M.Tech full form is Master of Technology.
It is a two-year postgraduate engineering program that enables students to specialise in numerous sectors of technology and engineering. There are several specialisations for M.Tech degrees, such as data science, artificial intelligence, and cyber security, students who have completed a four-year undergraduate engineering program transfer into the M.Tech program.
The primary pathway used for M.Tech admissions is national entrance exams like GATE. Candidates with an M.Tech degree might increase their professional options by developing their practical knowledge. They can become consultants for research and development groups while also holding senior positions in the industrial sector.
It helps students in the establishment of new avenues for research and development as well as the acquisition of current technological and scientific knowledge. It imparts knowledge in science and technology, both theoretical and applied while providing access to more advanced academic knowledge and stimulating career advancement.
What is M.Tech?
| Particulars | Details |
| Course Level | Postgraduation |
| Course Name | Master of Technology |
| Eligibility | BTech + GATE |
| Duration | 2 years |
| Examination Type | Semester-wise |
| Course Fee | Up to INR 3 lakh |
| Top Colleges | DTU, IIT Kharagpur, IIT Bombay, IIT Madras, IIT Delhi, IIT Kanpur |
| Online Courses | M.Tech. Software Engineering by BITS Pilani;M.Tech. Cloud Computing by BITS Pilani;M.Tech. in Electric Vehicle (EV) Technology by IIT Hyderabad |
| Average Salary | Up to INR 7 lakh |
| Top Recruiters | Google, Apple, Microsoft, Qualcomm, EXL, Amazon, ICICI |
| Top Exams | GATE, OJEE, CUCET, GUJCET |
| Job Positions | Assistant Engineer, Production Engineer, Mining Engineer, Researcher, Software Developer, Researcher |
| Specialisations | Mining, Civil, Electronics, Mechanical, Computer Science, Biotechnology |
Why Choose the M.Tech Course?
The M.Tech course comes across as the best career path for students already having an undergraduate degree in B.Tech. It will allow them to further advance their learning. Research is a common component of M.Tech degrees, which enables students to further knowledge in the area of their choice.
It can also help support the growth of your analytical and problem-solving abilities while offering chances to interact with educators, researchers, and students, fostering the development of an invaluable professional network.
To make sure that the curriculum is in line with current industry trends and requirements, it is frequently created in conjunction with industry partners. A person can perform more effectively at work if they have a deeper grasp and learning. Better performance translates into more money and appraisals. Therefore, Graduates who pursue an M.Tech after earning a B.Tech will get a deeper comprehension and be more equipped for the workforce.
But in the end, one should decide whether to pursue or not after taking into consideration his career objectives, interests and personal aspirations as well. Students should go through the syllabus of M.Tech and research more about what kind of opportunities will be available to them after this. Analysing the financial constraint is important as well. After carefully considering these factors one should make an informed decision.
M.Tech Eligibility Criteria
The following are the M.Tech course eligibility criteria that can be met for pursuing an M.Tech course:
- You must have a valid GATE score and a B.E./B.Tech degree from an accredited college or university.
- Applicants who are M.Sc. degree holders in subjects such as maths, computer science, science, statistics, or any other similar topic can also apply.
- Applicants who have finished a five-year study in science or applied science are also eligible.
- Candidates pursuing MCA programs may also apply.
Many universities require the GATE (Graduate Aptitude Test in Engineering) as part of their entrance test requirements for M.Tech admission. GATE scores are not necessary for all colleges, though. Depending on their criteria, certain colleges may provide admittance based on alternative entry examinations or even without any entrance exams at all.
As instructed by the relevant examination authorities, candidates must register for and show up for the necessary entrance exam. One of the most common tests that many Indian universities accept for M.Tech admission is the GATE. Upon the announcement of exam results, candidates are required to submit applications to their preferred M.Tech programs.
Candidates who receive qualifying scores in the entrance exams are required to attend rounds of counselling and in-person interviews to evaluate the technical proficiency of the students.
M.Tech Admission Process
- Candidates first need to check the requirements for admission that the university or organisation providing the M.Tech program has set.
- If you are eligible then sit for the required entrance examination. The most popular entrance exam is GATE. Some institutes have their own entrance test.
- Candidates then need to fill out application forms for their preferred M.Tech programs. Submit the entrance test scores if applicable.
- If a candidate is shortlisted they may be called for an interview or group discussion.
- After this institutes will announce the final shortlist and give offer letters to the selected candidates.
How to Prepare for Competitive Exams as a College Student?
