientific journals. He is the member of the editorial boards editor for Green Biomaterials, Molecules and Frontiers in Chemistry. He is the author of over 200 JCR publications (H index = 34).

       

      2023 IEEE NTC TC10 Modeling and Simulation December Webinar

      Tuesday, November 14th, 2023

       

      Webinar 3

      Date: December 12, 2023
      Time: 1600-1700 CET (GMT+1)

      Speaker: Dr. Tue Gunst,

      Organizer: Josef Weinbub, TC 10 Co-Chair, weinbub@iue.tuwien.ac.at

      Topic: QuantumATK: Interfacing cutting-edge practical nanoelectronic applications with advanced atomistic simulations

      View recording here.

      Abstract:

      Advancing next-generation nanoelectronics requires integrating atomistic cutting-edge simulation methods into realistic nanoelectronic device models. In this webinar, I will demonstrate how machine-learned force fields and multi-model simulators can be used to model nanoelectronic research problems by combining realistic interfaces, flexible electrostatic solvers, and advanced transport analysis. I will also highlight the latest trends in QuantumATK modeling and present case studies relevant to the nanoelectronic industry.

      Presenter:

      Tue Gunst is a senior application engineer at Synopsys working on advanced transport and materials applications in the QuantumATK team. Tue specializes in  nanoelectronics modeling, using his background as a university scientist (Post Doc & assistant professor at the Technical University of Denmark from 2013 to 2019) to bridge the gap between the newest simulation methodologies and applications relevant to key industry players. Tue collaborated closely with QuantumATK teams throughout his university research projects and joined Synopsys in 2019 to accelerate the utilization of advanced modeling techniques in nanoelectronic research applications.

       

      Registration for meeting link (closed)

       

      Sixth Meeting of the NTC Technical Committee on Emerging Plasma Nanotechnologies

      Friday, October 6th, 2023

      The Technical Committee on Emerging Plasma Nanotechnologies of the IEEE Nanotechnology Council plans to hold its sixth online workshop Tuesday October 17th, at 10:00 am EST, US Eastern time zone. The theme we are targeting is plasma-surface measurements and modeling (graphene, BN…) related but not limited to emerging device and sensor applications.

      We have two distinguished speakers, Yevgeny Raitses from Princeton Plasma Physics Laboratory and Roberto Longo from Tokyo Electron America, Inc. With this line-up we cover the gamut of experiment and simulation related to nanomaterial formation.

      The talks are intended to be 30 min in length with 5 min for questions.

      The agenda follows:

      10:00-10:05 am EST Welcome
      10:05-10:40 am EST Yevgeny Raitses  – Plasma-based technologies for synthesis and processing of carbon and boron nitride nanomaterials
      10:40-11:15 am EST Roberto Longo – Mechanisms for Graphene Growth on SiO2 using Plasma Enhanced Chemical Vapor Deposition

      Start times in other time zones are:

      New York (USA – New York) Tuesday, October 17, 2023 at 10:00:00 am EDT UTC-4 hours
      Austin (USA – Texas) Tuesday, October 17, 2023 at 9:00:00 am CDT UTC-5 hours
      London (United Kingdom) Tuesday, October 17, 2023 at 3:00:00 pm BST UTC+1 hour
      Tokyo (Japan) Tuesday, October 17, 2023 at 11:00:00 pm JST UTC+9 hours

       

      Organizers:

      Dr. Peter Ventzek

      Prof. Uros Cvelbar

      Dr. Kremena Makasheva

      Committee Chair: Prof. Seiji Samukawa

      Members of TC17 Emerging Plasma Nanotechnologies Technical Committee, IEEE Nanotechnology Council

       

      We invite you to attend. Attendance is free but registration is necessary.

      Use this form to register:

       

        NTC TC17 Sixth Online Workshop Meeting Registration (free)

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        2023 IEEE NTC TC10 Modeling and Simulation October Webinar

        Friday, August 4th, 2023

        IEEE Nanotechnology Council TC10 – Modeling and Simulation 2023 webinar series.

        Organizer: Josef Weinbub, TC 10 Vice Chair, weinbub@iue.tuwien.ac.at
        Format: 1 hour Webex webinars

        Webinar 2

        Date: October 12, 2023
        Time: 16:00 PDT, 1:00 CEST, 08:00 JST

        Speaker: Gerhard Klimeck, Professor and nanoHUB Director, Purdue University

        Topic: nanoHUB for Research and Education in Nanoelectronics

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        Abstract

        Over 200,000 nanoHUB users have run over 7 million simulations in Apps mostly focused on semiconductor devices and materials modeling. These apps provide very simple and intuitive interfaces to community and research codes that are hard to install, operate, and to maintain even for experts.   As such nanoHUB created the first end-to-end scientific cloud enabling users to focus on solving problems rather than installing and maintaining software (before “the cloud” was a thing).  Any portal provides access, installation, and compute cycles, however, usability is most often neglected.  Most scientific tools focus on solving “any” simulation problem in a specific problem range.  Such comprehensiveness makes these tools usable by experts only, typically after intensive training.  nanoHUB has instead focused on delivering a spectrum of apps that individually have a limited capability compared to the underlying toolset, but as a whole set cover a vast swath of problems. Hundreds of community members have contributed over 700 Apps into nanoHUB.

