VE4203 VLSI Structures for DSP Syllabus:
VE4203 VLSI Structures for DSP Syllabus – Anna University PG Syllabus Regulation 2021
COURSE OBJECTIVES:
To Understand the Fundamentals of DSP
To Learn Various DSP Structures And Their Implementation.
To Know Designing Constraints of Various Filters
Design And Optimize VLSI Architectures for Basic DSP Algorithms
To Enable Students To Design VLSI System With High Speed And Low Power.
UNIT I INTRODUCTION TO DIGITAL SIGNAL PROCESSING
Linear System Theory- Convolution- Correlation – DFT- FFT- Basic Concepts In FIR Filters And IIR Filters- Filter Realizations. Representation of DSP Algorithms-Block Diagram-SFG-DFG.
UNIT II ITERATION BOUND, PIPELINING AND PARALLEL PROCESSING OF FIR FILTER
Data-Flow Graph Representations- Loop Bound and Iteration Bound Algorithms for Computing Iteration Bound-LPM Algorithm. Pipelining and Parallel Processing: Pipelining of FIR Digital Filters Parallel Processing – Pipelining and Parallel Processing for Low Power.
UNIT III RETIMING, UNFOLDING AND FOLDING
Retiming: Definitions Properties and Problems- Solving Systems of Inequalities. Properties of Unfolding, Critical Path, Unfolding and Retiming Applications of Unfolding, Folding Transformation- Register Minimization Techniques, Register Minimization In Folded Architecture Folding of Multirate System.
UNIT IV FAST CONVOLUTION
Cook-Toom Algorithm- Modified Cook-Toom Algorithm. Design of Fast Convolution Algorithm By Inspection
UNIT V ARITHMETIC STRENGTH REDUCTION IN FILTERS
Parallel FIR Filters-Fast FIR Algorithms-Two Parallel And Three Parallel. Parallel Architectures for Rank Order Filters -Odd Even Merge Sort Architecture-Rank Order Filter Architecture-Parallel Rank Order Filters-Running Order, Merge Order , Sorter , Low Power Rank Order Filter.
TOTAL:45 PERIODS
COURSE OUTCOMES:
At the end of the course student will be able
CO1: acquired knowledge about fundamentals of DSP processors.
CO2: improve the overall performance of DSP system through various transformation and optimization techniques.
CO3: foster ability to understand the need of different types of instructions for DSP.
CO4: optimize design in terms of computation complexity and speed.
CO5: understand clock based issues and design asynchronous and wave pipelined systems.
REFERENCES
1. K.K Parhi: “VLSI Digital Signal Processing”, John-Wiley, 2nd Edition Reprint, 2008.
2. John G.Proakis, Dimitris G.Manolakis, “Digital Signal Processing”, Prentice Hall of India, 1st Edition, 2009.