VLSI Training Course Internship

Course Overview

• Next Batch:New batches start every month. Limited seats available – enroll early!
• Course Duration:8 Weeks (Flexible schedules with part-time and full-time options).
• Eligibility: Engineering learners (ECE, EEE, CSE) Diploma Holders Electronics Enthusiasts Anyone Looking to Build a Career in VLSI Design.
• Engineering learners (ECE, EEE, CSE).
• Electronics Enthusiasts.
• Anyone Looking to Build a Career in VLSI Design.

VLSI Training Course Internship

• Learn VLSI fundamentals, CMOS design, and digital circuit principles.
• Master HDL languages (Verilog, VHDL) for logic design and simulation.
• Design and test combinational and sequential circuits on FPGA boards.
• Understand ASIC design flow — RTL to GDSII implementation.
• Perform timing analysis, synthesis, and power optimization using industry tools.
• Gain hands-on experience through a VLSI Internship with credential preparation.

Overview of VLSI Training Course Internship

The VLSI Training Course Internship credential preparation is designed for electronics and electrical engineering learners who want to gain expertise in integrated circuit (IC) and semiconductor design. It covers both theoretical and hands-on aspects of FPGA and ASIC design flows, providing you with the specialized technical expertise needed to advance your career.

Through live lab sessions and internship-based projects, learners get hands-on exposure to Verilog/VHDL programming, digital logic design, and chip verification. By the end of this program, you'll earn your VLSI Internship credential preparation and be ready to start a professional career as a VLSI Engineer, FPGA Developer, or Design Verification Engineer.

VLSI Training Course Internship

• Need, Scope, and History of VLSI.
• Chip Design Process & Applications.
• Hardware Description Languages Overview.
• BJT vs MOS, Transistor Basics.
• Fabrication Process and Error Handling in Design.

2. Introduction to VHDL

• VHDL Code Structure: Library, Entity, Architecture.
• Configurations and Data Types.

3. VHDL Modeling Techniques

• Data Flow, Behavioral, and Structural Modeling.
• Finite State Machine (FSM), Moore and Mealy Designs.
• Flip Flops, Counters (MOD-3, MOD-5, MOD-7).
• Shift Registers and Memory Design.

5. Hardware Interfacing

• FPGA & CPLD Introduction.
• LED, Keypad, 7-Segment, LCD Interfacing.
• Real-time FPGA Kits Hands-on.
• VHDL Delays, Generics, and Mapping.
• Quartus and Altera Tools.
• Coding for Cyclone & Spartan Series.
• JTAG Programming and ASIC Basics.
• 16-bit Microprocessor Design.
• Full real-world assignment Assistance.
• Real hardware exposure to FPGA kits.
• VHDL programming with live simulations.
• Multiple minor and major real-world assignment builds.