SBMICRO 2025 EDS Mini-Colloquia

#integrated-circuits #microelectronics #modeling #stem
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Chip in is the most important international congress in the field of microelectronics and microtechnologies, held annually in Brazil. In 2025, the event will take place in Manaus, deep in the Amazon rainforest, offering a unique opportunity to combine cutting-edge scientific discussions with the stunning natural beauty of the world's largest tropical forest. Chip in the Jungle 2025 congress will once again be in a face-to-face format, continuing its tradition of excellence.

Chip in The Jungle 2025 consists of five different events: 

They form the largest forum in Latin America for discussions and debates on the conception, design, processing and modeling of devices and systems through to the characterization of integrated circuits, sensors, actuators, microstructures, instrumentation, as well as product development.

The congress will involve a technology fair, tutorial presentations, plenary lectures, oral and poster contributions, and various outreach activities, particularly aimed at attracting young students from local schools. 


  Date and Time

  Location

  Hosts

  Registration


  • Start time: 25 Aug 2025 11:30 AM UTC
  • End time: 29 Aug 2025 08:00 PM UTC
  • Add_To_Calendar_icon Add Event to Calendar
  • Av. Rodrigo Otávio, 3555
  • Manaus, Amazonas
  • Brazil 69077-000
  • Building: Studio 5 Shopping and Convention Center
  • Click here for Map
  • Contact Event Hosts

  Speakers

Prof. Skorek

Topic:

Quantum Digital Twins and Electronic Devices

Biography:

From Wikipedia, the free encyclopedia

Adam Waldemar Skorek (December 24, 1956) is a Canadian University professor and a Polish engineer. He was born in Krzczonów, LublinPoland.

He completed Master of Sciences in Electrical Engineering Program at Białystok Technical University receiving both Master of Sciences and Engineer degree in 1980.[1] His Ph.D. Degree in Electrical Engineering was received at Warsaw University of Technology[2] in 1983.

Adam Skorek is a Full Professor[3] and Former Head [4] of the Electrical and Computer Engineering Department at the Université du Québec à Trois-Rivières. He was elected and nominated Director of the UQTR's Research Group on Industrial Electronics (1995-2001).[5] He is a visiting professor at the Faculty of Management at the Białystok Technical University.[6] Elected by Professors, he was nominated by the Council of Ministers: Member of the Board of Directors of the University of Quebec at Trois-Rivieres (2008-2011) [7] as well Member of the Board of Governors of the University of Quebec (2011-2014).[8]

His works [9][10][11] include supercomputers applications to the electro-thermal applications and complex problems solutions in industrial environment. More specifically he worked on [12][13][14] numerical algorithms with the use of parallel computing for the analysis of the thermal problems in electricalelectronics and nanoelectronics devices.

He has made contributions to the numerical analysis of electro-thermal phenomena exploring and applying various techniques to the power electronics devices design [15][16] and industrial process control.[17][18] This contribution is reflected in the number of papers published and presented in journals and conferences.[19]

Prof. Misra

Topic:

Resistive Random Access Memory (RRAM) enabling power-efficient AI

Data conversion, storing in volatile memories, transmission, and computation impose high energy consumption, latency, and a memory bottleneck. To achieve energy efficiency new low power nanoscale devices are required for the integration of sensing and in-memory computation to efficiently enable Artificial Intelligence (AI) on resource-limited systems. Resistive random-access memory (RRAM) devices are currently being investigated for possible implementation of artificial intelligence hardware through in-memory computing. The electrical performance in these devices depends on the dielectric deposition process, precise selection of deposition parameters, pre-deposition surface treatments and subsequent thermal budget. The talk will discuss the RRAM devices with hydrogen plasma treated high-k dielectric stacks that have shown low power switching and good conductance quantization with programing pulsed operation that qualify them to be used for in-memory computing. Engineering the distribution of defects or oxygen vacancies near the top and bottom electrodes has a significant impact on reducing the switching power and improving the multi-level cell (MLC) characteristics of the device.

Biography:

Prof. Durga Misra is a Professor and Chair of the Department of Electrical and Computer Engineering, New Jersey Institute of Technology, Newark, USA. His current research interests are in the areas of nanoelectronics devices and circuits, especially in nanometer CMOS gate stacks and switching devices. He is Fellow of IEEE. He is a Distinguished Lecturer of IEEE Electron Devices Society (EDS). He is, also a Fellow of the Electrochemical Society (ECS). He received the Thomas Collinan Award from the Dielectric Science & Technology Division and the Electronic and Photonic Division Award from ECS. He edited and co-edited more than 50 books and conference proceedings in his field of research. He has published more than 200 technical articles in peer reviewed Journals and in International Conference proceedings including more than 100 Invited Talks. He has graduated over 20 PhD students and 55 MS students. He received the M.S. and Ph.D. degrees in electrical engineering from the University of Waterloo, Waterloo, ON, Canada, in 1985 and 1988, respectively. 


TDA

Topic:

TDA

TDA

Topic:

TDA