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In this paper, we report a 3-D Monte Carlo (MC) simulation methodology that includes complex quantum confinement effects captured through the introduction of robust and efficient density gradient (DG) quantum corrections (QCs), which has been used to introduce “ab initio ” scattering from quantum confinement fluctuations in ultrathin body silicon-on-insulator metal-oxide-semiconductor...
The quantitative evaluation of the impact of key sources of statistical variability (SV) are presented for LP nMOSFETs corresponding to 45 nm, 32 nm and 22 nm technology generation transistors with bulk, thin body (TB) SOI and double gate (DG) device architectures respectively. The simulation results indicate that TBSOI and DG are not only resistant to random dopant induced variability, but also are...
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