M.Tech. in Electronics Engineering is a two-year course generally divided into 4 semesters. Apart from the courses in electronics, students also have to present a dissertation paper in the last semesters. While first two semesters are based on imparting theoretical, the third includes elective papers, seminar and sometimes even a dissertation and fourth wholly includes a dissertation on a selected paper. The course delivery methods in the program include classroom lectures, discussions, presentations and industry visits.
Scheme of Assessment
In M.Tech. in Electronics Engineering there is a credit allotted to each theory class, seminars, practical sessions and dissertations. In addition to the examinations held at the end of each semester, students are also assessed on certain parameters such as attendance, presentation, assignment, and class participation for internal assessment marks. The final weightage for each of these parameters is given below:
Examination |
Marks Allotted |
---|---|
Theory |
60 |
Internal Assessment |
40 |
Syllabus
The syllabus for M.Tech. in Electronics Engineering at all universities in India follows a pattern set by AICTE. An overview of the syllabus is given below:
Name of Paper |
Topics |
Description |
---|---|---|
Microelectronics |
Device Modeling MOS Technology and Circuits , MOS Circuit Design Process , CMOS Circuits & Processing Technology , Circuit Characterization and Performance Estimation , CMOS Circuits and Logic Design , |
This paper focuses on the study and manufacture (or micro fabrication) of minimal electronic designs and components. |
Embedded Systems |
Introduction to Embedded Systems, Processor and Memory Organization , Devices and Buses for Device Networks , Device Drivers and Interrupt Servicing Mechanism , Program Modeling Concepts in Single and Multiprocessor Systems , Software Engineering Practices in the Embedded Software Development Process , Interprocess Communication and Synchronization of Processes, Tasks and Threats , Real Time Operating System , Hardware Software Co-Design in Embedded System , Minimum of one assignment on each topic should be conducted. , |
This paper focuses on the study of a particular function within a larger mechanical or electrical system, like computer systems. It is the embedded part of a complete device including hardware and mechanical parts. |
DIGITAL COMMUNICATION SYSTEMS |
Sampling & Pulse Modulation , Information Theory Digital Pulse Modulation , Synchronization & Modulation Techniques , Data Transmission, Error, Control & Coding , List of Practical , |
An introduction to numerous elementary ideas in electrical engineering and computer science which uses digital communication systems as its medium. The course emphasizes on bits, signals, and packets three corresponding layers of abstraction of communication systems. |
DISCRETE MATHEMATICS |
Sets and Proposition & Computability and Formal Languages , Permutations Combinations & Discrete Probability & Relations and Functions , Graphs and Planar Graphs , Trees and Cut-Sets, Finite State Machines , Analysis Of Algorithm , |
This emphasizes on the study of mathematical structures crucial to the discretion of mathematics rather than continuous. |
DSP BASED DESIGN SYSTEM |
Linear Prediction and Optimum Filter Design , Adaptive Filters , Power Spectrum Estimation , Introduction to Programmable DSPs , Development Tools for DSP Implementations , DSP Processor TMS320C6XXX , |
This paper discusses the design of the digital signal processor based electronics controller, which initiates the level of flexibility required in a system. |
VLSI FOR WIRELESS NETWORKS |
Communication Concepts , Receiver Architecture , LNA & Mixer , Analog to Digital Converter , Frequency Synthesizer , Loop Filter & System Design , |
This focuses on communication concepts regarding the wireless networks. |
VLSI DESIGN |
Hardware Design Concepts , Hardware Description Language , Programmable Logic Devices , EDA Tool , Analog VLSI and High Speed VLSI , Advanced VLSI Technology , List of Practical , |
This includes theoretical as well as the practical knowledge of Hardware designs of integrated circuits. |
SYSTEM SIMULATION |
Introduction , Simulation of Continuous Systems , Discrete System Simulation , Simulation of Queuing Systems , Simulation of A Pert Network , Simulation Experiments and Languages , |
This helps to learn the varied techniques to imitate real-world task into computer processes. |
TESTING OF VERIFICATION OF VLSI DESIGN |
Software testing , Testing sequential circuits , Random pattern testing , Memory testing , Analog & Mixed signal testing , Delay testing, VLSI testing process & test equipment. , |
It includes the basic as well as in-depth knowledge of verification vs. testing, fault modeling and simulation. |
Electives I
Name of Paper |
Topics |
Description |
---|---|---|
SOFTWARE DEFINED RADIOS |
Introduction to Software Radio Concepts , Radio Frequency Implementation Issues , AD/DA Converters for Software Radios , Smart Antennas , Digital Hardware Choices , Case Studies in Software Radio , |
It offers a study of radio communication system typically implemented in hardware such as mixers, amplifiers, modulators, detectors, etc. |
REAL TIME SYSTEM DESIGN |
Basics Real-time concepts , Language & Software Lifecycle, Real-time specification & Design Techniques, Real-time Memory Management , System Performance Analysis & Optimization , Reliability testing & Fault Tolerance , |
It enables the knowledge of designing embedded software system whose behavior is subject to time. |
Electives II
WIRELESS SENSORS NETWORKS |
Introduction , Localization & Tracking , Networking Sensors , Infrastructure Establishment , Sensor Tasking Control , Sensor Network Platforms & Tools , |
This course offers the theoretical study of remote environmental monitoring and target tracking. |
ALGORITHM FOR VLSI DESIGN AUTOMATION |
Logic Synthesis & Verification , Partitioning , Placement, Floor Planning & Pin Assignment , Global Routing , Detailed Routing , Over The Cell Routing & Via Minimization , Compaction , |
This course is crucial to the application of VLSI designs as Very Large Scale Integration designs cannot be constructed without the aid of design automation tools. |
FUZZY LOGIC FOR EMBEDDED SYSTEM APPLICATION |
Fuzzy Sets , Fuzzy Relations , Embedded Fuzzy Applications , Neural Networks , Hybrid Systems , Hardware Implementations , |
This focuses on the basic theory relevant to electronics and provides emphasis on embedded system application. |
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