30th May 2015 09:26 AM | |
Quick Sam | Re: Anna University of Technology Syllabus As you need the M.E. Applied Electronics 1st Semester syllabus of Anna University of Technology so here it is as follows SEMESTER I Applied Mathematics for Electronics Engineers Advanced Digital Signal Processing Advanced Digital System Design VLSI Design Techniques Advanced Microprocessors and Micro Controllers Elective I Electronics Design Lab I LIST OF ELECTIVES Digital Image Processing Neural Networks and Its Applications ROBOTICS DSP Integrated Circuits ASIC Design Design and Analysis of Algorithms Reliability Engineering Electromagnetic Interference and Compatibility in System Design High Performance Computer Networks RF system Design Low Power VLSI Design VLSI Signal Processing Analog VLSI Design CAD for VLSI Circuits Hardware Software Co-design Special Elective Anna University M.E. Applied Electronics 1st Semester syllabus UNIT I FUZZY LOGIC 12 Classical logic – Multivalued logics – Fuzzy propositions – Fuzzy quantifiers. UNIT II MATRIX THEORY 12 Some important matrix factorizations – The Cholesky decomposition – QR factorization – Least squares method – Singular value decomposition - Toeplitz matrices and some applications. UNIT III ONE DIMENSIONAL RANDOM VARIABLES 12 Random variables - Probability function – moments – moment generating functions and their properties – Binomial, Poisson, Geometric, Uniform, Exponential, Gamma and Normal distributions – Function of a Random Variable. UNIT IV DYNAMIC PROGRAMMING 12 Dynamic programming – Principle of optimality – Forward and backward recursion – Applications of dynamic programming – Problem of dimensionality. UNIT V QUEUEING MODELS 12 Poisson Process – Markovian queues – Single and Multi-server Models – Little’s formula - Machine Interference Model – Steady State analysis – Self Service queue. L = 45: T=15; TOTAL: 60 PERIODS REFERENCES: 1. George J. Klir and Yuan, B., Fuzzy sets and fuzzy logic, Theory and applications, Prentice Hall of India Pvt. Ltd., 1997. 2. Moon, T.K., Sterling, W.C., Mathematical methods and algorithms for signal processing, Pearson Education, 2000. 3. Richard Johnson, Miller & Freund’s Probability and Statistics for Engineers, 7th Edition, Prentice – Hall of India, Private Ltd., New Delhi (2007). 4. Taha, H.A., Operations Research, An introduction, 7th edition, Pearson education editions, Asia, New Delhi, 2002. 5. Donald Gross and Carl M. Harris, Fundamentals of Queuing theory, 2nd edition, John Wiley and Sons, New York (1985). AP9211 ADVANCED DIGITAL SIGNAL PROCESSING L T P C 3 0 0 3 UNIT I DISCRETE RANDOM SIGNAL PROCESSING 9 Discrete Random Processes- Ensemble Averages, Stationary processes, Bias and Estimation, Autocovariance, Autocorrelation, Parseval’s theorem, Wiener-Khintchine relation, White noise, Power Spectral Density, Spectral factorization, Filtering Random Processes, Special types of Random Processes – ARMA, AR, MA – Yule-Walker equations. UNIT II SPECTRAL ESTIMATION 9 Estimation of spectra from finite duration signals, Nonparametric methods - Periodogram, Modified periodogram, Bartlett, Welch and Blackman-Tukey methods, Parametric methods – ARMA, AR and MA model based spectral estimation, Solution using Levinson-Durbin algorithm UNIT III LINEAR ESTIMATION AND PREDICTION 9 Linear prediction – Forward and Backward prediction, Solution of Prony’s normal equations, Least mean-squared error criterion, Wiener filter for filtering and prediction, FIR and IIR Wiener filters, Discrete Kalman filter UNIT IV ADAPTIVE FILTERS 9 FIR adaptive filters – adaptive filter based on steepest descent method- Widrow-Hopf LMS algorithm, Normalized LMS algorithm, Adaptive channel equalization, Adaptive echo cancellation, Adaptive noise cancellation, RLS adaptive algorithm. UNIT V MULTIRATE DIGITAL SIGNAL PROCESSING 9 Mathematical description of change of sampling rate – Interpolation and Decimation, Decimation by an integer factor, Interpolation by an integer factor, Sampling rate conversion by a rational factor, Polyphase filter structures, Multistage implementation of multirate system, Application to subband coding – Wavelet transform TOTAL: 45 PERIODS REFERENCES: 1. Monson H. Hayes, ‘Statistical Digital Signal Processing and Modeling”, John Wiley and Sons, Inc, Singapore, 2002 2. John J. Proakis, Dimitris G. Manolakis, : Digital Signal