Thursday, July 7, 2011

CE2303 RAILWAYS, AIRPORTS AND HARBOUR ENGINEERING CIVIL ENGINEERING V,5TH SEMESTER SYLLABUS

CE2303 RAILWAYS, AIRPORTS AND HARBOUR ENGINEERING

UNIT I RAILWAY PLANNING AND DESIGN 

Role of Indian Railways in National Development – Railways for Urban Transportation – LRT & MRTS - Engineering Surveys for Track Alignment – Obligatory points - Conventional and Modern methods (Remote Sensing, GIS & GPS, EDM and other equipments) - Permanent Way, its Components and their Functions: Rails - Types of Rails, Rail Fastenings, Concept of Gauges, Coning of Wheels, Creeps and kinks - Sleepers – Functions, Materials, Density – Functions, Materials, Ballastless Tracks -Geometric Design of Railway Tracks – Gradients and Grade Compensation, Super- Elevation, Widening of Gauges in Curves, Transition Curves, Horizontal and Vertical Curves.

UNIT II RAILWAY TRACK CONSTRUCTION, MAINTENANCE AND OPERATION 

Points and Crossings - Design of Turnouts, Working Principle - Signalling, Interlocking and Track Circuiting - Construction & Maintenance – Conventional, Modern methods and Materials, Track Drainage - Track Modernisation– Automated maintenance and upgrading, Re-laying of Track, Lay outs of Railway Stations and Yards, Rolling Stock, Tractive Power, Track Resistance, Level Crossings.

UNIT III AIRPORT PLANNING AND DESIGN 

Role of Air Transport, Components of Airports - Airport Planning – Air traffic potential, Site Selection, Design of Components, Cost Estimates, Evaluation and Institutional arrangements Runway Design- Orientation, Cross wind Component, Wind rose Diagram (Problems), Geometric Design and Corrections for Gradients (Problems), Drainage -Taxiway Design – Geometric Design Elements, Minimum Separation Distances, Design Speed, Airport Drainage - Airport Zoning - Clear Zone, Approach Zone, Buffer Zone, Turning Zone, Clearance over Highways and Railways

UNIT IV AIRPORT LAYOUTS, VISUAL AIDS, AND AIR TRAFFIC CONTROL 

Airport Layouts – Apron, Terminal Building, Hangars, Motor Vehicle Parking Area and
Circulation Pattern, Case studies of Airport Layouts - Airport Buildings – Primary
functions, Planning Concept, Principles of Passenger Flow, Passenger Facilities -
Visual Aids – Runway and Taxiway Markings, Wind Direction Indicators, Runway and
Taxiway Lightings - Air Traffic Control – Basic Actions, Air Traffic Control Network -
Helipads, Hangars, Service Equipments.

UNIT V HARBOUR ENGINEERING 

Definition of Terms - Harbours, Ports, Docks, Tides and Waves, Littoral Drift, Sounding,
Area, Depth, Satellite Ports - Requirements and Classification of Harbours - Site
Selection & Selection Investigation – Speed of water, Dredging, Range of Tides, Waves
and Tidal Currents, Littoral Transport with Erosion and Deposition, Soundings,
Anchoring Grounds, Geological Characteristics, Winds & Storms, Position and Size of
Shoals - Shore Considerations- Proximity to Towns/Cities, Utilities, Construction
Materials, Coast Lines - Dry and Wet Docks, Planning and Layouts - Entrance, Position
of Light Houses, Navigating - Mooring Accessories, Navigational Aids - Coastal
Structures- Breakwaters, Wharves.

TEXT BOOKS
1. Saxena Subhash C and Satyapal Arora, A Course in Railway Engineering, Dhanpat Rai and Sons, Delhi, 1998.
2. Khanna S K, Arora M G and Jain S S, Airport Planning and Design, Nemchand and Brothers, Roorkee, 1994.
3. S P Bindra, A Course in Docks and Harbour Engineering, Dhanpat Rai and Sons,
New Delhi, 1993.
REFERENCES
1. Rangwala, Railway Engineering, Charotar Publishing House, 1995.
2. Rangwala, Airport Engineering, Charotar Publishing House, 1996.
3. Oza.H.P. and Oza.G.H., “A course in Docks & Harbour Engineering”. Charotar Publishing Co.1976.
4. J.S. Mundrey, “A course in Railway Track Engineering”. Tata McGraw Hill, 2000.

