Context educational needs the commercial chip design tools available today are very powerful

User-friendly and intuitive design tool for educational use

Yüklə 445 b.

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tarix	07.01.2022
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	#78935

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User-friendly and intuitive design tool for educational use.

The student draws the masks of the circuit layout and performs analog simulation

The tool displays the layout in 2D, static 3D and animated 3D

MICROWIND

MOS DEVICE
Traditional teaching : in-depth explanation of the potentials, fields, threshold voltage, and eventually the expression of the current Ids
Our approach : step-by-step illustration of the most important relationships between layout and performance.
Design of the MOS
I/V Simulation
2D view
Time domain analysis

MICROWIND

BASIC GATE DESIGN
Illustration of the most important relationships between layout and performance.
Design of pMOS
Design of inverters
Design of a VCO
Try to optimize the VCO for highest possible speed
Improve MOS size
Change MOS options
Make the layout more compact
Keep an eye on power consumption

MICROWIND

PROJECT EXAMPLES
engage students in a stimulating learning experience using latest CMOS technologies
Circuit analysis and optimization using WinSpice
Combinational and sequential circuit layouts
ALU Design
Power amplifier Bluetooth

EVALUATION

The VLSI course was evaluated anonymously by the students
UNISA course evaluation questionnaire containing ten core questions and open text response.
The students rated the course very highly in all the evaluation items.
The course in the in the top-5 courses offered in engineering in UniSA.
(off-line: Dr. Aziz won the “top teacher of the year” in Australia 2009)

EVALUATION

Answers to questionnaire

EVALUATION

“From just a few logic gates, we have created a 4-stage binary counter and compiled it into layout. It also gave us the basic concepts to understand the operation of the transistors in order to extract their models.”
“The 24-hours clock project was a good exercise which permitted us to see how it is inside a semiconductor and how it works.”
“We learned a lot about designing integrated circuit. We faced some practical problems, and tried to solve them or to understand them.”
“This study allows us to understand the DAC running. In spite of some design problems, we managed to make the DAC work well.”
“Before doing this project, we hadn’t thought that there are as many ways to realize an amplifier. It’s an area not easy to understand. Each technique has its limit. We tried to optimize our operational amplifier design to maximize the gain.”

PERSPECTIVES

Application note on 32 nm & 22 nm technologies
Application note on process variability and Monte-Carlo simulation
3D views of packages based on IBIS
3D views of carbon-nano tubes

REFERENCES

THANK YOU FOR YOUR ATTENTION

Yüklə 445 b.

Dostları ilə paylaş:

1 2 3

Context educational needs the commercial chip design tools available today are very powerful

User-friendly and intuitive design tool for educational use

User-friendly and intuitive design tool for educational use.

The student draws the masks of the circuit layout and performs analog simulation

The tool displays the layout in 2D, static 3D and animated 3D

MICROWIND

MOS DEVICE

Traditional teaching : in-depth explanation of the potentials, fields, threshold voltage, and eventually the expression of the current Ids

Our approach : step-by-step illustration of the most important relationships between layout and performance.

Design of the MOS

I/V Simulation

2D view

Time domain analysis

MICROWIND

BASIC GATE DESIGN

Illustration of the most important relationships between layout and performance.

Design of pMOS

Design of inverters

Design of a VCO

Try to optimize the VCO for highest possible speed

Improve MOS size

Change MOS options

Make the layout more compact

Keep an eye on power consumption

MICROWIND

PROJECT EXAMPLES

engage students in a stimulating learning experience using latest CMOS technologies

Circuit analysis and optimization using WinSpice

Combinational and sequential circuit layouts

ALU Design

Power amplifier Bluetooth

EVALUATION

The VLSI course was evaluated anonymously by the students

UNISA course evaluation questionnaire containing ten core questions and open text response.

The students rated the course very highly in all the evaluation items.

The course in the in the top-5 courses offered in engineering in UniSA.

(off-line: Dr. Aziz won the “top teacher of the year” in Australia 2009)

EVALUATION

Answers to questionnaire

EVALUATION

“From just a few logic gates, we have created a 4-stage binary counter and compiled it into layout. It also gave us the basic concepts to understand the operation of the transistors in order to extract their models.”

“The 24-hours clock project was a good exercise which permitted us to see how it is inside a semiconductor and how it works.”

“We learned a lot about designing integrated circuit. We faced some practical problems, and tried to solve them or to understand them.”

“This study allows us to understand the DAC running. In spite of some design problems, we managed to make the DAC work well.”

“Before doing this project, we hadn’t thought that there are as many ways to realize an amplifier. It’s an area not easy to understand. Each technique has its limit. We tried to optimize our operational amplifier design to maximize the gain.”

PERSPECTIVES

Application note on 32 nm & 22 nm technologies

Application note on process variability and Monte-Carlo simulation

3D views of packages based on IBIS

3D views of carbon-nano tubes

REFERENCES

THANK YOU FOR YOUR ATTENTION