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UNIVERSITY SCIENCE INSTRUMENTATION CENTRE (USIC)JVD COLLEGE OF
SCIENCE AND TECHNOLOGY, ANDHRA UNIVERSITY
M.Sc. (Tech.) DSP &ESD, V Semester
DS 501 FPGA Design( common for M.Sc.(Tech.) VLSI Design and
M.Sc.(Tech.) DSP & ESD)
1. Introduction to PLDs:
ROMs, Logic array (PLA), Programmable array logic, GAL, bipolar
PLA, NMOS PLA, PAL 14L 4,
examples2. Programmable gate arrays
Xilinx logic cell array (LCA) I/O Block Programmable
interconnect Xilinx 3000 series and 4000series FPGAs. Altera CPLDs,
altera FLEX 10 K series PLDs.
3. Placement and routing :Mincut based placement iterative
improvement placement Routing: Segmented channel routing Maze
routing Routability and routing resources Net delays4.
Verification and testing:
Verification Timing verification Testing concepts Fault coverage
ATPG Types of tests Testing
FPGAs Design for testability.5 Recent developments :
New architectures Field programmable interconnect Configuring
logic arrays and prototyping boards
CAD support.
Text books1. P.K. Chan & S. Mourad, Digital Design sing
Field Programmable Gate Array Prentice Hall, 1994.
2. J. V. Old Field & R.C. Dorf, Field Programmable Gate
Array, John Wiley, 1995.
References1.M. Bolton, Digital System Design with Programmable
Logic, Addison Wesley, 1990.
2.Thomas E. Dillinger, VLSI Engineering, Prentice Hall.
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DS 502 Wireless and CDMA Technology
1. Transmission Fundamentals
Analog and Digital Data Transmission fundamentals, Channel
Capacity. Transmission Media.Multiplexing. LANs, MANs, and WANs.
Switching Techniques. Circuit-Switching. PacketSwitching.
Asynchronous Transfer Mode- ATM
2. Spread Spectrum TechniquesThe Concept of Spread Spectrum.
Frequency Hopping Spread Spectrum. Direct Sequence Spread
Spectrum. Code-Division Multiple Access. Generation of Spreading
Sequences.
3. Cellular Wireless Networks
Cellular Network Concept, First Generation (1G) Analog, Second
Generation (2G) Digital TDMA.
GSM and mobility management in GSM, Third Generation Systems
(3G) CDMA and 4 GTechnology overview.
4. Protocols Architecture: The TCP/IP Protocol Architecture and
Mobile IP.
5. IEEE 802.11 Wireless LAN Standard.IEEE 802 Protocol
Architecture. IEEE 802.11 Architecture and Services. IEEE 802.11
Medium
Access Control. IEEE 802.11x Standards.6. Blue tooth
Technology
Radio Specifications. Base band Specification. Link Manager
Specification. Logical Link Control and
Adaptation Protocol.7. Wireless Application Protocol (WAP)
The Wireless Application Protocol application environment,
wireless application protocol client
software, wireless application protocol gateways, implementing
enterprise wireless application
protocol strategy and Security Issues in Wireless LAN. Wireless
network management, GPRS, and
VOIP services.8. CDMA Technology
Principles of Wideband CDMA (WCDMA), CDMAOne and CDMA2000,
Universal MobileTelecommunications System (UMTS), Evolution of
Mobile Communication Networks, Call Controls
and Mobility Management in CDMA.Quality of Service (QoS) in 3G
Systems, CDMA networkplanning, design and applications.
Text/ReferenceBooks :1.William Stalling, Wireless Communications
and Networks. Prentice Hall 20022.Yi-Bing Lin, Imrich Chlamtac,
Wireless and Mobile Network Architecture, John Wiley-2001.
3.M. R. Karim, Mohsen Sarraf, W-CDMA and cdma2000 for 3G Mobile
Networks, McGraw-Hill
Professional.
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DS503 Advanced Embedded System Design
1. Embedded Systems:
Models of design representation, the virtual machine hierarchy,
the performance modeling, HardwareSoftware development, the concept
of embedded systems design, embedded microcontroller cores,embedded
memories, Examples of embedded systems. Motivation hardware &
software co-design,
system design consideration, research scope & overviews.2.
Technological aspects of embedded systems:
Interfacing between analog and digital blocks, signal
conditioning, Digital signal processing, Sub-
system interfacing, interfacing with external systems, user
interfacing. Design trade offs due to
process compatibility, thermal considerations, etc.
3. Hardware Software background: Hardware Software co-design
research:An informal view of co-design, Hardware Software
tradeoffs, crosses fertilization, typical co-design
process, co-design environments, limitation of existing
approaches, ADEPT modeling environment.
4. Co-design concepts:Functions, functional decomposition,
virtual machines, Hardware Software partitioning, Hardware
Software partitions, Hardware Software alterations, Hardware
Software trade offs, co-design.5. Methodology for Co-design:
Amount of unification, general consideration & basic
philosophies, a framework for co-design.
Benefits of unified representation of Hardware & Software,
Modeling concepts. Requirement &applications of the models,
models of Hardware Software system, an abstract Hardware
Software
model, generality of the model. Performance evaluation of the
abstract Hardware & Software model,
examples of performance evaluation
6. Object-oriented Techniques in Hardware Design:
Motivation for object-oriented technique, data types, modeling
hardware components as classes,designing specialized components,
data decomposition, Processor example.