CE2302 STRUCTURAL ANALYSIS I CIVIL ENGINEERING V,5TH SEMESTER SYLLABUS

CE2302 STRUCTURAL ANALYSIS I

UNIT I DEFLECTION OF DETERMINATE STRUCTURES 

Principles of virtual work for deflections – Deflections of pin-jointed plane frames and
rigid plane frames – Willot diagram - Mohr’s correction

UNIT II MOVING LOADS AND INFLUENCE LINES (DETERMINATE &
INDETERMINATE STRUCTURES WITH REDUNDANCY RESTRICTED
TO ONE)

Influence lines for reactions in statically determinate structures – influence lines for
members forces in pin-jointed frames – Influence lines for shear force and bending
moment in beam sections – Calculation of critical stress resultants due to concentrated
and distributed moving loads. Muller Breslau’s principle – Influence lines for continuous
beams and single storey rigid frames – Indirect model analysis for influence lines of
indeterminate structures – Beggs deformeter

UNIT III ARCHES

Arches as structural forms – Examples of arch structures – Types of arches – Analysis
of three hinged, two hinged and fixed arches, parabolic and circular arches – Settlement
and temperature effects.

UNIT IV SLOPE DEFLECTION METHOD

Continuous beams and rigid frames (with and without sway) – Symmetry and
antisymmetry – Simplification for hinged end – Support displacements

UNIT V MOMENT DISTRIBUTION METHOD 

Distribution and carry over of moments – Stiffness and carry over factors – Analysis of
continuous beams – Plane rigid frames with and without sway – Naylor’s simplification.

TEXT BOOKS
1. Vaidyanadhan, R and Perumal, P, “Comprehensive Structural Analysis – Vol. 1 & Vol. 2”, Laxmi Publications, New Delhi, 2003.
2. Punmia B.C., Theory of Structures (SMTS ) Vol II Laxmi Publishing Pvt ltd, New Delhi, 2004.
3. BhavaiKatti, S.S, Structural Analysis – Vol. 1 & Vol. 2, Vikas Publishing Pvt Ltd., New Delhi, 2008
 
REFERENCE
1. Analysis of Indeterminate Structures – C.K. Wang, Tata McGraw-Hill, 1992.
2. L.S. Negi & R.S. Jangid, “Structural Analysis”, Tata McGraw-Hill Publications, New
Delhi, Sixth Edition, 2003.

CE2301 IRRIGATION ENGINEERING CIVIL ENGINEERING V,5TH SEMESTER SYLLABUS

CE2301 IRRIGATION ENGINEERING

UNIT I INTRODUCTION

Irrigation – Need and mode of irrigation – Merits and demerits of irrigation – Crop and crop seasons – consumptive use of water – Duty – Factors affecting duty – Irrigation
efficiencies – Planning and Development of irrigation projects.

UNIT II IRRIGATION METHODS

Canal irrigation – Lift irrigation – Tank irrigation – Flooding methods – Merits and
demerits – Sprinkler irrigation – Drip irrigation

UNIT III DIVERSION AND IMPOUNDING STRUCTURES 

Weirs – elementary profile of a weir – weirs on pervious foundations - Types of
impounding structures - Percolation ponds – Tanks, Sluices and Weirs – Gravity dams –
Earth dams – Arch dams – Spillways – Factors affecting location and type of dams –
Forces on a dam – Hydraulic design of dams.

UNIT IV CANAL IRRIGATION 

Alignment of canals – Classification of canals – Canal drops – Hydraulic design of drops
– Cross drainage works – Hydraulic design of cross drainage works – Canal Head works
– Canal regulators – River Training works.

UNIT V IRRIGATION WATER MANAGEMENT 

Need for optimisation of water use – Minimising irrigation water losses – On farm
development works - Participatory irrigation management – Water users associations –
Changing paradigms in water management – Performance evaluation.

TEXT BOOKS
1. Asawa, G.L., “Irrigation Engineering”, New Age International Publishers, 2000
2. Punima B.C. & Pande B.B .Lal Irrigation and Water Power Engineering, Laxmi Publishing, New Delhi 2007
3. Michael, A.M, Irrigation Theory and Practical, Vikas Publishing Pvt Ltd, 2006
4. Gupta, B.L, & Amir Gupta, “Irrigation Engineering”, Satya Praheshan, New Delhi

REFERENCES
1. Dilip Kumar Majumdar, “Irrigation Water Management (Principles & Practices)”,
Prentice Hall of India (P), Ltd, 2000
2. Basak, N.N, “Irrigation Engineering”, Tata McGraw-Hill Publishing Co. New Delhi,
1999
3. Sharma R.K.. “Irrigation Engineering”, S.Chand & Co. 2007.

