The MTech program offers core and elective subjects across various specializations like Chemical, Civil, Software, Electrical, and Computer Science Engineering. It provides in-depth knowledge and practical skills, preparing students for advanced engineering roles. The curriculum blends theory with hands-on projects and seminars.
| Program | Subject Title | Subject Details |
|---|---|---|
| MTech in Chemical Engineering | Advanced Momentum Transfer | Topics include turbulent flow, Bernoulli’s equation, gas-liquid and solid-liquid fluidized beds, and related applications. |
| Advanced Mass Transfer Operations | Concepts include separation processes, multi-stage separation, binary separation, energy requirements, etc. | |
| MTech in Civil Engineering | Matrix Methods for Structural Analysis | Focus on matrix techniques such as direct flexibility, generalized flexibility, direct stiffness, and generalized stiffness. |
| Finite Element Analysis (FEA) | Topics include FEM and approximate methods, one-dimensional and two-dimensional FE analysis, and the direct approach for solving problems. | |
| MTech in Software Engineering | Machine Learning | Covers machine learning basics, types of learning, hypothesis space, evaluation techniques, k-means, and deep neural networks. |
| Software Architecture | Topics include the SEI framework, architecture documentation, module and component views, deployment views, and pattern-oriented software architecture (e.g., Layered, MVC). | |
| MTech in Electrical Engineering | Power System Modeling | Covers modeling of power system components, such as synchronous machines and excitation systems, and their analysis techniques. |
| Elective Subjects for MTech | Advanced Heat Transfer | Topics include steady-state and unsteady-state heat conduction, natural convection, forced convection, and radiation heat transfer. |
| Bioprocess Engineering | Covers enzyme kinetics, bioreactor design, transport phenomena, and analysis of bioprocess systems. | |
| MTech in Civil Engineering | Structural Health Monitoring (SHM) | Topics include smart materials, vibration control, electrical impedance methods, and advanced signal processing for SHM. |
| Design of Masonry Structures | Includes masonry strength in compression, flexural shear, bond strength, designing load-bearing masonry buildings, and earthquake-resistant structures. | |
| MTech in Software Engineering | Software Performance Engineering | Focus on performance metrics, basic performance analysis, workload identification, and the relationship between business aspects and performance requirements. |
| Software Language Engineering | Includes grammar and parsing, language processing, attribute grammars, automated refactoring, and designing domain-specific languages. | |
| MTech in Electrical Engineering | Advanced Digital Signal Processing | Topics include discrete-time signals, FIR and IIR filter design, adaptive digital filters, and multi-rate signal processing. |
| Power Sector Economics, Regulation & Restructuring | Covers power sector economics, power tariffs, electricity market pricing, restructuring, and market reform. | |
| MTech in Computer Science | Data Structures & Algorithms | Topics include algorithm analysis, Big-O notation, stacks, queues, recursion, trees, sorting and searching algorithms, and graph algorithms. |
| Discrete Structures for Computer Science | Covers sets, relations, functions, propositional logic, counting, probability, abstract algebra, and lattices. | |
| Embedded Systems Design | Introduces embedded systems, applications, the 8051 architecture, and real-time operating systems. | |
| Operating Systems Design | Covers UNIX architecture, system calls, process states, file systems, and I/O subsystems. | |
| Semester 2 | Object-Oriented Systems Engineering | Covers project organization, communication, life cycle models, UML diagrams, dynamic object modeling, and mapping designs to code. |
| Computer System Design and Architecture | Focuses on instruction-level parallelism, static scheduling, memory hierarchy design, and system architecture. | |
| Automated Verification | Includes transition system models, linear-time properties, model checking, and verification of digital systems and software. | |
| Elective: Compiler Design | Topics include translation mechanisms, lexical analysis, syntax analysis, error detection, and code generation/optimization. | |
| Semester 3 | Advanced Software Testing | Covers software testing techniques such as specification-based, experience-based, and testing for web applications. |
| Elective: Systems Modeling and Simulation | Focus on system modeling, discrete-event simulation, and modeling complex systems. | |
| Semester 4 | Seminar | Students submit a report on their assigned project and defend their work in a viva session conducted by internal and external examiners. |
| Specializations | Communication Engineering | Topics include signal theory, antenna design, signal processing algorithms, wireless networks, fiber optic communication, and electromagnetic interference and compatibility. |
| Environmental Engineering (Civil Engineering) | Includes environmental chemistry, wastewater treatment, agricultural pollution control, and environmental auditing. | |
| Electronics & Telecommunication Engineering | Topics include signal theory, microwave techniques, advanced signal processing algorithms, neural networks, IoT, and biomedical signal processing. | |
| Digital Communication | Covers advanced digital communication, antenna theory, multirate signal processing, information theory, and optimization of digital circuits. |