21-05-2012, 02:41 PM
COURSE STRUCTURE FOR M.E.
COURSE STRUCTURE.pdf (Size: 89.62 KB / Downloads: 245)
504181 ANALOG AND DIGITAL CMOS IC DESIGN
Teaching Scheme Examination Scheme
Lectures: 3 Hrs./Week Theory: 100 Marks
Credit: 3
MOS Switch, MOS Diode/ Active Resistor, Current Sinks & Sources, Current Mirror, Current &
Voltage Reference, Band gap References. Inverters, Differential Amplifiers, Cascode Amplifiers,
Current Amplifiers, Output Amplifiers, High Gain Amplifier Architectures. Buffered Opamp, High Speed/Frequency Opamps, Differential Output Opamps, Micro power Op amps, Low Noise Opamp.
ow Voltage Opamp, Macro models for Opamps. Sequential Ckts. Design of FSM, Moore & Mealy machines, Metastability, Solutions to metastability, Synchronization methods, VHDL codes for complex sequential machines, Hazards, Types of hazards, Method to eliminate hazards, case studies. CMOS parasitic, Technology scaling, Lambda parameter, Design calculations for different logic ckts, Calculations for Area on chip, Power dissipation, PDP, Transmission gate, Domino logic,
NORA logic, CMOS layout techniques, Transient response, Advance trends of elements & Alloys for ultra fast logic ckts.
504182 PRINCIPLES AND PRACTICES FOR IT MANAGEMENT
Teaching Scheme Examination Scheme
Lectures: 3 Hrs./Week Theory: 100 Marks
Credit: 3
1. Management Perspectives
Role and importance of management, process of management –planning, organizing, staffing, directing, controlling. Nature, purpose and principles of management, Business policy, tools and techniques of strategic management, business ethics and social responsibilities
2. Preliminary planning of an IT Project
Gathering project Information, defining the project goals, establishing project priorities, requirements analysis, risk management, budgeting a project, creating a work breakdown structure, estimation
3. Organizing an IT Project
Organizing a Project Team: - Assessing internal scales, creating a team, managing team issues, resources procurement
Preparing and Implementing the project plan: - Defining the project schedule, project network diagram creation and analysis, project constraints, tracking project progress and financial obligations
Revising the project plan:-need for revision, establishing change control, implementing the project changes, coping with project delays
4. Group Dynamics and Team Management
Theories of Group Formation –Formal and Informal Groups and their interaction, Importance of teams - Formation of teams – Team Work, Leading the team, Team Meeting. Conflict Management - Traditional vis-à-vis Modern view of conflict, Conflict Process - Strategies for resolving destructive conflict, Stress management, employee welfare, energy management and energy audit,
5. Modern approaches to management
Concept of Knowledge management, change management, technology management, supply chain management, introduction to Intellectual property Rights (IPR)and cyber laws, process and project quality standards – six sigma, CMM, CMMI, PCMM, Impact of IT quality management systems, learning organizations
504183 EMBEDDED SYSTEM DESIGN
Teaching Scheme Examination Scheme
Lectures: 3 Hrs./Week Theory: 100 Marks
Credit: 3
Digital Systems and Embedded Systems, Design Methodology, Design Metrics, Specialties, Concepts & types of Memory, Cache Memory, Cache mapping techniques, replacement policies, Cache wire Techniques, Cache Impact on system Performance, Integrated Circuits Technologies-
Full custom/VLSI, Logic Families, ASICs , PLDs, PALs, CPLDs , FPGA, Packaging and Circuit Boards, Interconnection and Signal Integrity , Differential Signaling. General Purpose Processor, System On chip, Embedded Computer Organization, ARM 7/ARM 9 architecture, ARM
Microcontrollers and Processor Cores, Instructions and Data handling, interfacing with Memory, Interrupts, Timers, ARM Bus. I/O Devices, Controllers, Simple & Autonomous I/O Controllers, Parallel, Multiplexed, Tristate, and Open-Drain Buses, Bus Protocols, Serial Transmission
Techniques & Standards, Wireless protocols, CAN & advanced Buses. Design Methodology, Design Flow, Architecture Exploration, Functional Design, Functional Verification, Synthesis, Physical Design, Design Optimization, Area Optimization, Timing Optimization, Power Optimization, Design for Test , Fault Models and Fault Simulation, Scan Design and Boundary Scan, Built-In Self Test (BIST), Nontechnical Issues.