M.Tech Entrance Exams
There are a variety of entrance examinations for admission to the M.Tech course. The most widely accepted is GATE. Some institutes also conduct their examinations.
Some of the most notable ones are:
- GATE
- CUCET
- AP PGECET
- SRMGEET
- KIITEE
- TS PGECET
- JNUEE
- PESSAT
- DSAT
- SUAT
- BHU PET
- BEEE
M.Tech Entrance Exam Syllabus 2024
| Courses | Subjects |
| Computer Science | Java Programming: Basics of Java, Control statements, polymorphism, keywords, operators, inheritance, Classes, and Objects. Computer Organisation and Design: ALU and data path, Machine instructions and addressing modes, Instruction pipelining, RISC and CISC. Programming and Data Structure: Programming in C/C++, Functions, Recursion, Control Structures, OOPS Fundamentals, Parameter passing, Pointers, Arrays, stacks, queues, File handling, linked lists, graphs, and trees. Databases: Relational model, Database design, Query languages, Database Security and Privacy, Data Warehousing, and Mining Operating System: CPU Scheduling, Process Management System, File systems, Memory management and Virtual memory, Disk Operating System, synchronisation. Networking: ISO/OSI stack, Multiplexing, Network Models, Transmission Media, Ethernet, Access Control, Routing, Network layer Protocols, Security and cryptography. |
| Civil Engineering | Steel Structure: Principles of working stress method, Built-up sections and frames, Design of connections, Design of Industrial roofs, Design of simple members and frames. Concrete Structure: Working stress, Design of beams, slabs, columns, Limit state and Ultimate load design concepts, Analysis of beam sections, Bond and development length. Structural Analysis: Statically determinate and indeterminate structures, Displacement methods, Analysis of trusses, arches, beams, cables, and frames, Stiffness and flexibility methods, Influence lines. Construction Planning and Management: Construction activity, Use of Basic principles of network – analysis in form of CPM and PERT, Quality assurance principles, Basic principles of Economic analysis and methods, Cost optimization and resource allocation, Project profitability. |
| Electrical Engineering | Circuit Theory: Electric Circuits Network graph, Sinusoidal steady‐state analysis, KCL, KVL, Transient response of DC and AC networks, Node and Mesh analysis, Resonance, theorems. Signal System: Shifting and scaling operations, Sampling Theorem, Linear Time-Invariant and Causal systems, Fourier series representation of continuous periodic signals. Power System: Power Systems, AC and DC transmission concepts, Power generation concepts, Electric field distribution and insulators, Models and performance. Electronic Devices and Circuits: Analog and Digital Electronics Characteristics of diodes, MOSFET, BJT, Amplifiers, Simple diode circuits, Oscillators, and Feedback amplifiers. |
| Mechanical Engineering | Engineering Mechanics: System of forces, equilibrium equations, free-body diagrams, Friction, Energy methods, Impulse-momentum, Principles of virtual work. Theory of Machines: Displacement, flywheels and governors, velocity and acceleration, gyroscope. Vibrations: Free and forced vibration of freedom systems, vibration isolation, effect of damping, resonance. Computer Integrated Manufacturing: Basic CAD/CAM concepts and their integration tools. Engineering Materials: Structure and properties of engineering materials, heat treatment, phase diagrams, and stress-strain diagrams for engineering materials. |
| Biotechnology | Plant and Animal Physiology: Photosynthesis, hormones functions, cell structure, Animal Physiology, hormones, Circulatory System, different systems. Plant and Animal Cell: Plant and Animal cell: Classification and general characteristics, Cell Membrane, Cell organelles, Classical experiments of biology. Genetics and environmental Science: Genetics and Nucleic acid, Molecular Biology, Transgenic, Genetically Modified Plants, Genetic engineering, Ecology, Evolution, Environmental Science. Applied Biotechnology: Plant Biotechnology, Industrial Biotechnology, Animal Biotechnology, Industrial Biotechnology, Bioinformatics, Bioprocess engineering and technology, Intellectual Property Rights. Metabolism: Metabolism-carbohydrates, Enzymes, lipids and proteins |
| English | Grammar: Parts of speech – Noun, Preposition, Pronoun, Conjunction, Interjection, Verb, Adjective, Adverb. Tenses: Active and Passive Forms for Present, Past and Future Tense. Modal Verbs: Can, Might, Would, Could, Should, May, Will. Common Errors: Error Searching and Sentence Correction Exercises. Associative Language Skills: Antonyms, one-word substitution, Synonyms, Idioms and Phrases, and Word Analogies. Comprehensive Passage: Identification of key ideas or themes, open and closed paragraphs |
M.Tech Syllabus
There are both required courses and elective courses on the syllabus. A solid basis in engineering principles is provided by core courses, which encompass subjects like machine design, thermodynamics, fluid mechanics, engineering mathematics, and mechanics.
