.png&w=1920&q=75)
M-TECH in Electronics Communication Engineering Vlsi Embedded Systems at Koneru Lakshmaiah Education Foundation (Deemed to be University)
Guntur, Andhra Pradesh
.png&w=1920&q=75)
About the Specialization
What is Electronics & Communication Engineering (VLSI & Embedded Systems) at Koneru Lakshmaiah Education Foundation (Deemed to be University) Guntur?
This VLSI & Embedded Systems program at Koneru Lakshmaiah Education Foundation focuses on advanced concepts in integrated circuit design, microcontrollers, and real-time operating systems. It aligns with India''''s rapidly expanding semiconductor manufacturing and electronics product development industries, catering to the demand for highly skilled engineers in chip design and smart embedded solutions. The program emphasizes both theoretical foundations and practical application.
Who Should Apply?
This program is ideal for engineering graduates, especially from ECE, EEE, CSE, and IT backgrounds, seeking entry into the thriving semiconductor and embedded systems sectors. It also suits working professionals aiming to upskill in cutting-edge VLSI design, advanced embedded programming, and IoT applications, thereby enhancing their career progression in an evolving technological landscape.
Why Choose This Course?
Graduates of this program can expect promising career paths as VLSI Design Engineers, Embedded Software Developers, Hardware Architects, or IoT Solutions Architects in India. Entry-level salaries typically range from INR 4-8 LPA, with experienced professionals earning significantly more. The curriculum prepares students for roles in major Indian and multinational companies involved in chip design, automotive electronics, and consumer electronics.
Student Success Practices
Foundation Stage
Master Digital System Design & Embedded Fundamentals- (Semester 1-2)
Focus on solidifying core concepts of Advanced Digital System Design, Computer Architecture, and Embedded Systems. Actively participate in labs (Advanced Digital System Design Lab, Advanced Embedded Systems Lab) to build practical implementation skills. Utilize simulation tools like Xilinx Vivado/Quartus and embedded IDEs (Keil, Atmel Studio) beyond class hours.
Tools & Resources
Xilinx Vivado, Intel Quartus, Keil MDK-ARM, Atmel Studio, Verilog/VHDL, Microcontroller development boards (e.g., STM32)
Career Connection
Strong fundamentals are critical for entry-level roles in ASIC/FPGA design verification, embedded software development, and hardware testing, providing the base for future specialization.
Engage with Research Methodology & IPR- (Semester 1)
Actively attend sessions on Research Methodology and Intellectual Property Rights (IPR). Begin reading research papers in VLSI/Embedded domains to understand current trends and identify potential areas for future projects. Attend departmental seminars and guest lectures to broaden perspectives.
Tools & Resources
IEEE Xplore, SpringerLink, Google Scholar, WIPO resources
Career Connection
Develops critical thinking, problem-solving, and literature review skills essential for advanced research, product development, and understanding innovation protection in industry.
Cultivate Analog & Mixed-Signal Skills- (Semester 2)
Pay close attention to Analog and Mixed Signal IC Design and its associated lab work. Analog design requires a deep understanding of physics and precise circuit analysis. Practice using SPICE simulators extensively. Explore online courses or tutorials on analog circuit design to reinforce concepts.
Tools & Resources
Cadence Virtuoso, Synopsis Custom Compiler, LTSpice, PSpice, Online tutorials on analog electronics
Career Connection
Essential for roles in analog IC design, power management ICs, and sensor interface design, which are high-demand niche areas in the semiconductor industry.
Intermediate Stage
Strategic Elective Selection & Specialization- (Semester 3)
Carefully choose program electives based on career aspirations and emerging industry trends in VLSI, Embedded, or related fields like Machine Learning, IoT, or RF IC design. Dedicate extra study time to these specialized areas, pursuing certifications or mini-projects related to the chosen electives to gain deeper expertise.
Tools & Resources
Online courses (Coursera, NPTEL, edX), Relevant industry forums, Technical publications
Career Connection
Narrows down expertise, making students more attractive for specialized roles in specific domains of VLSI or Embedded Systems.
Initiate Project Work - Part A Effectively- (Semester 3)
Proactively engage in Project Work - Part A. Identify a relevant problem statement, conduct an exhaustive literature survey, define clear objectives, and formulate a robust methodology. Seek guidance from faculty mentors regularly. Aim for a novel approach or significant contribution.
Tools & Resources
Mendeley/Zotero for citation management, Project management tools (Trello, Jira), Research databases (IEEE, ACM)
Career Connection
Builds critical research, problem-solving, and technical writing skills, which are vital for R&D roles, product development, and higher studies.
Network and Seek Industry Exposure- (Semester 3)
Attend webinars, workshops, and industry conferences. Connect with alumni and industry professionals on platforms like LinkedIn to understand real-world applications and job market demands. Explore possibilities for internships or short-term industry training during semester breaks.
Tools & Resources
LinkedIn, Industry-specific forums, Career fairs, Company websites
Career Connection
Expands professional network, provides insights into industry expectations, and potentially leads to internship or placement opportunities.
Advanced Stage
Excel in Project Work - Part B and Publication- (Semester 4)
Dedicate significant effort to the implementation, testing, and analysis phases of Project Work - Part B. Strive for high-quality results, robust validation, and clear documentation. Aim for publishing research findings in reputable conferences or journals, which significantly boosts academic and professional profiles.
