Description

 Course Description:

The VLSI Design Engineer Certified Course is a comprehensive, industry-aligned program that equips learners with the essential skills and hands-on experience required to design and implement integrated circuits at a large scale. This course is ideal for electronics, electrical, and computer science engineering graduates and professionals aiming to build a strong career in semiconductor and chip design.

 Key Features of Course Divine:

• Collaboration with E‑Cell IIT Tirupati
• 1:1 Online Mentorship Platform
• Credit-Based Certification
• Live Classes Led by Industry Experts
• Live, Real-World Projects
• 100% Placement Support
• Potential Interview Training
• Resume-Building Activities

Career Opportunities After Very Large Scale Integration Design Engineer:

• VLSI Design Engineer
• Physical Design Engineer
• RTL Design Engineer
• Verification Engineer
• Design for Test) Engineer
• ASIC Design Engineer
• FPGA Engineer
• Post-Silicon Validation Engineer

Essential Skills you will Develop Very Large Scale Integration Design Engineer:

• Digital Electronics & Logic Design
• VLSI Design Methodologies
• Hardware Description Languages (HDLs)
• CMOS Technology
• EDA Tools Proficiency

Tools Covered:

• Hardware Description Languages
• Simulation & Verification Tools
• Synthesis Tools

Syllabus:

Module 1: Introduction to VLSI Design Evolution of IC technology Moore’s Law and scaling VLSI design flow Design abstraction levels.

Module 2: Digital Electronics Fundamentals Boolean algebra and logic gates
Combinational and sequential circuits Flip-flops, latches, multiplexers, decoders
FSM design.

Module 3: CMOS Technology and Logic Design CMOS fabrication process
CMOS inverter and logic gates Stick diagrams, layout design rules Static and dynamic CMOS logic.

Module 4: HDL Programming (Verilog/VHDL) Introduction to Verilog/VHDL
Structural, dataflow, behavioral modeling and simulation
RTL design and verification.

Module 5: VLSI System Design Flow RTL to GDSII flow Logic synthesis and optimization Technology libraries and constraints Static timing analysis (STA).

Module 6: Physical Design and Floor planning Floor planning and placement
Clock tree synthesis (CTS) Routing and parasitic extraction Power planning and IR drop.

Module 7: Analog VLSI Design Analog CMOS circuits Current mirrors, op-amps, comparators Analog layout techniques Mixed-signal design concepts.

Module 8: FPGA Design and Implementation Introduction to FPGA architecture
Xilinx/Intel FPGA tools Synthesis, placement & routing Bitstream generation and implementation.

Module 9: Design for Testability (DFT) Fault models and simulation Scan chains, BIST, boundary scan ATPG and DFT tools Yield and test coverage improvement.

Module 10: Industry Tools and Project Hands-on with tools: Cadence, Synopsys, Mentor Graphics Complete mini project: RTL to GDSII flow Case studies on ASIC/FPGA designs Resume building and job interview preparation.

Industry Projects:

• RTL Design of a 32-bit RISC Processor
• FPGA Implementation of Digital Clock
• Design of UART Protocol in Verilog
• ASIC Flow Project – Design of ALU
• Low Power SRAM Cell Design Using Cadence

Who is this program for?

• Recent Graduates
• Engineering Students
• Working Professionals
• Research Scholars
• Faculty Members

How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com