ME Programme:
Computer Science and Engineering
Duration: 2 years
Department Core: A minimum of 24 credits comprising at least 8 credits each from
Pool A, Pool B, and Pool C as given below.
Pool A
Course Credits Course
Title
E0 222 3:1 Automata
Theory and
Computability
E0 225 3:1 Design
and Analysis of
Algorithms
E0 235 3:1 Cryptography
Pool B
E0 227 3:1 Program Analysis and
Verification
E0 243 3:1 Computer
Architecture
E0 253 3:1 Operating
Systems
E0 254 3:1 Network and Distributed
Systems Security
E0 255 3:1 Compiler
Design
E0 261 3:1 Database
Management
Systems
E0 271 3:1 Computer
Graphics
Pool C
E0 219 3:1 Linear
Algebra and
Applications
E0 230 3:1 Computational
Methods of
Optimization
E0 232 3:1 Probability
and Statistics
E0 241 3:1 Computer
Communication
Networks
E0 268 3:1 Data
Mining
E1 254 3:1 Game
Theory
Project: 24
Credits
EP 299 0:24
Dissertation Project
0:8 August-December
0:16
January-April Term
Electives: The balance of credits
to make up the minimum of 64 credits required for completing the ME Degree
Programme (all at 200 level or higher) should be covered with elective courses from within/outside the
department and these courses can only be
taken with the approval of the
DCC/Faculty advisor.
M E PROGRAMME
TELECOMMUNICATION
DURATION: 2 YEARS
Course Credits Course Title
CORE COURSES: 12 Credits (All courses are compulsory)
E2 202 3:0 Random Processes
E2 203 3:0 Wireless Communication
E2 211 3:0 Digital Communication
E2 221 3:0 Communication Networks
SOFT CORE: Minimum of 12 credits comprising at least 6 credits each from Pool A and Pool B as given below.
E1 244 3:0 Detection and Estimation
Theory
E1 251 3:0 Linear and Nonlinear
Optimization
E2 201 3:0 Information Theory
E2 204 3:0 Stochastic Processes and
Queueing Theory
MA 251 3:0 Numerical Methods
E0 262 3:0 Multimedia Information
Systems
E2 205 3:0 Error Control Codes
E2 223 3:0 Communication Protocols
E2 241 3:0 Wireless Networks
E2 242 3:0 CDMA & Multiuser
Detection
E7 221 2:1 Fiber-Optic
Communication
E7 231 3:0 Fiber Optic Networks
E8 242 3:1 Radio Frequency
Integrated Circuits and
Systems
E9 201 3:0 Digital Signal Processing
E9 221 3:0 Digital Signal
Compression
E9 271 3:0 Space-Time Signal
Processing and Coding
EP 299 0:28 Dissertation Project
0:03 May-July Term
0:09 August-December Term
0:16 January-April Term
Electives:
The balance of credits to make up the minimum of 64 credits required for
completing the M E Programme (all at 200 level or higher). Electives from within/outside the department
to be taken with the approval of the DCC/Faculty advisor.
M E PROGRAMME
SIGNAL PROCESSING
DURATION: 2 YEARS
Course Credits Course Title
CORE COURSES: 12 Credits (All courses are compulsory)
E1
244
3:0 Detection and Estimation
Theory
E2
202 3:0 Random Processes
E9
291
2:1 DSP System Design
E2
212
3:0 Matrix Theory
Soft Core: Minimum of 12 credits comprising at least 6 credits each from Pool A and Pool B as given below.
E1 213 3:0 Pattern Recognition
E1 251 3:0 Linear and Nonlinear
Optimization
E9 201 3:0 Digital Signal Processing
E9 202 3:0 Advanced Digital Signal
Processing
E9 212 3:0 Spectrum Analysis
E9 241 2:1 Digital Image Processing
E0 265 3:0 Multimedia Systems
E1 214 3:0 Neural Networks
E1 216 3:0 Computer Vision
E2 211 3:0 Digital Communication
E2 241 3:0 Wireless Networks
E9 231 3:0 Digital Array Signal
Processing
E9 243 3:0 Computer-Aided
Tomographic Imaging
E9 261 3:0 Speech Information
Processing
E9 281 3:0 Biomedical Signal
Processing
E9 28 3:0 Medical Imaging Systems
and Applications
EP 299 0:28 Dissertation Project
0:03 May-July Term
0:09 August-December Term
0:16 January-April Term
Electives:
The balance of credits to make up the minimum of 64 credits required for
completing the M E Programme (all at 200 level or higher). Electives from within/outside the department
to be taken with the approval of the DCC/Faculty advisor.
