Title :
A Computationally Efficient Generalized Poisson Solution for Independent Double-Gate Transistors
Author :
Sahoo, Avinash ; Thakur, Pankaj Kumar ; Mahapatra, Santanu
Author_Institution :
Nano Scale Device Res. Lab., Indian Inst. of Sci., Bangalore, India
fDate :
3/1/2010 12:00:00 AM
Abstract :
Previous techniques used for solving the 1-D Poisson equation (PE) rigorously for long-channel asymmetric and independent double-gate (IDG) transistors result in potential models that involve multiple intercoupled implicit equations. As these equations need to be solved self-consistently, such potential models are clearly inefficient for compact modeling. This paper reports a different rigorous technique for solving the same PE by which one can obtain the potential profile of a generalized IDG transistor that involves a single implicit equation. The proposed Poisson solution is shown to be computationally more efficient for circuit simulation than the previous solutions.
Keywords :
MOSFET; Poisson equation; 1D Poisson equation rigorously; circuit simulation; compact modeling; generalized Poisson solution; independent double gate transistors; long channel asymmetric; single implicit equation; Boundary conditions; Circuit simulation; Differential equations; Electrostatics; Helium; MOSFET circuits; Poisson equations; Strontium; Threshold voltage; Transconductance; Compact modeling; double-gate (DG) MOSFET;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2009.2039098
