This course provides a comprehensive exploration of CMOS VLSI design and simulation, covering IC technology, CMOS structures, historical timelines, processor intricacies, MOS transistor design, non-ideal characteristics, power dissipation, low-power design techniques, and practical insights into CMOS logic gates. Participants will delve into fundamental components and circuit design in the "Analog Circuit CMOS Chip Design and Simulation" module, using the Electric VLSI EDA tool. This includes stick diagrams, tool installation and usage, and hands-on experience in schematic/layout representations, enhancing electronic circuit design proficiency. In the "Digital Circuit CMOS Chip Design and Simulation" module, participants create systematic workflows for schematic/layout designs using the Electric VLSI EDA tool. The curriculum covers logic gates, and half adder circuits, providing a holistic understanding of CMOS logic circuit design. Throughout the course, participants acquire a robust skill set, combining theoretical knowledge with practical expertise in CMOS VLSI design and simulation.
VLSI Chip Design and Simulation with Electric VLSI EDA Tool
Ce cours fait partie de Spécialisation Chip based VLSI design for Industrial Applications
Instructeur : Subject Matter Expert
1 668 déjà inscrits
Inclus avec
(12 avis)
Expérience recommandée
Compétences que vous acquerrez
- Catégorie : Analog Circuit Design
- Catégorie : CMOS VLSI Design
- Catégorie : Simulation and Layout Design
- Catégorie : Digital Circuit Design
- Catégorie : Electronic VLSI EDA Tools
Détails à connaître
Ajouter à votre profil LinkedIn
3 devoirs
Découvrez comment les employés des entreprises prestigieuses maîtrisent des compétences recherchées
Élaborez votre expertise du sujet
- Apprenez de nouveaux concepts auprès d'experts du secteur
- Acquérez une compréhension de base d'un sujet ou d'un outil
- Développez des compétences professionnelles avec des projets pratiques
- Obtenez un certificat professionnel partageable
Obtenez un certificat professionnel
Ajoutez cette qualification à votre profil LinkedIn ou à votre CV
Partagez-le sur les réseaux sociaux et dans votre évaluation de performance
Il y a 3 modules dans ce cours
This module provides a thorough introduction to CMOS structures and functionality, exploring IC technology advantages. It covers the historical timeline of IC technology, Moore's Law, and technology scaling. Participants delve into the crucial role of processors and the intricate process of crafting Integrated Chips from Silica Sand, spanning various stages. The module explores MOS transistor design intricacies, covering types and operational modes. It discusses characteristics of ideal and non-ideal transistors, including diverse leakage types. Factors impacting transistor performance, like temperature sensitivity and environmental variations, are explored. The curriculum covers CMOS transistors design, CMOS inverter design, and analysis of power dissipation, noise margin, and propagation delay in CMOS designs, encompassing power dissipation aspects and mechanisms. The module investigates leakage current sources, low-power design benefits, and factors influencing power consumption. Power reduction techniques, including Dynamic Voltage and Frequency Scaling (DVFS), power gating, and strategies for mitigating short-circuit power consumption, are included. Emphasis is on ultra-low power circuit design, power reduction, and optimization techniques for a holistic understanding of energy-efficient design principles. The module concludes with an overview of CMOS logic gates, addressing PMOS and NMOS transistors design intricacies, series/parallel connections configurations, and practical insights into designing logic gates using CMOS networks.
Inclus
18 vidéos3 lectures1 devoir
This module immerses participants in the schematic and layout design of fundamental components and circuits. It commences by introducing the fundamentals of stick diagrams, outlining the rules governing stick diagram and layout design, and providing a practical example for both stick and layout design. Subsequently, the module elucidates the installation process and step-by-step procedures for utilizing the Electric VLSI EDA tool. A comprehensive overview of the tool's built-in functions is provided, along with essential checks and waveform simulation. The module also covers the integration of LTspice with Electric VLSI EDA Tool, enhancing participants proficiency in design exploration. Furthermore, the module offers a concise introduction and procedural guidelines for designing schematic and layout representations of various electronic circuits, including PMOS, NMOS, CMOS inverter, Common Source Amplifier, Common Drain Amplifier, and a three-stage oscillator. Participants gain hands-on experience in representation, simulation, and 3D visualization of layout designs for these circuits. The procedures encompass Design Rule Checking (DRC) and Electrical Rule Checking (ERC), followed by NCC checks to ensure the practical implementation of the designs. This comprehensive approach ensures that participants not only grasp theoretical concepts but also acquire practical skills in the design and verification of electronic circuits using EDA tools.
Inclus
34 vidéos1 devoir
This module is designed to offer participants a deeper understanding of the schematic and layout design of various CMOS logic circuits. It guides participants through the process of creating a new cell in a predefined library, allowing them to choose between "schematic or layout" as the design approach. Emphasizing a systematic workflow, the module highlights that each design initiates with a schematic cell, subject to Design Rule Checking (DRC) at each step to assess the hierarchy of representations. The design is then simulated, and its characteristics are defined through waveform analysis. Participants will acquire the skills to craft the layout of schematic circuits, incorporating thorough checks such as DRC, Electrical Rule Checking (ERC), and Netlist-to-Component Connectivity (NCC) at the final stage. These checks ensure alignment between the designed layout and schematic, affirming the practical viability of the circuit. The module specifically covers the design of AND gate, OR gate, their complementary gates, XOR gate, and half adder circuits using the Electric VLSI EDA Tool and their characteristic verifications are done through LT spice software.
Inclus
24 vidéos1 devoir
Instructeur
Offert par
Recommandé si vous êtes intéressé(e) par Electrical Engineering
University of Illinois Urbana-Champaign
University of Illinois Urbana-Champaign
Pour quelles raisons les étudiants sur Coursera nous choisissent-ils pour leur carrière ?
Ouvrez de nouvelles portes avec Coursera Plus
Accès illimité à 10,000+ cours de niveau international, projets pratiques et programmes de certification prêts à l'emploi - tous inclus dans votre abonnement.
Faites progresser votre carrière avec un diplôme en ligne
Obtenez un diplôme auprès d’universités de renommée mondiale - 100 % en ligne
Rejoignez plus de 3 400 entreprises mondiales qui ont choisi Coursera pour les affaires
Améliorez les compétences de vos employés pour exceller dans l’économie numérique
Foire Aux Questions
Access to lectures and assignments depends on your type of enrollment. If you take a course in audit mode, you will be able to see most course materials for free. To access graded assignments and to earn a Certificate, you will need to purchase the Certificate experience, during or after your audit. If you don't see the audit option:
The course may not offer an audit option. You can try a Free Trial instead, or apply for Financial Aid.
The course may offer 'Full Course, No Certificate' instead. This option lets you see all course materials, submit required assessments, and get a final grade. This also means that you will not be able to purchase a Certificate experience.
When you enroll in the course, you get access to all of the courses in the Specialization, and you earn a certificate when you complete the work. Your electronic Certificate will be added to your Accomplishments page - from there, you can print your Certificate or add it to your LinkedIn profile. If you only want to read and view the course content, you can audit the course for free.
If you subscribed, you get a 7-day free trial during which you can cancel at no penalty. After that, we don’t give refunds, but you can cancel your subscription at any time. See our full refund policy.