Wednesday, July 6, 2011

AP9224 EMBEDDED SYSTEMS ME VLSI DESIGN SYLLABUS

AP9224 EMBEDDED SYSTEMS

UNIT I EMBEDDED PROCESSORS 

Embedded Computers, Characteristics of Embedded Computing Applications, Challenges in Embedded Computing system design, Embedded system design process- Requirements, Specification, Architectural Design, Designing Hardware and Software Components, System Integration, Formalism for System Design- Structural Description, Behavioural Description, Design Example: Model Train Controller, ARM processor- processor and memory organization.

UNIT II EMBEDDED PROCESSOR AND COMPUTING PLATFORM 

Data operations, Flow of Control, SHARC processor- Memory organization, Data operations, Flow of Control, parallelism with instructions, CPU Bus configuration, ARM Bus, SHARC Bus, Memory devices, Input/output devices, Component interfacing, designing with microprocessor development and debugging, Design Example : Alarm Clock. Hybrid Architecture

UNIT III NETWORKS 

Distributed Embedded Architecture- Hardware and Software Architectures, Networks for embedded systems- I2C, CAN Bus, SHARC link supports, Ethernet, Myrinet, Internet, Network-Based design- Communication Analysis, systemperformance Analysis, Hardware platform design, Allocation and scheduling, Design Example: Elevator Controller.

UNIT IV REAL-TIME CHARACTERISTICS 

Clock driven Approach, weighted round robin Approach, Priority driven Approach, Dynamic Versus Static systems, effective release times and deadlines, Optimality of the Earliest deadline first (EDF) algorithm, challenges in validating timing constraints in priority driven systems, Off-line Versus On-line scheduling.

UNIT V SYSTEM DESIGN TECHNIQUES 

Design Methodologies, Requirement Analysis, Specification, System Analysis and Architecture Design, Quality Assurance, Design Example: Telephone PBX- System Architecture, Ink jet printer- Hardware Design and Software Design, Personal
Digital Assistants, Set-top Boxes.

REFERENCES:
1. Wayne Wolf, “Computers as Components: Principles of Embedded Computing System Design”, Morgan Kaufman Publishers.
2. Jane.W.S. Liu, “Real-Time systems”, Pearson Education Asia.
3. C. M. Krishna and K. G. Shin, “Real-Time Systems” , McGraw-Hill, 1997
4. Frank Vahid and Tony Givargis, “Embedded System Design: A Unified Hardware/Software Introduction” , John Wiley & Sons.

AP 9222 COMPUTER ARCHITECTURE AND PARALLEL PROCESSING ME VLSI DESIGN SYLLABUS

AP9222 COMPUTER ARCHITECTURE AND PARALLEL PROCESSING

UNIT I THEORY OF PARALLELISM

Parallel computer models - the state of computing, Multiprocessors and Multicomputers and Multivectors and SIMD computers, PRAM and VLSI models, Architectural development tracks. Program and network properties- Conditions of parallelism.

UNIT II PARTITIONING AND SCHEDULING

Program partitioning and scheduling, Program flow mechanisms, System interconnect architectures. Principles of scalable performance – performance matrices and measures, Parallel processing applications, speedup performance laws, scalability analysis and approaches.

UNIT III HARDWARE TECHNOLOGIES

Processor and memory hierarchy advanced processor technology, superscalar and vector processors, memory hierarchy technology, virtual memory technology, bus cache and shared memory - backplane bus systems, cache memory organisations, shared memory organisations, sequential and weak consistency models

UNIT IV PIPELINING AND SUPERSCALAR TECHNOLOGIES

Parallel and scalable architectures, Multiprocessor and Multicomputers, Multivector
and SIMD computers, Scalable, Multithreaded and data flow architectures.

UNIT V SOFTWARE AND PARALLEL PROGRAMMING

Parallel models, Languages and compilers, Parallel program development and environments, UNIX, MACH and OSF/1 for parallel computers.

REFERENCES:
1. Kai Hwang, " Advanced Computer Architecture ", McGraw Hill International, 2001.
2. Dezso Sima, Terence Fountain, Peter Kacsuk, ”Advanced Computer architecture – A design Space Approach” , Pearson Education , 2003.
3. John P.Shen, “Modern processor design . Fundamentals of super scalar processors”, Tata McGraw Hill 2003.
4. Kai Hwang, “Scalable parallel computing”, Tata McGraw Hill 1998.
5. William Stallings, “ Computer Organization and Architecture”, Macmillan Publishing Company, 1990.
6. M.J. Quinn, “ Designing Efficient Algorithms for Parallel Computers”, McGraw Hill International, 1994.
7. Barry, Wilkinson, Michael, Allen “Parallel Programming”, Pearson Education Asia , 2002
8. Harry F. Jordan Gita Alaghband, “ Fundamentals of parallel Processing”, Pearson Education , 2003
9. Richard Y.Kain, “ Advanced computer architecture –A systems Design Approach”, PHI, 2003.

