About us

Welcome to LAMBDA Laboratory for Microelectronics-based Design and Automation! We are a respected academic research laboratory dedicated to advancing the frontiers of microelectronics design and automation. With a firm commitment to academic excellence and collaborative research, we strive to address fundamental challenges in microelectronics while nurturing talent and fostering innovation. Our research axis covers a wide range of topics where microelectronics and design automation intersect.

Some of the key areas of focus are:

  • Analog/Digital/Mixed/RF VLSI Design: We conduct cutting-edge research in the design and optimization of integrated circuits spanning the analog, digital, mixed-signal and radio frequency (RF) domains. Our research aims to develop innovative design methodologies and tools to address the challenges of modern microelectronic systems.
  • Artificial Neural Network Assisted EDA: Leveraging the power of artificial intelligence (AI), particularly neural networks, we explore novel techniques to enhance Electronic Design Automation (EDA) processes. Our research focuses on developing AI-driven tools and algorithms for efficient and robust circuit design and optimization.
  • Hierarchical Analog Circuit Automation: We investigate hierarchical design methodologies and automation techniques for analog circuits, aiming to streamline the design process and improve design productivity. Our research addresses challenges related to hierarchical design abstraction, synthesis, and verification of analog circuits.
  • Analog Intellectual Property (IP): We develop and provide analog intellectual property (IP) solutions to facilitate the design and integration of analog circuits into complex systems. Our research focuses on creating reusable and customizable analog building blocks, enabling designers to accelerate the development of analog-intensive integrated circuits.
  • Hardware Security: Recognizing the growing importance of hardware security, we conduct research on novel techniques to enhance the security and trustworthiness of microelectronic systems.