Physical Verification training is a four months course targeted for experienced engineers, BTech, BE, MTech, ME and diploma graduates planning to make career as a Physical verification engineer.
Next Batch
1-1 Dedicated Mentor Support
24/7 Tool Access
Multiple Mock Interviews
Industry Standard Projects
Support with Resume Update
Physical Verification Training Overview
Course Overview
Physical Verification training is a four months course targeted for experienced engineers, BTech, BE, MTech, ME and diploma graduates planning to make career as a Physical verification engineer. Physical Verification course ensures that a fresher/experienced engineer is prepared on all the aspects of Physical Verification including DRCs, LVS, ERC, Antenna Checks, Latchup, Exposure to the Importance of reliability checks like EM and IR analysis Design for manufacturability (DFM)checks, Electrostatic discharge (ESD) path checks.
Course will consist of 70% exposure to hands on projects and 30% theory sessions.
Course includes training on ASIC flow, Advanced Digital Design concepts, CMOS basics, FinFET basics, various memory architectures, Standard cell, IO’s and Analog layout techniques. Course also includes training on UNIX, revision management, scripting and soft skill for effective interview performance.
Course includes 20+ detailed labs & assignments covering all aspects of Physical Verification with multiple hands on projects.
Course starts with detailed sessions on semiconductors, Ohms law, Kirchhoff law’s, Diode-operation, CMOS operations, second order effects, FinFET’s, and detailed fabrication process, which is followed by assignments and hands on projects.
Course will also include detailed sessions on layout basics, hands on standard cell layouts, IO layout and memory layout for different architectures with detailed physical verification checks for the same.
IC Validator, Mentor calibre
Key Features
Who All Can Attend This Physical Verification Training?
This course can be attended byPre-requisites To Take Physical Verification Training
- Expertise on Digital & Analog design concepts
- Exposure to basic layout concepts
High Demand for Physical Verification Training
Know about the Growing VLSI industry
Physical Verification Engineers are crucial in the semiconductor industry, ensuring integrated circuit designs meet manufacturing specifications and reliability standards through rigorous checks (DRC, LVS, ERC). Statistics suggest a consistent demand for PV engineers, with a projected growth of 8% in related semiconductor roles over the next five years
₹4LPA
₹6 LPA
₹10 LPA
₹18 LPA
Mode of Training
Next Batch
1-1 Dedicated Mentor Support
24/7 Tool Access
Multiple Mock Interviews
Industry Standard Projects
Support with Resume Update
- Learn in real-time with instructor-led sessions
- Flexible access from anywhere
- Recorded sessions available for revision
- Training on industry-standard tools
- Get certification after completion
- Self-paced learning as per your flexibility
- Industry-aligned learning modules
- Certification after course completion
- Access to structured video lessons and materials
- Track your progress step by step
- Access to learning materials for more than 1.5 years
Physical Verification Training is crucial for aspiring and current VLSI engineers to master the critical stage of ensuring chip manufacturability and reliability. This four-month course provides in-depth knowledge of industry-standard checks like DRC, LVS, ERC, EM, and ESD. With a strong emphasis on hands-on projects (70%), you'll gain practical skills in ASIC flow, layout techniques, and essential tools, making you highly employable in the dynamic VLSI domain.
Career Path
Learning Path
At VLSIGuru, we believe that education should lead to meaningful employment. Our training programs are designed not just to impart technical excellence, but also to bridge the gap between academic learning and industry demands. With a strong network of hiring partners and a proven track record, we ensure that our students are career-ready.
Placement Highlights
- Industry-aligned curriculum
- Hands-on projects and case studies
- Communication skills
- Resume building and interview preparation
- Technical and HR mock sessions
- Aptitude and domain-specific test series
- Regular drives and exclusive hiring events with partner companies
- Resume building and interview preparation
At VLSIGURU, we provide industry-focused VLSI training and guidance that helps students and professionals build strong technical skills and succeed in their careers. Our programs are designed to be practical, flexible, and aligned with current industry requirements.
Student Reviews
Frequently Asked Questions
- Course presentations for all topics
- Session notes
- Lab documents with detailed steps
- User guides
- Expertise on Digital & Analog design concepts
- Exposure to basic layout concepts
Yes, we often have options to pay in installments. Please contact us for details.
Usually, people with engineering degrees who want to work in chip design or those already in the field who want to learn more about checking layouts.
Yes, we will help you improve your communication skills for interviews.
Yes, you can ask questions via email or in special online sessions.
Yes, we will teach you how to write good reports about the problems found and fixed in the layout.
Yes, we will give you tasks and tests to see how well you can solve problems related to checking chip layouts.
We will give you course materials, and we also suggest some books if you want to learn more.
Yes, you will have projects to practice what you learn. We will check if you did everything correctly, followed instructions, solved problems well, and wrote clear reports.
Yes, we help with resumes, interview skills, and share job openings.
You can ask instructors questions by email or in online meetings. There might also be online discussion groups.
You can become a Physical Verification Engineer, Layout Engineer, or work with the software used for verification.
It makes sure the chip can be built correctly, works as planned, and lasts long. It saves time and money by finding problems early.
Software to check if the chip layout follows rules (DRC). Software to compare the layout to the design (LVS). Software to check electrical problems (ERC). Software to see how signals behave (Parasitic Extraction). Software to check if the chip will last (Reliability Analysis).
Learn the basics of chip design and manufacturing. Practice using the tools. Understand common problems. Be ready to talk about your projects. Speak clearly. Know about the company.
Become the highest-paying VLSI engineer!
Join Hands with VLSIGuru Now
Become the highest-paying VLSI engineer!
Join Hands with VLSIGuru Now