        We assembled some of these Apps that are essential for specific courses into small sets such as ABACUS (crystals, bandstructure, drift-diffusion, pn-junctions, BJTs, MOScaps, MOSFETs) [1].  The usability results are stunning.  Our user analytics prove that over half of the simulation users participate in structured education through homework/project assignments.   We can identify classroom sizes and detailed tool usage [2,3]. We can begin to build mind-maps of design explorations and assess depth of explorations for individuals and classes. While parts of academia struggled to innovate curricula, we have measured the median first-time App insertion into a class to be less than six months.  Over 180 institutions have utilized nanoHUB in their curriculum innovation in over 3,600 classes.   2 million nanoHUB visitors explore lectures and tutorials annually.  Over 2,700 papers cite nanoHUB in the scientific literature resulting in 68,300+ secondary citations and an equivalent h-index of 121.

        With such a community presence we believe nanoHUB is the platform of choice to deliver online modeling, simulation, virtual environments, and lectures for the US initiative on workforce development and chip design [4]. We are in the process to build chipshub.org as a group inside nanoHUB.  Chipshub hosts commercial and open-source chip design tools and associated apps and learning materials.   It is hosted in Purdue’s hardware cloud.

        [1] https://nanohub.org/groups/abacus ABACUS – Assembly of Basic Applications for Coordinated Understanding of Semiconductors.  A one-stop-shop for teaching and learning semiconductor fundamentals.

        [2] Krishna Madhavan, Michael Zentner, Gerhard Klimeck, “Learning and research in the cloud”, Nature Nanotechnology 8, 786–789 (2013)

        [3] TEDx Talk, Klimeck, “Mythbusting Scientific Knowledge Transfer with nanoHUB.org”, https://www.youtube.com/watch?v=PK2GztIfJY4 .

        [4] https://chipshub.org

        Speaker:

        Dr. Gerhard Klimeck is a Professor of Electrical and Computer Engineering at Purdue University; Director of the Network for Computational Nanotechnology; Reilly Director of the Center for Predictive Materials and Devices. He helped to create nanoHUB.org, the largest virtual nanotechnology user facility serving over 2.0 million global users, annually. Dr. Klimeck is a fellow of the Institute of Physics (IOP), the American Physical Society (APS), the Institute of Electrical and Electronics Engineers (IEEE), the American Association for the Advancement of Science (AAAS), and the German Humboldt Foundation. He has published over 525 printed scientific articles; he has been recognized for his co-invention of a single-atom transistor, quantum mechanical modeling theory, and simulation tools. His NEMO5 software has been used since 2015 at Intel to design nano-scaled design transistors. The nanoHUB team was recently recognized by a top 100 by R&D award – Making simulation and data pervasive.

         

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          2024 IEEE NTC Modeling and Simulation Webinar Series

          Webinar November 13th Registration (free)

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          Webinar: Nanomaterials-Mediated Manipulation of Cellular Functions

          Tuesday, July 18th, 2023

          IEEE NANOTECHNOLOGY COUNCIL – Technical Committee 2 Nano-Biomedicine

          presents

          Webinar: “Nanomaterials-Mediated Manipulation of Cellular Functions”
          with Prof. Gianni Ciofani 

          When: Tuesday 12th September 2023
          11:00 AM (GMT +1 – Rome (IT))

          Registration link: https://oulu.zoom.us/meeting/register/u5Asfuuuqz0uE9QDaILd8N9mK1xEgQkd96_Q

          Abstract:

          The remote control of cellular functions through smart nanomaterials represents a bio-manipulation approach with unprecedented potential applications in many fields of medicine, ranging from cancer therapy to tissue engineering. By actively responding to external stimuli, smart nanomaterials act as real nanotransducers able to mediate and/or convert different forms of energy into both physical and chemical cues, fostering specific cell behaviors [1, 2].

          A new paradigm is proposed for nanomedicine, in order to exploit the intrinsic properties of nanomaterials as active devices rather than as passive structural units or carriers for medications.

          [1] – https://lnkd.in/d2R-kd25
          [2] – https://lnkd.in/dWBQYdbz

          Speaker:

          (more…)

          Fifth online Workshop of the NTC Technical Committee on Emerging Plasma Nanotechnologies

          Wednesday, June 7th, 2023

          The Technical Committee on Emerging Plasma Nanotechnologies of the IEEE Nanotechnology Council will hold its fifth online workshop on Monday June 26th at 8:00 pm CST (UTC-5, Chicago-Austin time zone), or Tuesday June 27th 2023, at 10:00 am JST (UTC+9, Tokyo time zone), and 3:00 am CEST (UTC+2, Berlin). It will be virtual with a very exciting program with speakers from academia and attendees from academia, national laboratories and industry. Attendance is free but registration is necessary.  See the attached link.

