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More Moore-Logic: Multigate Devices

 

Examples of available "Lectures" or "Practical Work" in the Multigate Devices domain:

 

  • Basic principles

1- Fundamentals and operating principles
2- Scaling
3- Strain, Orientation and material Engineering
4- Basic principles of Multigate CMOS

 

  • Modeling

1- Variability in CMOS
2- I-V characteristics of DG MOSFETs
3- Compact modeling of Multigate CMOS
4- Compact modeling of low-frequency noise
5- TCAD modeling
6- Semiclassical transport Modeling
7- Quantum transport modeling
8- Analytical models


  • Simulation

1- TCAD simulation
2- Simulation with Monte Carlo methods
3- Simulation with quantum transport methods
4- Mixed device-circuit simulation
5- Mobility calculations with Kubo-Greenwood method

6- Variability in CMOS

 

  • IC Design

1- Variability in Logic Circuits
2- Simple circuit blocks for telecom applications


  • Characterization

1- Parameter extraction for Multigate CMOS
2- DC and AC Parameter extraction techniques
3- Reliability characterization
4- Benchmarking device performance
5- Transport (mobility, velocity etc.)
6- Two port AC small signal up to 20 GHz
7- Wide frequency band characterization of MuGFETs
8- Specific features of MuGFETs electrical characterization


  • Reliability

1- Hot Carriers in MOSFETs
2- Ultra thin dielectrics/BTI
3- Radiation effects in multiple-gate devices
4- Specific features of multiple-gate and UTBB devices at high-temperatures