Specialisation in areas of interest, such as robotics, computer-aided engineering, data structures, control systems, software engineering, and information security, is possible via elective courses. Several subjects are frequently covered in all M.Tech degrees.
Here’s a broad rundown of typical topics:
M.Tech Subjects
- Data Structures and Algorithms
- Thermodynamics
- Advanced Fluid Mechanics
- Artificial Intelligence
- Digital Signal Processing
- Engineering Mechanics
Common M.Tech Specialisations
- Mechanical Engineering- The field of mechanical engineering focuses on topics such as manufacturing steps, robotics and AI, mechanics, and automotive engineering.
- Civil Engineering- Water resources engineering, environmental engineering, and structural transportation engineering as well as a few other kinds of engineering are included in the field of civil engineering.
- Computer Science and Advanced- Computer science subjects including artificial intelligence, machine learning, and computer networks are a few of the subjects that are focused on computer science and engineering.
- Electrical Engineering (EE)- It specialises in areas such as electronics, power and control systems and renewable energy.
- Aerospace Engineering- Aerodynamics, aerospace structures, propulsion systems, and space tech are the main areas of focus in aeronautical engineering.
Top M.Tech Colleges in India
| M.Tech Colleges | M.Tech Fees |
| IIT Madras | INR 50,620 |
| IIT Delhi | INR 95,150 |
| IIT Bombay | INR 69,750 |
| IIT Kanpur | INR 66,230 |
| IIT Kharagpur | INR 43,930 |
| NIT Trichy | INR 99,250 |
| National Institutes of Technology Calicut | INR 82,410 |
| Birla Institute of Technology Pilani | INR 4,45,000 |
| National Institute of Technology Surathkal | INR 55,900 |
| National Institute of Technology Tiruchirappalli | INR 1,25,000 |
| Indian Institute of Technology Guwahati | INR 52,150 |
Career Options after M.Tech in India
Various career options after the M.Tech Course are:
Software Developer: M.Tech graduates with a focus on computer science or similar subjects can find employment as software developers or engineers. Starting earnings for entry-level positions are from INR 2,00,000 to INR 7,00,000 annually.
Civil Engineer: Civil engineers are employed in construction engineering, urban planning, infrastructure development, and construction for various purposes. In India, the normal salary range for civil engineers is between INR 2,50,000 and INR 11,00,000 or more, contingent on project involvement and experience.
Mechanical Engineer: Employers in the automotive, aerospace, energy, and manufacturing sectors can hire mechanical engineers with an M.Tech degree. With experience, entry-level earnings can rise from INR 3,00,000 to INR 8,00,000 annually.
Electronics Engineer: Graduates with an M.Tech in electronics and communication engineering can find employment in a variety of sectors, such as consumer electronics, and telecommunications. Salary might vary from INR 3,00,000 to INR 10,000,000 or more. These engineers are in charge of designing and developing electrical systems. Additionally, they understand client needs and create system designs in response.
Innovation Adviser: They offer advisory services to various organizations to support their efforts in promoting innovation, using creative ideas into practice, and coming up with new ideas.
What are various Higher Education options after Graduation?
M.Tech Salary in India
The average range of salary of an M.Tech graduate in India is from INR 5,00,000 to INR 16,00,000 p.a.
FAQs
Q1. How long does it typically take for students to complete the M.Tech program?
It typically takes two years for students to complete the M.Tech program.
Q2. Will the GATE test be necessary for admission to M.Tech programs in 2024?
Many institutions require the GATE (Graduate Aptitude Test in Engineering) as a prerequisite for M.Tech enrollment. However, GATE scores are not necessary for all colleges. Certain institutions may admit students based on results from other entrance tests, or they might not require a standardized test at all.
Q3. What career opportunities are available to individuals who complete an M.Tech?
Individuals who complete an M.Tech program can pursue careers in research and development, design, project management, consulting, software development, data science, and project management.
Q4. What are the eligibility criteria for admission to an M.Tech program?
Eligibility criteria typically include having a B.Tech or B.E. degree in a related discipline with a minimum percentage or CGPA requirement. Additionally, some universities may require applicants to have a valid GATE score for admission.
