The M.Tech. in VLSI and Microsystems is a 2-year full-time post-graduate program specializing in Very Large Scale Integration (VLSI) design and Microelectronics systems. The course enable students to demonstrate advanced mastery in VLSI and microsystems engineering, including low-power design, ASIC development, nanoelectronics, interface electronics, and micro/nanofabrication, achieving a level higher than that required at the bachelors level.
The M.Tech.in Digital Signal Processing (DSP) programme is a two-year graduate course offered to students who are passionate about the field of signal processing and allied fields such as communication systems, image processing, machine learning for signal processing, and computer vision. Students will be instructed in subjects based on probability and random processes, estimation and detection, linear algebra, advanced signal analysis, pattern recognition, and machine learning.
The M.Tech.in RF and Microwave Engineering programme under the department of Avionics is a unique two-year course designed with a specific focus of the state of the art industry requirements, Government R & D Laboratories, and higher education.
Hypersonic air-breathing propulsion – overview of hypersonic propulsion research – challenges in system design – system performance and analysis – hypersonic intakes – supersonic combustors – expansion systems – engine cooling – liquid air-cycle engines – space plane applications – experimental and testing facilities – CFD applications and simulation exercises.
Introduction to microscale and nanoscale transport – basic phenomenon of conductive transport in nanoscale – basic aspects of quantum mechanics – basics of kinetic theory and statistical me- chanics – thermodynamic relations – Boltzmann transport equation – microscale heat conduction – basics of electron and phonon transport – thermal conductivity models – Equilibrium breakdown and characterisation of flow regimes in micro and nano scale – continuum approach – heat transfer in Poiseuille microflows – single phase convection in micro channels – rarefied gas flows – Slip models – Burnett and
Introduction to Turbomachines. Dimensional Analyses and Performance Laws.
Axial Flow Compressors and Fans: Introduction – aero-thermodynamics of flow through an axial flow compressor stage – losses in axial flow compressor stage – losses and blade performance estimation, radial equilibrium equation – design of compressor blades – 2-D blade section design, axial compressor characteristics – multi-staging of compressor characteristics – high Mach number compressor stages – stall and surge phenomenon – low speed ducted fans.
Elements of rocket propulsion – nozzle design, characteristic parameters, heterogeneous flow analysis – aerothermochemistry of combustion, dissociation, equilibrium composition, adiabatic temperature, and combustion product equilibrium flow nozzle expansion – elements of solid propellant system – internal ballistics and design of solid propellant – grain design and optimization – elements of liquid propulsion system – design and selection of injectors, combustion chambers, nozzle, cooling system, feed systems and tanks – combustion instability, low and high frequency instability and scaling
Introduction to combustion, thermochemistry – mass transfer – chemical kinetics, reaction mechanisms – modeling of reactors – laminar premixed flames – detonation – laminar diffusion flames – droplet combustion – introduction to turbulence – turbulent premixed flames – combustion instability – combustion diagnostics – solid combustion.
Cryogenic Engineering: Historical background and applications – gas liquefaction systems – gas separation and gas purification systems – cryogenic refrigeration systems – storage and handling of cryogens – cryogenic insulations – liquefied natural – gas-properties of materials of low temperatures – material of construction and techniques of fabrication – instrumentation – ultra-low temperature techniques – application.
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