Tools & Resources
Advanced simulation software (e.g., Synopsis, Cadence), Hardware prototyping tools, LaTeX for thesis writing, Academic publishing platforms
Career Connection
Demonstrates ability to conduct independent research and development, a key skill for R&D positions, Ph.D. aspirations, and high-impact engineering roles.
Intensive Placement Preparation- (Semester 4)
Begin rigorous preparation for placements early in the final semester. This includes refining resumes, practicing technical interview questions (especially in VLSI, Embedded C, Verilog/VHDL, data structures, and algorithms), and participating in mock interviews. Focus on communication and presentation skills.
Tools & Resources
LeetCode, HackerRank, GeeksforGeeks, Technical interview books, Career services cell, LinkedIn for company-specific interview experiences
Career Connection
Directly impacts success in securing desired job offers from top-tier companies in the semiconductor and embedded industries.
Portfolio Building and Skill Showcase- (Semester 4)
Compile a comprehensive portfolio showcasing academic projects, mini-projects, elective-related work, and any internships. Highlight practical skills, problem-solving approaches, and contributions. Consider creating a personal website or a GitHub repository to make projects easily accessible to recruiters.
Tools & Resources
GitHub, Personal portfolio website platforms, Project reports, Design documents
Career Connection
Provides tangible proof of skills and experience, making a strong impression during interviews and demonstrating readiness for industry roles.
Program Structure and Curriculum
Eligibility:
- B.Tech. / B.E. in ECE / EEE / CSE / IT or an equivalent degree with a minimum of 60% marks or equivalent CGPA.
Duration: 4 semesters / 2 years
Credits: 70 Credits
Assessment: Internal: 40%, External: 60%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20MT5101 | Advanced Digital System Design | Core | 4 | RTL Design, HDL for Digital Systems, Digital System Synthesis, Low Power Design, Testing of Digital Systems |
| 20MT5102 | Advanced Computer Architecture | Core | 4 | CPU Design Principles, Memory Hierarchy Design, Pipelining and Parallelism, Superscalar Processors, Vector Processors and Multiprocessors |
| 20MT5103 | Advanced Embedded Systems | Core | 4 | Embedded Processors, Real-Time Operating Systems (RTOS), Device Drivers, Embedded Networking, Design Optimization Techniques |
| 20MT5104 | Research Methodology & IPR | Core | 2 | Research Design, Data Collection and Analysis, Report Writing, Intellectual Property Rights (IPR), Patent Filing Process |
| 20MT5111 | Advanced Digital System Design Lab | Lab | 2 | FPGA Design Flow, Verilog/VHDL Implementation, Logic Synthesis and Simulation, Timing Analysis, Hardware Prototyping |
| 20MT5112 | Advanced Embedded Systems Lab | Lab | 2 | Microcontroller Programming, RTOS Implementation, Peripheral Interfacing, Sensor Integration, Embedded System Debugging |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20MT5201 | Analog and Mixed Signal IC Design | Core | 4 | CMOS Amplifiers, Operational Amplifiers, Data Converters (ADC/DAC), Phase-Locked Loops (PLL), Analog Layout Design |
| 20MT5202 | VLSI Technology | Core | 4 | IC Fabrication Processes, CMOS Process Flow, Lithography and Etching, Doping and Thin Films, Packaging and Testing |
| 20MT5203 | Advanced Digital Signal Processing | Core | 4 | Discrete-time Signals and Systems, Z-transform and DFT/FFT, FIR and IIR Filter Design, Multirate DSP, Adaptive Filters |
| 20MT5204 | Program Elective - I | Elective | 4 | Advanced Antennas and Array Processors, Machine Learning, Wireless Communication & Networks, Advanced Coding Theory, Medical Imaging Techniques, Speech & Audio Processing, VLSI Testing, System Verilog, RF IC Design, Automotive Embedded Systems, Real Time Operating Systems |
| 20MT5205 | Program Elective - II | Elective | 4 | Advanced Antennas and Array Processors, Machine Learning, Wireless Communication & Networks, Advanced Coding Theory, Medical Imaging Techniques, Speech & Audio Processing, VLSI Testing, System Verilog, RF IC Design, Automotive Embedded Systems, Real Time Operating Systems |
| 20MT5211 | Analog and Mixed Signal IC Design Lab | Lab | 2 | SPICE Simulation, CMOS Amplifier Design, Filter Implementation, Data Converter Design, Layout Verification |
| 20MT5212 | IoT Application Development Lab | Lab | 2 | IoT Platform Integration, Sensor Interfacing, Data Communication Protocols, Cloud Connectivity, Edge Computing Concepts |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20MT6101 | Program Elective - III | Elective | 4 | Design for IoT, Digital Image and Video Processing, ASIC Design, Low Power VLSI Design, Verification using UVM, Embedded C, Wireless Sensor Networks, Deep Learning, Network Security, Satellite Communication, Bio-Medical Signal Processing |
| 20MT6102 | Open Elective | Elective | 4 | Interdisciplinary topics as per institutional offerings. |
| 20MT6181 | Project Work - Part A | Project | 8 | Problem Identification, Literature Survey, Methodology Development, System Design, Project Proposal Writing |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20MT6281 | Project Work - Part B | Project | 12 | Implementation and Development, Testing and Validation, Results Analysis and Interpretation, Thesis Writing and Documentation, Presentation and Publication |
