The semiconductor technology development requires a full understanding of material implications at the device level. This requires connecting the microscopic/atomic properties of the material (e.g. defect) to the macroscopic electrical characteristics of the device. In this scenario, we developed a new methodology, supported by a multi-scale modeling and simulation (MS) software [1], [2], which allows extracting from the simulations of the electrical characterization measurements (I-V, C-V, G-V, BTI, Charge-Pumping, noise, stress) the material and device properties that can be used for the technology development, the design of novel devices and the analysis of the device reliability also at statistical level (TDDB, leakage currents), Fig. 1
A procedure for yield prediction and reliability estimation for microlectronic circuit manufacturing...
We show how defects in semiconductor device structures are formed, how they can affect the propertie...
We present a multiscale modeling platform that exploits ab-initio calculation results and a material...
The semiconductor technology development requires a full understanding of material implications at t...
We present a comprehensive simulation framework to interpret electrical characteristics (I-V, C-V, ...
We present in this paper a novel defect spectroscopy technique for extracting defect and material pr...
In this work we present a novel simulation-based methodology for the defect spectroscopy in dielectr...
A multiscale simulation platform predicts the effect of atomic level defects in thin films on the el...
In this paper we present a comprehensive physical model that describes charge transport and degradat...
Defects in semiconductors, although atomistic in scale and often scarce in concentration, frequently...
Traditional approaches like MIL-HDBK, Telcordia, and PRISM etc. have limitation in accurately predic...
Reliability, besides the performance, is one of the important key factors of success of any technolo...
Integrated circuits have evolved from early transistor technology as a result of the increasing reli...
We present a defect spectroscopy technique to profile the energy and spatial distribution of defects...
High speed, high densities and system-in-packages play an important role in microelectronics. Taking...
A procedure for yield prediction and reliability estimation for microlectronic circuit manufacturing...
We show how defects in semiconductor device structures are formed, how they can affect the propertie...
We present a multiscale modeling platform that exploits ab-initio calculation results and a material...
The semiconductor technology development requires a full understanding of material implications at t...
We present a comprehensive simulation framework to interpret electrical characteristics (I-V, C-V, ...
We present in this paper a novel defect spectroscopy technique for extracting defect and material pr...
In this work we present a novel simulation-based methodology for the defect spectroscopy in dielectr...
A multiscale simulation platform predicts the effect of atomic level defects in thin films on the el...
In this paper we present a comprehensive physical model that describes charge transport and degradat...
Defects in semiconductors, although atomistic in scale and often scarce in concentration, frequently...
Traditional approaches like MIL-HDBK, Telcordia, and PRISM etc. have limitation in accurately predic...
Reliability, besides the performance, is one of the important key factors of success of any technolo...
Integrated circuits have evolved from early transistor technology as a result of the increasing reli...
We present a defect spectroscopy technique to profile the energy and spatial distribution of defects...
High speed, high densities and system-in-packages play an important role in microelectronics. Taking...
A procedure for yield prediction and reliability estimation for microlectronic circuit manufacturing...
We show how defects in semiconductor device structures are formed, how they can affect the propertie...
We present a multiscale modeling platform that exploits ab-initio calculation results and a material...