Enroll Course: https://www.udemy.com/course/vlsi-design-and-sub-systems/
In today’s rapidly evolving technological landscape, Very Large Scale Integration (VLSI) design is at the forefront of innovation. From the smartphones in our pockets to complex industrial systems, VLSI circuits are the backbone of modern electronics. If you’re an electronics or computer science enthusiast looking to carve a niche in this dynamic field, the “CMOS VLSI Design & Sub Systems of Digital Circuits” course on Udemy is an absolute must-have.
This comprehensive course, brought to you by Skill Gems Education and instructor PUDI V V S NARAYANA, promises to take you from the fundamentals of VLSI design to mastering complex digital subsystems. It’s designed for learners who want to understand VLSI from scratch, with a meticulous step-by-step approach that covers every detail.
The course delves deep into the behavior and characteristics of MOS circuits, providing a solid theoretical foundation. You’ll explore the electrical properties of MOS and Bipolar circuits, understand current-voltage relationships, and analyze the non-saturated and saturated regions of operation. Key concepts like MOS transistor transconductance and output conductance are explained in detail, along with the functionality of pass transistors.
One of the highlights of this course is its thorough coverage of inverter characteristics. You’ll learn how to determine pull-up to pull-down ratios for various NMOS and CMOS inverter configurations, including those driven by pass transistors. The course also explores alternative pull-up designs and the intricacies of Bipolar and CMOS inverter circuits.
Moving beyond basic circuits, the course provides an in-depth look at layout design. You’ll master MOS layers and NMOS/CMOS color encoding using stick and mask layout schemes, learning the essential stick diagram rule sets. Practical examples like NMOS and CMOS inverters, NAND gates, NOR gates, and OR gates are covered with detailed stick diagrams and schematics.
The importance of design rules is thoroughly explained, with a focus on lambda-based layout rules. You’ll gain hands-on experience by designing CMOS inverters and NAND/NOR gates using these rules. The concept of sheet resistance is applied to MOS transistors and inverters, and you’ll learn about area capacitance of layers and standard capacitances in different technologies.
Time delay analysis is crucial in VLSI design, and this course equips you with the knowledge to estimate rise and fall times, understand inverter pair delays, and analyze the impact of driving large capacitive loads. You’ll also explore how cascaded inverters affect delay in both NMOS and CMOS circuits, and learn about the functionality of Super buffers.
Scaling, a fundamental concept in VLSI, is covered extensively, including scaling for device parameters. The course then moves on to practical digital subsystem design, covering parity generators with their block diagrams and implementations using NMOS and CMOS, complete with stick diagrams. You’ll also get a detailed understanding of Bus Arbitration Logic, its types, truth tables, logic expressions, and multi-bit designs.
Finally, the course concludes with the design of essential combinational circuits like 2:1 and 4:1 multiplexers, and robust adder designs. You’ll learn to implement ripple carry adders and even delve into the more advanced carry look-ahead adder with CMOS schematic diagrams.
For anyone serious about a career in VLSI design, this course is an invaluable resource. It provides a structured, detailed, and practical learning experience that builds a strong foundation for future success. Don’t miss out on the opportunity to elevate your skills and embark on your VLSI design journey today!
Enroll Course: https://www.udemy.com/course/vlsi-design-and-sub-systems/