Processing’, Pearson Education, 2002 3. Rafael C. Gonzalez, Richard E. Woods, “ Digital Image Processing”, Pearson Education Inc.,Second Edition, 2004 (For Wavelet Transform Topic) AP9212 ADVANCED DIGITAL SYSTEM DESIGN L T P C 3 0 0 3 UNIT I SEQUENTIAL CIRCUIT DESIGN 9 Analysis of clocked synchronous sequential circuits and modeling- State diagram, state table, state table assignment and reduction-Design of synchronous sequential circuitsdesign of iterative circuits-ASM chart and realization using ASM UNIT II ASYNCHRONOUS SEQUENTIAL CIRCUIT DESIGN 9 Analysis of asynchronous sequential circuit – flow table reduction-races-state assignment-transition table and problems in transition table- design of asynchronous sequential circuit-Static, dynamic and essential hazards – data synchronizers – mixed operating mode asynchronous circuits – designing vending machine controller UNIT III FAULT DIAGNOSIS AND TESTABILITY ALGORITHMS 9 Fault table method-path sensitization method – Boolean difference method-D algorithm -Tolerance techniques – The compact algorithm – Fault in PLA – Test generation-DFT schemes – Built in self test UNIT IV SYNCHRONOUS DESIGN USING PROGRAMMABLE DEVICES 9 Programming logic device families – Designing a synchronous sequential circuit using PLA/PAL – Realization of finite state machine using PLD – FPGA – Xilinx FPGA-Xilinx 4000 UNIT V SYSTEM DESIGN USING VHDL 9 VHDL operators – Arrays – concurrent and sequential statements – packages- Data flow – Behavioral – structural modeling – compilation and simulation of VHDL code –Test bench - Realization of combinational and sequential circuits using HDL – Registers – counters – sequential machine – serial adder – Multiplier- Divider – Design of simple microprocessor TOTAL : 45 PERIODS REFERENCES: 1. Charles H.Roth Jr “Fundamentals of Logic Design” Thomson Learning 2004 2. Nripendra N Biswas “Logic Design Theory” Prentice Hall of India,2001 3. Parag K.Lala “Fault Tolerant and Fault Testable Hardware Design” B S Publications,2002 4. Parag K.Lala “Digital system Design using PLD” B S Publications,2003 5. Charles H Roth Jr.”Digital System Design using VHDL” Thomson learning, 2004 6. Douglas L.Perry “VHDL programming by Example” Tata McGraw.Hill - 2006 VL9212 VLSI DESIGN TECHNIQUES L T P C 3 0 0 3 UNIT I MOS TRANSISTOR THEORY AND PROCESS TECHNOLOGY 9 NMOS and PMOS transistors, Threshold voltage- Body effect- Design equations- Second order effects. MOS models and small signal AC characteristics. Basic CMOS technology. UNIT II INVERTERS AND LOGIC GATES 9 NMOS and CMOS Inverters, Stick diagram, Inverter ratio, DC and transient characteristics , switching times, Super buffers, Driving large capacitance loads, CMOS logic structures , Transmission gates, Static CMOS design, dynamic CMOS design. UNIT III CIRCUIT CHARACTERIZATION AND PERFORMANCE ESTIMATION 9 Resistance estimation, Capacitance estimation, Inductance, switching characteristics, transistor sizing, power dissipation and design margining. Charge sharing .Scaling. UNIT IV VLSI SYSTEM COMPONENTS CIRCUITS AND SYSTEM LEVEL PHYSICAL DESIGN 9 Multiplexers, Decoders, comparators, priority encoders, Shift registers. Arithmetic circuits – Ripple carry adders, Carry look ahead adders, High-speed adders, Multipliers. Physical design – Delay modelling ,cross talk, floor planning, power distribution. Clock distribution. Basics of CMOS testing. UNIT V VERILOG HARDWARE DESCRIPTION LANGUAGE 9 Overview of digital design with Verilog HDL, hierarchical modeling concepts, modules and port definitions, gate level modeling, data flow modeling, behavioral modeling, task & functions, Test Bench. TOTAL : 45 PERIODS REFERENCES: 1. Neil H.E. Weste and Kamran Eshraghian, Principles of CMOS VLSI Design, Pearson Education ASIA, 2nd edition, 2000. 2. John P.Uyemura “Introduction to VLSI Circuits and Systems”, John Wiley & Sons, Inc., 2002. 3. Samir Palnitkar, “Verilog HDL”, Pearson Education, 2nd Edition, 2004. 4. Eugene D.Fabricius, “Introduction to VLSI Design”, McGraw Hill International Editions, 1990. 5. J.Bhasker, B.S.Publications, “A Verilog HDL Primer”, 2nd Edition, 2001. 6. Pucknell, “Basic VLSI Design”, Prentice Hall of India Publication, 1995. 