          This time we have a diverse set of topics spanning energy storage/batteries and plasma nanostructure formation. Our speaker lineup this time includes:

          • “Plasma nanofabrication for energy storage applications”

          Zheng Bo
          Professor, IOP Fellow
          Vice Director, State Key Laboratory of Clean Energy Utilization
          College of Energy Engineering, Zhejiang University

          • “Sodium-ion batteries for new generation electronic devices”

          Yang Hui Ying
          Professor at Singapoure University of Technology and Design

          • “Coupling simulations and experiments for plasma growth of large scale 1D or 2D nanostructures”

          Oleg Baranov
          Professor, Head of the Department of Theoretical Mechanics, Mechanical Engineering and Robotomechanical Systems
          National Aerospace University “Kharkiv Aviation Institute”, Ukraine

           

          Agenda: Talks 30 min + 5 min for questions

          Welcome 3:00 am-3:05 CET 6/27 [10:00 am-10:05 JST 6/27, 20:00pm-20:05  CDT 6/26]
          Prof. Zheng Bo 3:05-3:40 CET [10:05-10:40 JST, 20:05-20:40  CDT]
          Prof. Yang Hui Ying 3:40-4:15 CET [10:40-11:15 JST, 20:40-21:15  CDT]
          Prof. Baranov 4:15 – 4:50 CET [11:15-11:50 JST, 21:15-21:50  CDT]

          Organizers:
          Dr. Peter Ventzek
          Prof. Uros Cvelbar
          Dr. Kremena Makasheva
          Committee Chair: Prof. Seiji Samukawa

           

          Use this form to Register for the meeting link:

            NTC TC17 Sixth Online Workshop Meeting Registration (free)

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            Your email

            You will receive the meeting invitation in email

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            2023 IEEE NTC TC10 Modeling and Simulation June Webinar

            Monday, June 5th, 2023

            Date: June 27, 2023

            Topic: Atomistic TCAD Simulations
            Speaker: Philippe Blaise, Atomistic Senior Application Engineer, TCAD Division, Silvaco, Inc.

            Time: 8:00 PDT, 17:00 CEST, 00:00 JST

            Register below to receive meeting link.

            Recording is available here: https://ieeemeetings.webex.com/ieeemeetings/ldr.php?RCID=43909602dc9d04fba335a63a61e1a65f

             

             

            Abstract:

            For designing the most advanced technological nodes, quantum effects become hard to approximate. This leads to the failure of using conventional TCAD tools that are essentially based on empirical laws. Therefore, engineers need new simulation tools at the 5 nm node and below that combine a more fundamental formalism with affordable performances and ease of use. During this webinar, we will briefly describe what is behind the non-equilibrium Green’s function (NEGF) formalism with simplified arguments. We will show how simulating nano-devices becomes easy, even without full academic knowledge of the NEGF theory. The quantum complexity is hidden inside the simulation tool “VictoryAtomistic” which benefits from years of development at the highest level. We will show two test cases: a silicon Nanowire Field-Effect Transistor (NWFET) and a 2D-TMD Tunneling FET (TFET) made of a layer of MoS2. Thanks to a combination of state-of-the-art band structure calculations with the NEGF, predictive, versatile, and fast simulations of these devices become accessible with an environment that provides a smooth transition for TCAD users.

            Biography:

            Dr. Philippe Blaise has been a senior application engineer in atomistic simulation at Silvaco’s TCAD Division for four years. Prior to joining Silvaco, Dr. Blaise was a senior engineer specialized in atomistic simulation of new memory devices and transistors at CEA/LETI for 15 years. He is a former member of the IEEE IEDM Modelling and Simulation Committee. He is co-author of more than 60 papers in peer-review journals in the field and 30 contributions to conferences and workshops, plus 5 patents and one book chapter. Dr. Blaise holds a Master’s degree in applied mathematics and a Ph.D. in solid states physics from the Université Grenoble Alpes, France.

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            2023 IEEE NTC TC10 Modeling and Simulation Webinar Series

            Monday, June 5th, 2023

            IEEE Nanotechnology Council TC10 – Modeling and Simulation announces its 2023 webinar series.

            Organizer: Josef Weinbub, TC 10 Vice Chair, weinbub@iue.tuwien.ac.at
            Format: 1 hour Webex webinars
            Announcements for each webinar will be posted with registration link to receive the link for that meeting.

            Webinar 1

            Date: June 27, 2023

            Time: 8:00 PDT, 17:00 CEST, 00:00 JST

            Speaker: Philippe Blaise, Atomistic Senior Application Engineer, Silvaco, Inc.

            Topic: Atomistic TCAD Simulations

             

            Webinar 2

            Date: October 12, 2023

            Time: 16:00 PDT, 1:00 CEST, 08:00 JST

            Speaker: Gerhard Klimeck, Professor and nanoHUB Director, Purdue University

            Topic: nanoHUB for Research and Education in Nanoelectronics

             

            Webinar 3

            Date: December 12, 2023

            Time: 23:00 PDT, 8:00 CEST, 15:00 JST

            Speaker: Tue Gunst, Senior R&D and Application Engineer, Synopsys QuantumATK

            Topic: QuantumATK Applied to Nanoelectronics