M E PROGRAMME
MICROELECTRONIC SYSTEMS
DURATION: 2 YEARS
CORE COURSES: 18 credits
Total of 18 credits
with 9 credits each from pool A and pool B
Course Credits Course Title
Pool A: Materials,
Processes and Device Technology
E3 214 3:0 Microsensor
Technologies
E3 225 3:0 Submicron Device
Modeling and Simulation
E3 227 2:1 VLSI Device and Process
Simulation
E3 268 3:0 Advanced CMOS and
Beyond CMOS
E3 222 2:1 Micromachining for
MEMS Technology
E3 327 2:1 Nanoelectronics Device
Fabrication and
Characterization
E3 262 2:1 Electronic Systems
Packaging
ME 237 3:0 Introduction to MEMS
E7 213 3:0 Introduction to Photonics
Pool B: Circuits,
CAD, Systems and Applications
E0 283 3:0 CAD Algorithms for
VLSI Physical Design
E0 284 2:1 Digital VLSI Circuits
E3 238 2:1 Analog VLSI Circuits
E3 231 2:1 Digital Systems Design
with FPGAs
E3 239 2:1 Advanced VLSI Circuits
E0 285 3:0 Computer Aided Design
of VLSI Systems
E0 286 3:0 Test and Verification for
SOC Designs
E3 235 2:1 Analog and Data
Conversion Systems
E3 266 2:1 Electromagnetic
Compatibility
E3 255 2:1 Multi-Core Architecture
and Programming
E8 242 2:1 Radio Frequency
Integrated Circuits &
Systems
SE 273 3:1 Processor Design
E7 312 3:0 Selected Topics in
Photonics
EP 299 0:28 Dissertation Project
0:03 May-July Term
0:09 August-December Term
0:16 January-April Term
Electives: 18 credits
The remaining 18 credits can be additional courses from either Pool A or Pool B or any other courses offered in the Scheme of Instructions.
M E Programme
Electrical Engineering
Duration:
2 years
Course Credits Course
Title
Core
Courses: Pool A (One Course out of Two Courses)
E1 241 3:0 Dynamics of Linear
Systems
E1 251 3:0 Linear & Nonlinear
Optimization
Core
Courses: Pool B (Seven Courses out of Nine Courses)
E3 252 2:1 Digital Controller for Power
Applications
E4 231 3:0 Power System Dynamics &
Control
E4 233 3:0 Computer Control of Power
Systems
E4 234 2:1 Advanced Computer aided
Power
System Analysis
E5 201 2:1 High Voltage Engineering
E5 206 3:0 HV Power Apparatus
E6 201 2:1 Power Electronics
E6 211 3:0 Electric Drives
E8 201 3:0 Electromagnetism
Project:
24 Credits
Electives:
The balance of credits
to make up the minimum of 64 credits required to complete the ME degree program
(all at 200 level or higher). Electives from within/outside the department to
be taken with the approval of faculty advisor.
M E Programme
Systems Science & Automation
Duration:
2 years
Course Credits Course
Title
Core
Courses
Hard
Core: 13 credits (All courses are compulsory)
E0 251 3:1 Data Structures and
Algorithms
E1 241 3:0 Dynamics of Linear
Systems
E1 222 3:0 Stochastic Models and
Applications
E1 251 3:0 Linear and Nonlinear
Optimization
Soft
core: (Minimum of 12 Credits)
E0 246 3:0 Real Time Systems
E0 265 3:0 Multimedia Systems
E0 268 3:1 Data Mining
E1 213 3:1 Pattern Recognition and
Neural
Networks
E1 216 3:1 Computer Vision
E1 244 3:0 Detection and Estimation
Theory
E9 201 3:0 Digital Signal Processing
E1 254 3:1 Game Theory
Project:
24 Credits
EP 299 0:24 Dissertation Project
0:08
Aug-Dec Term
0:16
Jan-Apr Term
Electives:
The balance of credits
to make up the minimum of 64 credits required to complete the ME Degree
Programme (all at the 200 level or higher). Electives from within/outside the
department to be taken with the approval of the DCC/Faculty advisor.
M Tech Degree Programme
Electronics Design & Technology
Duration:
2 years
Course Credits Course
Title
Departmental
Core 21 credits
E0 284 2:1 Digital VLSI Circuits
E3 231 2:1 Digital Systems Design with
FPGAs
E3 235 2:1 Analog and Data
Conversion
Systems
E3 262 2:1 Electronic Systems
Packaging
E3 264 2:1 Industrial Design of
Electronic
Equipment
E3-26
2:1
Electromagnetic
Compatibility
E6 202 2:1 Design of Power Converter
Systems
EP 299 0:25 Project Work
0:4
Mini Project May-July Term
I
year
0:06
August – December Term
II Year
0:15
January – July Terms
II year
Electives:
The balance of 18
credits to make up the minimum of 64 credits required to complete the M Tech
Programme at CEDT. Electives from within/outside the department can be taken
with the approval of the DCC/Faculty advisor