Text Books:Sanjaya Kumar, James H. Ayler The Co-design of
Embedded Systems: A Unified Hardware
Software Representation, Kluwer Academic Publisher, 2002Gomaa,
Software Design Methods for Concurrent and Real-time Systems,
Addison-Wesley, 1993.
H. Kopetz, Real-time Systems, Kluwer, 1997.R. Gupta,
Co-synthesis of Hardware and Software for Embedded Systems, Kluwer
1995.References:
S. Allworth, Introduction to Real-time Software Design,
Springer-Verlag, 1984.
C. M. Krishna, K. Shin, Real-time Systems, Mc-Graw Hill,
1997.
Peter Marwedel, G. Goosens, Code Generation for Embedded
Processors, Kluwer Academic
Publishers, 1995.J.W. Valvano, "Embedded Microcomputer System:
Real Time Interfacing", Brooks/Cole, 2000.
Jack Ganssle, "The Art of Designing Embedded Systems", Newnes,
1999.Additional reading from selected journal papers.
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DS 504 Mobile & Cellular Radio Communication
1. Introduction to Mobile and Cellular Communication Systems
Main Definitions, impact of Mobile and Cellular Radio
Communication Historical overview.
2. Fundamental of Radio Mobile and Cellular Practices
Radio mobile links and cells, Frequency re-use, Principles of
Cellular Com. Mobile Telephone Switching
Subsystem, The mobile frequency spectrum, Hand-off, Cochannel
and adjacent channel interference limitations,Near-far problem,
Power Control
3. The mobile Communication Channel including antennas
The mobile wireless propagation channel, Notions on antennas
especially the near and far field concept, Line of
Sight (LOS) propagation, Multipath fading and shadowing and over
the horizon propagation, outdoor and
Indoor Propagation, Flat and selective fading, Special antennas
for base stations and headsets, Deterministic,
Empirical and Statistical Methods for propagation link
computations.
4. Overview of Mobile and Cellular Radio Communication
Modulation and Detection Techniques
Analog modulations and detection: AM, FM, PM, ACSB, Hybrid and
Digital modulation: PCM, ASK, FSK,
QPSK, QAM, MSK, etc, Coherent and noncoherent detection, C/N,
S/N, Eb/No and BER relations, Probability
concepts, Mobile Radio links parameters
5. Overview of Multiple Accesses Techniques
Simplex, Duplex TDD and Time Division Duplex, Time division
multiple access (TDMA) FDMA and OFDM,
Code Division multiple access (CDMA), Hybrid multiple access,
Management of voice, Data and Video
(Multimedia) information.6. Modern Digital Radio Systems:
standards, proposals and comparisons
GSM (Europe and all over the world) - TDMA, IS-54 (U.S.A.)-
TDMA, IS-95 (U.S.A., Korea) CDMA-, PHS
(Japan) - TDMA, Frequency Hopping (FH) (U.S.A.) - CDMA, Short
Range Distance Nanocells and Picocells
Systems, PCS, PCS Cordless telephone 2nd generation (CT-2),
Cellular digital packet data (CDPD), and
Wireless LAN, New standard trends Edge, 3rd and 4th generation
beginning.
7. Mitigation Techniques for Mobile System
Overview of Natural and man made external noise sources,
Desensitization effects from cosited or b power
sources, Forward intermodulation effects in mobile receivers and
transmitters, Back intermodulation between
transmitters and passive effects, Single tone spurious effects,
Self Interference from Fading, Overview of
Baseband and coding methods, Measurement techniques for noise
and interference, Main techniques for
interference mitigation. Radiation hazards effects from base
stations, Mobile and portable equipments.
8. Diversity Techniques for Mobile Radio Systems
Dispersive channels, Space diversity, Frequency diversity,
Polarization diversity, Hybrid and quadruple
diversity, Equalizer techniques.
9. Trends in Mobile and Cellular Communications Multimedia3rd
and 4th Generation. Global Mobile systems using GEO and LEO. SQSP
Platforms and Terrestriel links.
Novel Localization Techniques.
References
1. Steele, R., Hanzo, L., Mobile Radio Communication 2nd Edition
Wiley 1999.2. Hess G.C., Land Mobile Radio System Engineering,
Artech 1997.3. Rappaport, T.S., Wireless Communications, J. Wiley
2nd edition, 1998.4. Gavan, J., Perez, R., Editor., Electromagnetic
Compatibility Handbook. Academic Press, 1995.
Chapters 1, 19, 20.
5. Jakes WC., Microwave Mobile Communications, J. Wiley 2nd
edition 1998.6. Vaughan, R., Bach - Anderson, J., Propagation and
Antennas for Mobile Communication IEE
Publishers 2002.
7. Perez R., Wireless Communications Design Handbook Volume 2:
Terrestrial and MobileInterference Academic Press8. Gardiner, J.
West, B. Editor Personal Communication Systems and Technologies
Artech 1995.
Chapters (1, 3, (7-10), 12
9. Gibson, E., The Mobile Communications Handbook CRC Press
2ndEdition 1999.10. Current Papers from IEEE and IEE Transactions,
Magazines, Telecommunication journals and Special
Web addresses.
DS 505 Project
