Silvaco tcad e-learning course

Name: Silvaco tcad e-learning course
Rating: 5.0 (2 reviews)

Simulation of Semiconductor devices

Created byGirish Wadhwa

Last updated 8/2022

English

What you'll learn

In this program, I'll introduce you to Silvaco software and lead you through the design and modeling of semiconductor electrical devices.
Additionally, I'll be teaching coding, instructions, and statements for Silvaco. We'll walk you through it step-by-step using handwriting and screen samples.
Technical video related to Silvaco, nanotechnology, VLSI design and many more
I am running online batches also

Course content

20 sections • 35 lectures • 16h 6m total length

Introduction of Silvaco Tcad Tool18:36
What is TCAD and Deckbuild?
How to use the example in SILVACO TCAD TOOL?
What are process simulation and device simulation?
What Are input and output files in ATLAS?
How to define Meshing, Region, Material, Electrode in SILVACO.13:27
Define Meshing, Region, Material, Electrode and Doping in Atlas.
Specifying 3D structure, Contact Characteristics, Material properties and Interface properties.
How to write a code in Silvaco??18:49
How to write a code in Silvaco??
How to define a structure in ATLAS ?
Define Meshing, Region, Material, Electrode and Doping in Atlas.
I am specifying 3D structure, Contact Characteristics, Material properties and Interface properties. We are offering 4 weeks of training in the Silvaco TCAD tool for students which is a fully project-based training that enables students to work on projects related to devices. We provide e-learning certification training online for students and working professionals. I will also invite various researchers to come and share knowledge.

Impact of process variation on SOI MOSFET using Silvaco tool12:23
Impact of doping Variation (Source, Drain and channel doping)
Gate Work-function, Gate Length
Oxide thickness Variation and Drain to Source Voltage on Drain Current using Silvaco Result
Design and analysis of PD and FD SOI MOSFET35:53
In this video, I discussed 4 codes of Silicon on Insulator (SOI) MOSFET
Partially Depleted (PD) – Threshold Voltage and SS Kink effect in PD SOI MOSFET
Fully Depleted – Threshold Voltage and SS PD vs FD – Leakage Current Analysis
Design of SOI (silicon on insulator) structure on silvaco tool13:27
Design of SOI (silicon on insulator) on silvaco tool...
How to write code in Silvaco??
How to define a SOI structure in ATLAS ?
How to extract data from logarithmic (.log) and Structure (.str) file?

How to write a Tunnel Field Effect Transistor (TFET) code in Silvaco??29:07
The basic operation of TFET and Comparison of MOSFET and TFET in detail.
Why Subthreshold Slope of TFET is Low..???
How performance of TFET depends upon device parameters such as Doping, Gate work-function, Gate oxide and Body Thickness??
How to assign Quantum tunneling meshing for planar and nonplanar structures..?
Define Meshing, Region, Material, Electrode and Doping in Atlas.

How to write a nanowire 3d code35:38
How to write a Nanowire FET code in Silvaco??
Advantages of Nanowire FET. Quantum Model used in nanowire FET.
Advantages of Bohm Quantum model (BQP) in nanowire. Calibration of BQP in detail.
Method (Newton, Block, Gummel) used in nanowire FET. Define Meshing, Region, Material, Electrode and Doping in Atlas.
Specifying 3D structure, Contact Characteristics, Material properties and Interface properties.
How to write a 2D & 3D Nanowire (GAA) TFET code in Silvaco..?24:36
How to write a 2D & 3D Nanowire TFET code in Silvaco??
Basic operation of gate all around (nanowire) TFET and Tunnelling models in detail.
Why Non local band to band model preferred over local band to band tunnelling model??? Which method do you have to use in 2D & 3D Nanowire TFET code in Silvaco.....(Gummel and Newton)
Nanowire FET ammonia Gas Sensor29:43
Design and analysis of nanowire FET for ammonia gas sensing.
How to apply Electrostatic technique and Charge Plasma technique in nanowire FET.
Gas Sensor using IGZO Material. Advantages of Ammonia Gas Detection. Define Meshing, Region, Material, Electrode and Doping in Atlas.
Specifying 3D structure, Contact Characteristics, Material properties and Interface properties.

