Design and Optimization of Ultra-Small Transistors (DOUST)

Introduction | Members | Program | Projects | Publications | Articles || XSIM || WCM

PhD

  1. Compact Modeling of Non-classical MOSFETs

    2.  
  2. Compact Modeling of Ultra-Thin Body Silicon-on-Insulator MOSFETs

    3.  
  3. Advanced MOSFET Noise Compact Modeling

    4.  
  4. Carbon Nanotube Based Transistor Modeling for Nanoelectronics

    5.  
  5. Scalable RF Compact Modeling for Nanometer CMOS Technology

    6.  
  6. TCAD-Synthesis Approach to Deep-Submicron MOS Technology Development

    7.  
  7. Nanoscale Strained-Si/SiGe and Double-Gate MOSFET Modeling

    8.  
  8. Unified AC Charge and DC Current Modeling for Very-Deep-Submicron Technology

    9.  
  9. Design, Modeling, and Characterization of Submicron MOSFETs
MEng
  1. Development of Statistical Models for Baseband MOSFET Models

    2.  
  2. Predictive Technology Modeling for Deep-Submicron MOSFET Design
MSc
  1. Framework Design for Nanometer Technology Development and Transistor Optimization

    2.  
  2. Technology Prediciton with Semi-Empirical Compact Modeling Approach
BEng
  1. Numerical Studies of Schottky-Barrier MOSFETs

    2.  
  2. Performance Comparisons of Ultra-Thin-Body SOI and Double-Gate MOSFETs

    3.  
  3. Numerical Studies of Schottky-Barrier MOSFETs

    4.  
  4. Numerical Exploration of Asymmetrical MOSFETs

    5.  
  5. Numerical Studies of Silicon Nanowire GAA MOSFETs

    6.  
  6. Numerical Studies of Ultra-Thin Body SOI MOSFETs

    7.  
  7. Numerical Exploration of Multiple-Gate MOSFETs

    8.  
  8. Framework Implementation of Design and Optimization of Ultra-Small Transistors

    9.  
  9. Numerical Simulation of Double-Gate MOSFETs

    10.  
  10. Statistical Process Control and Monitoring for Deep-Submicron CMOS Technology Using Compact Models and Numerical Simulations

    11.  
  11. Unified Compact Model Implementation for Deep-Submicron MOSFET Circuit Simulation

    12.  
  12. Compact Model Approach to Statistical Process Control for Deep-Submicron CMOS Technology

    13.  
  13. Capacitance Modelling and Simulation for Deep-Submicron MOSFETs

    14.  
  14. TCAD-Synthesis Approach to Deep-Submicron MOSFET Design and Optimization

    15.  
  15. Design and Optimisation of Ultra-Small Transistors
New
New PhD Projects with NTU-IME JML for AGS scholarship applicants
  1. Multi-Level Modeling of Nanometer CMOS ULSI Systems (PhD)

    2.  
  2. AC/RF Compact Model Development for Deep-Submicron CMOS Technology and Circuit Simulation (PhD)

    3.  
  3. Physics-Based Compact Modeling of Advanced Physical Effects in Very-Deep-Submicron MOSFET's (PhD)

    4.  
  4. Physics-Based Scalable Model for Extrinsic Nanoscale MOSFETs (PhD)

    5.  
  5. Technology-Based Predictive Compact Model Development for Next Generation CMOS (PhD)

    6.  
  6. Compact Model Approach to Statistical Process Control for Deep-Submicron CMOS Technology (MEng)

    7.  
  7. Unified Compact Model Implementation for Deep-Submicron MOSFET Circuit Simulation (MEng)