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Updated in [September 27th, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)IC Layout mask designer are in high demand right now and the specialized tool Microwind gives benefits to future design engineers and the instructors so that they can get a competitive edge in their careers by having skilled knowledge on CMOS circuits; which attracts the employersThe fabrication of integrated circuits is based on the layout of patterned material-layers one on top of the other Several such layers are not accessible to the circuit‟s layout-designer because they are required for isolation or electrical contacts between the semiconductor device and the supporting interconnect structure In order to get from circuit topology to the actual layout-topology the designer should have a firm understanding of the representation of devices in a layout and also the ability to do the reverse ie seeing a layout and having an idea of the corresponding circuit and therefore the circuit‟s function Specialize software tools aid the designers in both of these directionsMicrowind is a friendly Windows-PC software-tool for designing and simulating microelectronic circuits at layout level The tool features full editing facilities attractive views such as MOS characteristics 2D cross-sections 3D views atomic views and efficient analog simulator No SPICE or external simulator is needed The analog simulator is built-inAfter successful completion of course students will be able toUnderstand the working of PMOS and NMOSUnderstand the IC fabrication technologyUnderstand the operation of CMOS Inverter and its characteristicsUnderstand the importance of power delay product in IC technologyKnow about the layout and simulation toolUnderstand the Design Rules and know about DRCKnow the procedure for implementation of various digital circuitsIn contents of the course are as follows:Module 1: Basics of CMOSPMOSNMOSFabrication ProcessModule 2: CMOS InverterCMOS Inverter workingCMOS Inverter characteristicsPower Delay Product (PDP)Module 3: Layout & Simulation toolIntroduction to MicrowindDesign Rule Check (DRC)CMOS Inverter Implementation Module 4: Layout Design and Simulation ExamplesStick diagramLayout design & simulation example 1Layout design & simulation example 2Layout design & simulation example 3
We considered the value of this course from many aspects, and finally summarized it for you from two aspects: skills and knowledge, and the people who benefit from it:
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What skills and knowledge will you acquire during this course?
During this course, students will acquire the following skills and knowledge:
1. Understanding the working of PMOS and NMOS: Students will learn about the operation and characteristics of both PMOS and NMOS transistors, which are the building blocks of CMOS circuits.
2. Understanding IC fabrication technology: Students will gain knowledge about the process of fabricating integrated circuits, including the various steps involved in creating the patterned material-layers.
3. Understanding the operation of CMOS Inverter and its characteristics: Students will learn about the working principles of CMOS inverters and their characteristics, such as voltage transfer characteristics and noise margins.
4. Understanding the importance of power delay product in IC technology: Students will understand the concept of power delay product and its significance in determining the performance and power consumption of CMOS circuits.
5. Knowledge about the layout and simulation tool: Students will become familiar with Microwind, a specialized software tool for designing and simulating microelectronic circuits at the layout level. They will learn how to use the tool for efficient layout design and simulation.
6. Understanding the Design Rules and knowledge about DRC: Students will learn about the design rules that govern the layout of integrated circuits and the importance of adhering to these rules. They will also gain knowledge about Design Rule Check (DRC), which is a process of verifying the layout against the design rules.
7. Knowing the procedure for implementation of various digital circuits: Students will learn the step-by-step procedure for implementing various digital circuits using CMOS technology, including the layout design and simulation.
By the end of the course, students will have a comprehensive understanding of CMOS layout design and simulation, enabling them to design and implement digital circuits using CMOS technology effectively.
Who will benefit from this course?
This course on Mastering Digital CMOS Layout Design will benefit future design engineers and IC layout mask designers. It is particularly useful for individuals interested in pursuing careers in the field of integrated circuit design and fabrication.
The course provides specialized knowledge on CMOS circuits and the use of the Microwind tool, which is in high demand in the industry. By mastering digital CMOS layout design, students can gain a competitive edge in their careers and attract potential employers.
The course covers various topics such as the basics of CMOS, IC fabrication technology, the operation and characteristics of CMOS inverters, and the importance of power delay product in IC technology. It also includes modules on layout and simulation tools, design rules, and the implementation of various digital circuits.
Course Syllabus
Basics of CMOS
CMOS Inverter
Layout & Simulation Tool
Layout Design and Simulation Examples