7. Wayne Wolf “Modern VLSI Design System on chip. Pearson Education.2002. AP9213 ADVANCED MICROPROCESSORS AND MICROCONTROLLERS L T P C 3 0 0 3 UNIT I MICROPROCESSOR ARCHITECTURE 9 Instruction Set – Data formats –Addressing modes – Memory hierarchy –register file – Cache – Virtual memory and paging – Segmentation- pipelining –the instruction pipeline – pipeline hazards – instruction level parallelism – reduced instruction set –Computer principles – RISC versus CISC. UNIT II HIGH PERFORMANCE CISC ARCHITECTURE – PENTIUM 9 CPU Architecture- Bus Operations – Pipelining – Brach predication – floating point unit- Operating Modes –Paging – Multitasking – Exception and Interrupts – Instruction set – addressing modes – Programming the Pentium processor. UNIT III HIGH PERFORMANCE RISC ARCHITECTURE – ARM 9 Organization of CPU – Bus architecture –Memory management unit - ARM instruction set- Thumb Instruction set- addressing modes – Programming the ARM processor. UNIT IV MOTOROLA 68HC11 MICROCONTROLLERS 9 Instruction set addressing modes – operating modes- Interrupsystem- RTC-Serial Communication Interface – A/D Converter PWM and UART. UNIT V PIC MICROCONTROLLER 9 CPU Architecture – Instruction set – interrupts- Timers- I2C Interfacing –UART- A/D Converter –PWM and introduction to C-Compilers. TOTAL : 45 PERIODS REFERENCES : 1. Daniel Tabak , ‘’ Advanced Microprocessors” McGraw Hill.Inc., 1995 2. James L. Antonakos , “ The Pentium Microprocessor ‘’ Pearson Education , 1997. 3. Steve Furber , ‘’ ARM System –On –Chip architecture “Addision Wesley , 2000. 4. Gene .H.Miller .” Micro Computer Engineering ,” Pearson Education , 2003. 5. John .B.Peatman , “ Design with PIC Microcontroller , Prentice hall, 1997. 6. James L.Antonakos ,” An Introduction to the Intel family of Microprocessors ‘’ Pearson Education 1999. 7. Barry.B.Breg,” The Intel Microprocessors Architecture , Programming and Interfacing “ , PHI,2002. 8. Valvano "Embedded Microcomputer Systems" Thomson Asia PVT LTD first reprint 2001. Contact Details: Anna University MIT Road,Chromepet,Chennai,Tamil Nadu 600044, Anna University, Kotturpuram, Chennai, Tamil Nadu 600025 044 6450 2506 Map location: [MAP]https://maps.google.co.in/maps?q=Anna+University+&hl=en&ll=13.014886,80.2413 51&spn=0.007861,0.0109&sll=39.951267,-75.197897&sspn=0.01237,0.021801&t=m&z=16&iwloc=A[/MAP] For complete syllabus here is the PDF file attached; |
30th May 2015 09:24 AM | |
Unregistered | Re: Anna University of Technology Syllabus Can you please provide me the M.E. Applied Electronics 1st Semester syllabus of Anna University of Technology, as it is very urgent for me? |
18th March 2013 01:53 PM | |
Shaleen | Re: Anna University of Technology Syllabus Anna University was established on 4th September 1978 as a unitary type of University. It offers higher education in Engineering, Technology and allied Sciences programs. Anna University of Technology B.E. – Marine Engineering syllabus is given here:- Sl. No. Course Code Course Title Theory 1. HS2111 Technical English - I 2. MA2111 Mathematics - I 3. PH2111 Engineering Physics - I 4. CY2111 Engineering Chemistry - I 5. GE2111 Engineering Graphics 6. GE2112 Fundamentals of Computing and Programming Practical 7. GE2115 Computer Practice Laboratory -I 8. GE2116 Engineering Practices Laboratory 9. * Physics & Chemistry Laboratory I UNIT I 12 General Vocabulary - changing words from one form to another - Adjectives, comparative adjectives – Adverbs - Active and passive voice – Tenses - simple present, present continuous - Adverb forms – Nouns – compound nouns - Skimming and scanning - Listening and transfer of information – bar chart, flowchart - Paragraph writing, description – Discussing as a group and making an oral report on the points discussed, conversation techniques - convincing others. Suggested activities: 1. Matching words & meanings - Using words in context – Making sentences. 2. Changing sentences from active to passive voice & vice versa. 3. Skimming, cloze exercises, exercises transferring information from text to graphic form – bar charts, flow charts. 4. Writing descriptions using descriptive words & phrases, and technical vocabulary. 5. Role play, conversation exercises, discussions, oral reporting exercises Any other related relevant classroom activity You can get complete detail from the given attachment. |
15th March 2013 05:30 PM | |
p.dhavalla | Anna University of Technology Syllabus I need B.E. – Marine Engineering Syllabus in Anna University of Technology so please provide me it. |