Design and analysis of Doped Triple Metal Double Gate Vertical TFET23:53
How to write a Vertical TFET code in Silvaco?
Design and Investigation of Doped Triple Metal Double Gate Vertical TFET for Performance Enhancement.
How to write a Vertical Tunnel Field Effect Transistor (V-TFET) code in Silvaco??
The basic operation of TFET and different types of structures in TFET such as Lateral and Vertical Structures.
Impact of Parasitic Tunneling Paths on the subthreshold slope and ON current of vertical TFET. Brief introduction about Electrostatically-Doped Vertical Bilayer TFET structure.

How to design JLTFET and CPTFET Biosensor structure in Silvaco ?48:04
How to design JLTFET and CPTFET Biosensor structures in Silvaco?
What is Biosensor?
Types of Biosensor Different recognition techniques are used in Biosensor. Label-based and Label-free detection techniques used for FET Biosensor. How to create a nanocavity region in TFET Biosensor?
Challenges in Device-design for obtaining High Performance. How to define new material in Silvaco?
Comparison between JLTFET and CPTFET Biosensor.

How to Make the Strongest Material in the World—Graphene!35:25
What is graphene? What is it used for?
How to Make the Strongest Material in the World—Graphene!
Why graphene hasn’t taken over the world...yet GRAPHENE - The Future is Here!! |
Applications and Analysis What is the source of graphene?
Creation and Isolation of graphene.
Comparison between Graphene and Silicon Material. Literature Survey of Graphene Transistor. Current Graphene Transistor production challenges. Fabrication advantages of using Graphene. Different Software used for 2D materials such as Graphene.

Requirements

Silvaco Tcad Tool
MATLAB
Maple

Description

In this program, I'll teach you about Silvaco TCAD software and lead you through the design, simulation and modeling of semiconductor electrical devices. Additionally, I'll be teaching coding, instructions, and statements for Silvaco. We'll walk you through it step-by-step using PPT and virtual mode.

I'll also go through various simulation techniques that differ in accuracy and speed. Various models for semiconductor quantities, including mobility, carrier recombination generation, and current density, will also be covered.

You will have a deep understanding of how electronic devices operate and several simulation techniques at the end of this course. You can use it for homework, writing assignments, and even regular jobs.

Today much of the development of semiconductor devices and processes is done by computer modeling. The approach is called TCAD. Technology computer-aided design is a branch of electronic design automation that models semiconductor fabrication and semiconductor device operation. The modeling of the fabrication is termed Process TCAD, while the modeling of the device operation is termed Device TCAD.

Requirement:

To learn Silvaco you have to be knowledgeable about semiconductor materials and their performance parameters, the physics and technology of the electronic device, and some analytical solutions of the device you want to simulate.
Then you have to know how an electronic device is simulated numerically starting from its physical model, then its mathematical model then its solution of the mathematical model to get the performance parameters such as the i-v curves of the device.

Who this course is for:

Beginner
VLSI Design Students
Device Physics
Analog and VLSI Design
Researchers

Silvaco tcad e-learning course

What you'll learn

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Course content

Introduction3 lectures • 51min

How to write a code in Silvaco TCAD ATLAS tool?1 lecture • 23min

Silicon on Insulator (SOI) device physics and code3 lectures • 1hr 2min

Design of DGMOSFET.1 lecture • 19min

How to write a Tunnel Field Effect Transistor (TFET) code in Silvaco?1 lecture • 29min

How to write a nanowire Transistor code in Silvaco?3 lectures • 1hr 30min

Doped Triple Metal Double Gate Vertical Tunnel FET1 lecture • 24min

Tunnel FET Biosensor1 lecture • 48min

Design and analysis of Ferroelectric FET.1 lecture • 26min

What is Graphene Transistor?1 lecture • 35min

Requirements

Description

Who this course is for: