JNTUA M.Tech R25 VLSI & Embedded Systems Course Structure and Syllabus
JNTUA M.Tech R25 VLSI & Embedded Systems Course Structure and Syllabus (Overview)
The M.Tech in VLSI & Embedded Systems (R25 regulation) at JNTUA is a two-year postgraduate program designed to build strong expertise in chip design, embedded system development, IoT, and hardware-software co-design. The curriculum is divided into four semesters, combining core subjects, electives, labs, and research work.
🔹 First Year – I Semester
Students begin with foundational and advanced core subjects such as:
- Embedded System Design
- CMOS VLSI Design
- Elective subjects like Advanced Computer Architecture, GPU Architectures, Machine Learning & Deep Learning, and Edge Computing
- Embedded System Design Lab
- CMOS VLSI Lab
- Research Methodology & IPR
This semester focuses on strengthening hardware fundamentals, VLSI design flow, and embedded system architecture.
🔹 First Year – II Semester
This semester focuses on real-time and IoT systems:
- Embedded Real-Time Operating Systems
- IoT System Design
- Electives like SoC Architectures, Wireless Sensor Networks, Hardware-Software Co-Design, Automotive Embedded Systems
- Embedded RTOS Lab
- IoT Lab
- Mini Project with Seminar
Students gain hands-on exposure to RTOS programming, IoT devices, and system integration.
🔹 Second Year – I Semester
Advanced specialization and research-oriented learning:
- Professional Electives (VLSI, Embedded, AI-based hardware topics)
- Open Elective from other domains
- Dissertation Work (Review–I/II continuation begins)
Focus is on advanced design topics, innovation, and project development.
🔹 Second Year – II Semester
Final phase includes:
- Major Dissertation / Project Work
- Final thesis submission and viva
🔹 Key Highlights
- Strong focus on VLSI design (CMOS, FPGA, SOC)
- Embedded systems with ARM, RTOS, IoT integration
- AI/ML applications in hardware design
- Research & industry-oriented projects
👉 Overall, the R25 VLSI & Embedded Systems syllabus is designed to prepare students for careers in chip design companies, embedded product development, IoT industries, and semiconductor R&D.