Analog layout – 2
Custom Layout Design Courses & Analog Layout Design Training
Analog Layout Design / Custom Layout Design / IC design training course mainly focused on giving hands-on practical exposure in doing chip layout design for a given analog & mixed signal design. By end of the course you will learn to work in Linux environment, schematic entry in EDA tool, placement planning, analog and digital layout design, routing and physical verification checks like DRC, LVS for typical analog circuits such as Opamp, PLL, Bandgap, LDO and standard cells. You will also understand fixing deep sub-micron process issues like Antenna, Latchup, EM&IR.
Course also focus on giving insights of the Analog circuit design and Simulation, IO Layout Training, Memory Layout Training as well. After completing the course, you will get opportunity to move into domains such as Analog & Mixed Signal Layout Design, Memory Layout Design, Standard Cell Layout Design, and I/O Layout Design.
Enrollment Process
- B.E/B.Tech/Diploma in ECE/EEE
- M.E/M.Tech/M.S in VLSI System Design/Embedded Systems/Digital Electronics
Features Highlight
- Deep understating of MOSFET device physics and various key analog circuit designs.
- Practical understanding of matching, shielding techniques.
- Hands on exposure in fixing layout violations such as DRC, LVS, Antenna, Latchup, EM&IR.
- Hands on experience in standard cell layout design, I/O Layout design, Memory Layout Design.
- Critical Industry standard project execution under the guidance of 12+ year’s industry expert.
- 24×7 Lab Support with classroom practice handouts and course material.
- Soft skills development, job oriented analog layout design training with 100% placement assistance.
COURSE
COURSE CURRICULUM
Module 1: Basics of Unix/Linux
- Introduction and Working knowledge of UNIX/LINUX commands
- File handling skills in UNIX/LINUX
- Introduction to programming languages used in IC-Design
Module 2: Introduction to Electronics and Circuits
- Revision of Analog, Digital electronics, RLC Circuits
- Introduction to MOSFET Theory & CMOS Circuits
Module 3: Design for Manufacturability Checks
- Latch-up, Antenna Effect
- Electro-migration (EM), IR Drop & Self-Heat (SH)
- Electrical rule check (ERC) and Design rule check (DRC)
Module 4: Deep sub-micron process challenges
- Well proximity Effect (WPE), Length of Diffusion (LOD)
- Shallow trench Isolation (STI)
- Metal Density effects
Module 5: Introduction to IC Circuit Layout
- CMOS Fabrication Technology
- Introduction to Second order effects in MOSFET
- CMOS Stick Diagrams
- Introduction to IC Circuit Layout and Physical Verification tools
- DRC, LVS, ERC and Antenna checks
Module 6: Analog Circuit Simulations
- Introduction to Analog Design Environment
- Design of Inverter circuit
- Design and Parasitic Extractions of Inverter Layout
- Analysis of the INV Characteristics
- Understanding of the time delay concepts
Module 7: Analog Circuit Layout Design Techniques
- Common centroid & Interdigitation matching techniques
- Critical signals shielding techniques
- Constraint & Module based floor planning techniques
- Guard / Seal ring techniques
Module 8: Custom Layout Techniques
- STD Cell Layout design techniques
- I/O Layout design techniques
- Memory Layout Design techniques
Module 9: Basic Analog Circuit Layout Design
- Layout Design & Physical Verification of Operation amplifier
- Layout Design & Physical Verification of Voltage Controlled Oscillator
- Layout Design & Physical Verification of Band gap Circuit
- Layout Design & Physical Verification of Current mirror
Module 10: Layout Design of Critical Analog Circuits
- Advanced/Critical Analog Circuits
- Complete Physical Verification Checks required for a Successful tape-out
Module 11: Industry standard Project Execution
- Working on Critical Analog Circuits that are important in Industry
Module 12: Mock Interviews & Personality improvement
Placement Success
100% Placement Assistance
With a dedicated placement cell and partnerships with leading MNCs, we offer our graduates strong job prospects in the VLSI field. Our programs have achieved a 96% placement success rate, with many students landing roles in top companies.
FAQs
What is the duration of the Analog Layout Design course?
The course is 4 months long. Throughout the Analog Layout Design course, you will be given detailed instruction and practical exposure, along with many chances to enhance your skills in analog layout design.
What kind of certification will you receive after the course?
After the course, you will receive a Takshila VLSI Certificate, acknowledging your proficiency in analog layout design education. Getting this certification can enhance your credentials and increase your competitiveness in the employment industry.
Can I take this course if I am working?
Yes, This course is created to be flexible, providing weekend classes and lab access 24 hours a day, 7 days a week. It enables you to disrupt your present job while also advancing in learning analog layout design.
How does this course prepare me for a career in Analog IC layout design?
Our course prepares you by offering practical, real-world projects and extensive training in analog IC layout design. You’ll work with industry-standard tools and receive dedicated job placement assistance to help you secure a position in the field.
What will your Analog Layout Design course teach?
Our Analog Layout Design course will cover the fundamentals of VLSI analog layout design. It involves actual practice in schematic entry, placement planning, routing, and physical verification checks. The class includes basic and advanced subjects to prepare you for developing and testing analog ICs effectively.
What is the fee structure of this course?
The price of the Analog layout design for the VLSI course is established at a competitive rate to provide excellent value. For additional details on fees and payment methods, contact us directly or visit our admissions webpage on the site. We offer various payment choices and financial assistance to help lower the cost of the course for everyone.