Compact Modeling – TechConnect Briefs

Complete Surface-Potential Modeling Approach Implemented in the HiSIM Compact Model Family for Any MOSFET Type

Miura-Mattausch M., Miyake M., Kikuchihara H., Feldmann U., Amakawa S., Mattausch H.J., Miura-Mattausch M., Hiroshima University, JP

Many possible future device structures are investigated in parallel to obtain highest performance features. It has been shown that an SOI-MOSFET with a thin body enables both high device performances and suppression of statistical variations. [...]

MOSFET threshold voltage: definition, extraction, and applications

Machado M.B., Siebel O., Schneider M.C., Galup-Montoro C., Federal University of Santa Catarina, BR

The threshold voltage VT is a fundamental parameter in the characterization of MOS transistors and should be used, whatever is the adopted model for the transistor. The classical definition of threshold: phis = 2phiF +V [...]

UF “Compact” Models: A Historical Perspective

Fossum J.G., University of Florida, US

The history of the developments of “compact” models for SOI MOSFETs at the University of Florida (UF) is reviewed. The uniqueness and innovation of the UF “process-based” models are reiterated, and their global utility as [...]

Compact Models for sub-22nm MOSFETs

Chauhan Y.S., Lu D., Venugopalan S., Morshed T., Karim M.A., Niknejad A., Hu C., University of California-Berkeley, US

FinFET and UTBSOI FET (or ETSOI) are the two promising multi-gate FET candidates for sub-22nm CMOS technology. BSIM multi-gate FET models (BSIM-CMG and BSIM-IMG) are the surface potential based physical compact models for FinFET and [...]

Xsim: A Unified Compact Model for Bulk/SOI/DG/GAA MOSFETs

Zhou X., Nanyang Technological University, SG

This paper presents a unified compact model (Xsim) for bulk/SOI MOSFETs, double-gate (DG) FinFETs, and gate-all-around (GAA) silicon-nanowires (SiNWs) that has been under development over the past 13 years. One key feature of the model [...]

Compact Subthreshold Modeling of Rectangular Gate and Trigate MOSFETs

Fjeldly T.A., Monga U., Norwegian University of Technology, NO

We have previously shown that the subthreshold potential distribution of DG and circular gate MOSFETs can be precisely modeled using conformal mapping techniques. Simpler, unified models suitable for circuit design can also be established for [...]

A Fully Anlytical Model for Carbon Nanotube FETs including Quantum Capacitances and Electrostatics

Wei L., Frank D.J., Chang L., Wong H.S.P., Massachusetts Institute of Technology, US

In this paper, an analytical model of intrinsic carbon nanotube field effect transistors (CNFETs) is presented based on ballistic transport and careful analysis of the quantum capacitances, which requires neither iteration nor numeric integration. Essential [...]

High-Voltage MOSFET Compact Modeling

Seebacher E., austriamicrosystems AG, AT

In many new applications like communication and automotive electronics the usage of integrated high voltage MOS transistors (LDMOS and DMOS) requires highly accurate compact models. At first we discuss the industrial requirements for modern high [...]

Modeling of High Voltage Devices for ESD Event Simulation

Zhou Y., Salcedo J., Hajjar J.-J., Analog Devices, Inc., US

BCDMOS process technologies are key in enabling highly integrated mixed-signal application for the automotive, medical and industrial sectors. Achieving satisfactory ESD performance in high voltage mixed-signal applications requires synthesized co-design using circuit-level ESD event simulation [...]

Process Variability Modeling for VLSI Circuit Simulation

Saha S.K., SuVolta, Inc., US

It is well known that the process variability has severely impacted the delay and power variability in VLSI devices, circuits, and chips, and the impact of process variability keeps increasing as MOSFET devices and CMOS [...]

A Phase-Change Random Access Memory Model for Circuit Simulation

Chan M., HKUST, HK

A temperature tracking approach has been developed to model the property of phase-change memory (PCM) behavior under input pulses with arbitrary magnitude and shapes. By utilizing the Johnson-Mehl-Avrami equation to monitor the crystal fraction in [...]

Modeling Strategies for Flash Memory Devices

Padovani A., Larcher L., Pavan P., Università di Modena e Reggio Emilia, IT

Flash memories are one of the most pervasive components of today electronic systems. The continuous scaling of the memory device opened new issues with regards to sensitivity of the cell threshold voltage to degradation mechanisms [...]

Comparison and insight into long-channel MOSFET drain current models

Zhang L., Peking University, CN

In this paper we provide an insight into the drain current model for long-channel MOSFET devices. A new method to perform the integral of the rigorous Pao-Sah dual integral current is derived. From it, we [...]