VL 9221 CAD FOR VLSI CIRCUITS ME VLSI DESIGN SYLLABUS

VL9221 CAD FOR VLSI CIRCUITS

UNIT I VLSI DESIGN METHODOLOGIES

Introduction to VLSI Design methodologies - Review of Data structures and algorithms - Review of VLSI Design automation tools - Algorithmic Graph Theory and Computational Complexity - Tractable and Intractable problems – general purpose methods for combinatorial optimization.

UNIT II DESIGN RULES

Layout Compaction - Design rules - problem formulation - algorithms for constraint graph compaction - placement and partitioning - Circuit representation – Placement algorithms – partitioning

UNIT III FLOOR PLANNING

Floor planning concepts - shape functions and floorplan sizing - Types of local routing problems - Area routing - channel routing - global routing - algorithms for global routing.

UNIT IV SIMULATION

Simulation - Gate-level modeling and simulation - Switch-level modeling and simulation - Combinational Logic Synthesis - Binary Decision Diagrams – Two Level Logic Synthesis.

UNIT V MODELLING AND SYNTHESIS

High level Synthesis - Hardware models - Internal representation - Allocation - assignment and scheduling - Simple scheduling algorithm – Assignment problem - High level transformations.

REFERENCES:

1. S.H. Gerez, "Algorithms for VLSI Design Automation", John Wiley & Sons,2002.
2. N.A. Sherwani, "Algorithms for VLSI Physical Design Automation", Kluwer Academic Publishers, 2002.

AP 9221 ANALYSIS AND DESIGN OF ANALOG INTEGRATED CIRCUITS ME VLSI DESIGN SYLLABUS

AP9221 ANALYSIS AND DESIGN OF ANALOG INTEGRATED CIRCUITS

UNIT I MODELS FOR INTEGRATED CIRCUIT ACTIVE DEVICES

Depletion region of a PN junction – large signal behavior of bipolar transistorssmall signal model of bipolar transistor- large signal behavior of MOSFET- small signal model of the MOS transistors- short channel effects in MOS transistors – weak inversion in MOS transistors- substrate current flow in MOS transistor.

UNIT II CIRCUIT CONFIGURATION FOR LINEAR IC

Current sources, Analysis of difference amplifiers with active load using BJT and FET, supply and temperature independent biasing techniques, voltage references. Output stages: Emitter follower, source follower and Push pull output stages.

UNIT III OPERATIONAL AMPLIFIERS

Analysis of operational amplifiers circuit, slew rate model and high frequency analysis, Frequency response of integrated circuits: Single stage and multistage amplifiers, Operational amplifier noise

UNIT IV ANALOG MULTIPLIER AND PLL

Analysis of four quadrant and variable trans conductance multiplier, voltage controlled oscillator, closed loop analysis of PLL, Monolithic PLL design in integrated circuits: Sources of noise- Noise models of Integrated-circuit Components – Circuit Noise Calculations – Equivalent Input Noise Generators – Noise Bandwidth – Noise Figure and Noise Temperature

UNIT V ANALOG DESIGN WITH MOS TECHNOLOGY

MOS Current Mirrors – Simple, Cascode, Wilson and Widlar current source – CMOS Class AB output stages – Two stage MOS Operational Amplifiers, with Cascode, MOS Telescopic-Cascode Operational Amplifier – MOS Folded Cascode and MOS Active Cascode Operational Amplifiers

REFERENCES:

1. Gray, Meyer, Lewis, Hurst, “Analysis and design of Analog IC’s”, Fourth Edition, Willey International, 2002.
2. Behzad Razavi, “Principles of data conversion system design”, S.Chand and company ltd, 2000
3. Nandita Dasgupata, Amitava Dasgupta,”Semiconductor Devices, Modelling and Technology”, Prentice Hall of India pvt. ltd, 2004.
4. Grebene, Bipolar and MOS Analog Integrated circuit design”, John Wiley & sons,Inc.,2003.
5. Phillip E.Allen Douglas R. Holberg, “CMOS Analog Circuit Design”, Second Edition-Oxford University Press-2003

VL 9217 VLSI DESIGN LAB I ME VLSI DESIGN SYLLABUS

VL9217 VLSI DESIGN LAB I

1. Modeling of Sequential Digital system using VHDL.
2. Modeling of Sequential Digital system using Verilog.
3. Design and Implementation of ALU using FPGA.
4. Simulation of NMOS and CMOS circuits using SPICE.
5. Modeling of MOSFET using C.
6. Implementation of FFT, Digital Filters in DSP Processor.
7. Implementation of DSP algorithms using software package.
8. Implementation of MAC Unit using FPGA.