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Tanaya Chandwadkar
Attended H.P.T. ARTS and R.Y.K. SCIENCE COLLEGE
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Hi connections I have great news to share among you all that I have completed an intensive summer school on "Semiconductor technology and Microfabrication" organized by CeNSE IISc Bangalore. This intensive online summer school program provide me exclusive theoretical knowledge about semiconductor technology and its fabrication.Here is the overview of the program :*Introduction to Semiconductors:Basics of semiconductor physics.Understanding of semiconductor materials like silicon, gallium arsenide, etc.Microfabrication Techniques:*cleanroom protocols *Detailed information about photolithography, etching, deposition, and doping processes.Hands-on sessions in cleanroom environments.*Device Fabrication:Steps to fabricate various semiconductor devices such as transistors, diodes, and sensors.* Use of tools like electron-beam lithography, chemical vapor deposition, and ion implantation.*Characterization Methods:Techniques for characterizing semiconductor devices, including electrical testing, microscopy, and spectroscopy.*Guidance on careers in semiconductor technology and academia.current challenges and innovations in semiconductor technology.Guidance from CeNSE faculty and researchers.*Overview of MEMS and TCAD systems Thanks to CeNSE faculty for giving me an opportunity to participate in such enriching summer school.#summer school on Semiconductor technology #CeNSE
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Mario Lanza
IEEE Fellow | Associate Professor at the National University of Singapore
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We have fabricated the first crossbar arrays of all-2D (metal-free) resistive switching devices! Despite these devices do not show high retention, they can still be exploited in the domain of data encryption, and their flexibility and transparency make them suitable for being integrated in all kind of objects. See more details in our Advanced Functional Materials article: https://lnkd.in/e5JNNR-CThanks a lot to ALL the excellent students and postdocs from my group who contributed to this study. If you want to hire excellent master, doctoral and post-doctoral researchers, enter in Web of Talents (https://weboftalents.com) and you can see their profile, including a webinar. #KAUST #IEEE #SEMICONDUCTOR #MICROCHIP #MATERIALSSCIENCE #PHYSICS #CHEMISTRY #ELECTRONICS #ENGINEERING #STEM #GRAPHENE #2DMATERIALS #NANOSCIENCE #NANOTECHNOLOGY #PHD #POSTDOC
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Mark Calderhead
Mark Calderhead is an Influencer
Semiconductor Industry - Product Owner
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The National Science Foundation (NSF) awarded three University of Maryland researchers a $2 million grant to advance the emergence of new sustainable semiconductor technologies as well as educate a diverse workforce for the vital industry’s future. UMD is one of the 47 institutions chosen to participate in the nationwide program spurred by a global shortage of microchips that arose during the COVID-19 pandemic, along with the realization that a U.S. supply of this hardware that functions as the “brains” of computers and other high-tech devices depends on lengthy international supply lines vulnerable to political and natural disasters.https://lnkd.in/eAGvKtFf
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Md Imtiaz Rashid
PhD, Computer Engineering, The University of Texas at Dallas
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I am thrilled to share that I have passed the PhD proposal examination on September 13 and have become a PhD candidate officially. This is a significant milestone in my academic journey, and I'm grateful for the support of my advisors, faculty, friends, and family.As a Ph.D. candidate, I'm excited to dive deeper into my research on modernizing hardware circuits through High-Level Synthesis. My PhD thesis targets legacy RTL architectures to make them adaptive to changes in different design constraints, such as implementation platform, operating frequency, performance, energy consumption, and so on. To address this, I have designed an efficient RTL-to-C compiler optimized for High-Level Synthesis (HLS) Design Space Exploration (DSE) so that we can leverage the benefits of High-Level Synthesis. My future research targets modernizing the legacy RTL microstructures to make them resilient to different hardware attacks, e.g., side-channel attacks. This will add a new design dimension (i.e., security) for design space exploration, alongside area, performance, power consumption, etc.#phdcandidate #hls #eda #designengineering #phdresearch #phdthesis #computerengineering #utd #utdallas
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Xiaohang Li
Associate Professor, Advanced Semiconductor Lab; Associate Director, Innovation Hub at KAUST
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I am looking for excellent undergrad and master students to apply and join the KAUST Photonics Summer Camp in the following areas. This is a great summer camp that covers all the expenses and provides opportunities to do cutting-edge semiconductor optoelectronics research at KAUST. Go ahead to apply on the website directly and your application will be reviewed.1. High-Efficiency Visible Micro-LED for AR/VR ApplicationsDescription: InGaN-based blue, green, and red (RGB) micro-LEDs have garnered significant attention and interest due to their exceptional features such as high contrast, intense brightness, excellent energy efficiency, and long device lifetimes, positioning them as strong contenders as the next-generation display technology. However, the traditional plasma etching process for defining micro-LED pixels could lead to significant sidewall damage. Defects near sidewall regions act as non-radiative recombination centers and paths for current leakage, significantly deteriorating device performance. This project will focus on optimizing the micro-LED fabrication process to suppress the effect of sidewall damage on micro-LED efficiency. Various experimental skills based on device processing and characterization will be trained at the KAUST cleanroom and core lab.2. High-Efficiency DUV Micro-LED for the Disinfection ApplicationDescription: AlGaN-based deep ultraviolet (DUV) light-emitting diodes (LEDs) have undergone rapid development due to attractive applications, such as water purification, sterilization, communication, and sensing. However, DUV LEDs still face the low-efficiency issue, making their practical applications challenging. One factor is the low light extraction efficiency, meaning that light is confined within the device and reabsorbed, unable to be efficiently extracted and utilized. The reduction in device size to fabricate micro-size DUV LEDs can significantly improve the light extraction efficiency and is considered a potential solution for future DUV LEDs. This project will explore how to further optimize the optical and electrical performance of micro DUV LEDs. Various experimental skills based on device processing and characterization will be trained at the KAUST cleanroom and core lab.3. High-Efficiency Harmless 222 nm Far-UVC LEDDescription: AlGaN-based UV LED is a potential candidate as a semiconductor device to replace any conventional UV light sources in the future. However, improving the efficiency of 222nm far-UV LEDs is quite challenging, with the current external quantum efficiency below 0.01%. This project will utilize simulation software to design and optimize the 222nm far-UV LED device structure, aiming to enhance the carrier transport capability and quantum well radiative recombination performance. Simulation technology will be employed and trained in this project.#Photonics #Optoelectronics #Widebandgap #semiconductorsKAUST CEMSEhttps://lnkd.in/ejBiUrrG
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Sajid Hussain
EECS Professional | Deep Learning & Computer Vision Specialist | Python, C++ Enthusiast | AI, Machine Learning, Data Science & IoT Researcher | Aspiring in Semiconductors & Firmware
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It’s been a while since I started my role at ELAN Microelectronics Embedded Vision Intelligent Lab (Evil) at National Taipei University of Technology. As a Research Assistant, I wanted to share this update with everyone. #aicommunity #interships #research #researcher #deeplearning #computervision.