HiSIM-DG for Extracting Statistical Variations of Measured I-V Characteristics

Shintaku Y., Hiroshima University, JP

The variability of the DG-MOSFET is expected to cause serious problems for real circuit applications. Thus purpose of our investigation is to provide an accurate extraction of device variations, and to predict influence of the [...]

Analytic potential model for asymmetricunderlap gate-all-around MOSFET

Wang S., Peking University, CN

An analytic potential model for undoped cylindrical gate-all-around (GAA) MOSFET with asymmetric gate underlap is developed in this paper. This model is derived by solving the Poisson’s equation with the parabolic potential approximation, channel length [...]

Modeling of the impurity-gradient effect in high-voltage MOSFETs

Maekawa Y., Fukushima K., Tanaka A., Kikuchihara H., Miyake M., Mattausch H.J., Miura-Mattausch M., Miura-Mattausch M., Hiroshima University, JP

Two major high-voltage MOSFET types are commonly used by semiconductor industries. One has a symmetrical structure, and the other has a laterally-diffused asymmetric structure called LDMOS. Here our focus is the LDMOS structure, where an [...]

Charge Partition in Lateral Nonuniformly-Doped Transistor

Zhang J., Zhou X., Zhu G., Lin S., Nanyang Technological University, SG

In this work, we aim to model the LDMOS capacitance behavior of the core channel. In order to simplify the problem, the diffused doping profile in the core channel is approximated as a step profile. [...]

Modeling Bias Stress Effect on Threshold Voltage for Amorphous Silicon Thin-Film Transistors

Shen C-H, National Chiao Tung University, TW

Amorphous silicon thin-film transistors (a-Si:H TFTs) are widely used in active-matrix backplanes for LCD displays on glass. Unfortunately, DC and dynamic characteristics of a-Si:H TFTs are sensitive [1]; in particular, they suffer form electric-field-induced threshold [...]

Characterization and Modeling of Metal Finger Capacitors

Lu N., Booth R., Daley D., Thompson E., Putnam C., IBM, US

A capacitor solution with no mask or process additions can be formed by the use of interdigitated metal fingers. Often, this metal finger capacitor uses multiple back-end-of-line (BEOL) levels to increase capacitance density. Metal structures [...]

The accurate Electro-Thermal Model of Merged SiC PiN Schottky Diodes

Zubert M., Starzak L., Jablonski G., Napieralska M., Janicki M., Napieralski A., Technical University of Lodz, PL

This paper presents a novel SPICE model for SiC merged PiN Schottky diodes dedicated to the dynamic, as well as to very accurate static simulation. The model takes into account the temperature dependence of device [...]

Single-walled Carbon Nanotube (CNT) Field Effect Transistor Device Modeling

Abebe H., Cumberbatch E., USC/ISI, US

We have developed a surface potential based compact model for a single well semiconductor CNT field effect transistor. Our compact modeling results for surface potential, channel charge, gate capacitance and channel current are compared with [...]

Analytical Solutions to Model the Line Edge Roughness and its Effect on Subthreshold Behavior of DG FinFETs

Monga U., Fjeldly T.A., Norwegian University of Science and Technology, and University Graduate Center (UNIK), NO

Statistical variability such as line edge roughness (LER) and random dopant effects have become major concerns in the nanoscale regime. Due to the intrinsic body, multigate devices such as FinFETs don’t suffer from random dopant [...]

Hot-Carrier-Induced Current Degradation in Deep Sub-Micron MOSFETs from Subthreshold to Strong Inversion Region

Shihuan L., Nanyang Technology University, SG

In the past decades, as predicted by the Moore’s law, the IC circuit density increases to reduce the cost per chip and to achieve better performance. With critical device dimensions scaling down, the electrical field [...]

The Application of RESCUER Software to Modelling of Coupled Problems in Modern Devices

Zubert M., Napieralski A., Technical University of Lodz, PL

The simulation of modern electronic devices requiring taking into account physical phenomena of different nature such as electrical, mechanical, thermal or fluidic ones. The most of processes are governed by multidimensional partial differentialalgebraic equations (PDAEs). [...]

Drain Induced Barrier Lowering (DIBL) Effect on the Intrinsic Capacitances of Nano-Scale MOSFETs

Karim M.A., Venugopalan S., Chauhan Y.S., Lu D., Niknejad A., Hu C., University of California at Berkeley, US

MOSFET intrinsic capacitances going negative is a major concern in the compact model community. Negative Intrinsic Capacitances (NIC) can raise non-convergence issues in circuit simulators. In some cases NICs can be explained using physical phenomena. [...]

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