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Mario Lanza
IEEE Fellow | Associate Professor at the National University of Singapore
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Metrology tools for electronic characterization at the nano and atomic scales are extremely important for the correct development of the semiconductors industry (see for example https://lnkd.in/e_vA2KyY). Given its high importance, when I arrived to KAUST I established an elective course (titled Advanced Nanoelectronics) that teaches setups and experiments to resolve electronic properties of different materials systems at the nano and atomic scales. I designed the course together with Prof. Shadi Fatayer (a super-star young scientist from IBM Zurich who joined KAUST as Assistant Professor a couple of years ago), putting a lot of passion in it. It is rewarding to see that so many students selected our course: normally elective courses here have moderate attendance due to the wide offer and limited number of students per program, but our course got more students than most core courses. Moreover, today I got to know that most of them seem to be very satisfied with the course, which makes me feel very happy. What a nice birthday gift! 😊 #KAUST #IEEE #SEMICONDUCTOR #MICROCHIP #METROLOGY #ELECTRONICS #MATERIALSSCIENCE #2DMATERIALS #GRAPHENE #MICROSCOPY
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Delft University of Technology
322,649 followers
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Where microeletronics and biology meets: organs-on-a-chip. These cellular homes that replicate the human environment outside the body, offering profound insights into our biological makeup. This not only offers profound insights into our biological makeup, but also lead to new frontiers of personalized medicine.Massimo Mastrangeli, TU Delft | Electrical Engineering, Mathematics and Computer Science#research #science #technology #microelectronics
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Maheera Abdul Ghani
PhD Candidate at University of Cambridge | 2D Materials & semiconductor electronics| UN Women UK |Founder @WinSci Pak
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“Can someone guess the most manufactured item in the history of mankind?”the answer is Transistor!From inception of first transistor in early 20th century to 19 billion transistors on iPhone A16 bionic chip! The development of transistor technology guided by Moore's law has never been more pressing with current development in AI and need for high computing power.I successfully completed the "Semiconductor Fabrication 101" course, a collaborative effort between Intel Corporation, Purdue University and The University of Texas at Austin. I really enjoyed the course with thorough exploration of processes involved in modern semiconductor chip design and fabrication. The course Led by an outstanding team of instructors, provided deeper understanding of the fundamental principles underlying chip design, manufacturing and semiconductor fabrication processes.#nanotechnology #graphene #semiconductors #2Dmaterials #materialscience #materialscientist #career #womeninscience #womeninSTEM #engineering #electricalengineers #researcher #research #cambridgeuniversity #scienceandtechnology #innovation #pakistaneconomy #nanomaterials #womeninengineering #scholarships #phd
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The Hong Kong University of Science and Technology
135,365 followers
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[ #HKUST Named Professorships 2023 -Fang Professor of Engineering, Prof. Yuan XIE ]Research Interest: Computer architecture, VLSI, Electronic design automation, Machine learningProfessor Xie’s research interests lie in computer architecture, very-large-scale integration design, electronic design automation, and embedded systems design. He founded the Scalable Energy-Efficient Architecture Lab (SEAL) at the University of California, Santa Barbara. Under his leadership, the research team broke new ground in computer design and architecture, focusing on technology-driven and application-driven innovations in areas ranging from emerging memory technologies to novel virtual-reality/augmented reality applications. A leader and innovator in the field, Prof Xie has published more than 300 IEEE/ACM journal and conference papers and in recognition of these prominent contributions, he received numerous honors and awards including the prestigious Edward J. McCluskey Technical Achievement Award in 2020. Professor Xie’s contribution to the field is not just limited to the production of research, he also has rich industry experience with IBM, AMD, and Alibaba Group.“The Fang Professorship was established by my late father, Dr. Kennth Fang many years ago. Since its inception in 1991, HKUST has long been a model of academic excellence. The University provides promising students exceptional opportunities to learn, grow and lead. My family and I are proud to be a partner of HKUST. We are delighted to congratulate Professor Yuan Xie on receiving the Fang Professorship in Engineering, we hope the professorship will enable Professor Xie to continue his impactful research on emerging and future technologies for the betterment of the society.”—Mr. Douglas Fang, Fang Brothers GroupLearn more in the video.#HKUST #ComputerArchitecture #VLSI #ElectronicDesignAutomation #MachineLearning #Innovation #Technology #VirtualReality #IndustryExperience #AcademicExcellence #EmergingTechnologies #FutureTechnologies #SocietalImpact
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