EC8011 - DSP PROCESSOR ARCHITECTURE AND PROGRAMMING (Syllabus) 2017-regulation Anna University

EC8011 - DSP PROCESSOR ARCHITECTURE AND PROGRAMMING (Syllabus) 2017-regulation Anna University

EC8011	DSP PROCESSOR ARCHITECTURE AND PROGRAMMING	LPTC

3003

OBJECTIVES:

• Basics on Digital Signal Processors
• Programmable DSP‘s Architecture, On-chip Peripherals and Instruction set
• Programming for signal processing applications
• Advanced Programmable DSP Processors

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UNIT I	FUNDAMENTALS OF PROGRAMMABLE DSPs	9

Introduction to Programmable DSPs, Architectural Features of PDSPs - Multiplier and Multiplier accumulator – Modified Bus Structures and Memory access – Multiple access memory – Multi-port memory – VLIW architecture- Pipelining – Special Addressing modes in P-DSPs – On chip Peripherals, Applications of Programmable DSPs.

UNIT II	TMS320C5X PROCESSOR	9

Architecture of C5X Processor – Addressing modes – Assembly language Instructions - Pipeline structure, On-chip Peripherals – Block Diagram of DSP starter kit (DSK) – Software Tools, DSK on-board peripherals, Application Programs for processing real time signals.

UNIT III	TMS320C6X PROCESSOR	9

Architecture of the C6x Processor - Instruction Set – Addressing modes, Assembler directives, On- chip peripherals, DSP Development System: DSP Starter Kit - Code Composer Studio - Support Files – Introduction to AIC23 codec and other on-board peripherals, Real-Time Programming Examples for Signals and Noise generation, Frequency analysis, Filter design.

UNIT IV	ADSP PROCESSORS	9

Architecture of ADSP-21XX and ADSP-210XX series of DSP processors- Addressing modes and assembly language instructions – Application programs –Filter design, FFT calculation.

UNIT V	ADVANCED PROCESSORS	9

Study of TI‘s advanced processors - TMS320C674x and TMS320C55x DSPs, ADSP‘s Blackfin and SigmaDSP Processors, NXP‘s DSP56Fxx Family of DSP Processors, Comparison of the features of TI, ADSP and NXP DSP family processors.

TOTAL : 45 PERIODS

OUTCOMES:At the end of the course, the student should be able to:

• Analyze the concepts of Digital Signal Processors
• Demonstrate their ability to program the DSP processor for signal processing applications
• Discuss, compare and select the suitable Advanced DSP Processors for real-time signal processing applications

REFERENCES

1. B. Venkataramani and M. Bhaskar, ―Digital Signal Processors – Architecture, Programming and Applications‖ – Tata McGraw – Hill Publishing Company Limited. New Delhi, 2003.
2. Avtar Singh and S. Srinivasan, Digital Signal Processing – Implementations using DSP Microprocessors with Examples from TMS320C54xx, Cengage Learning India Private Limited, Delhi 2012.
3. Rulph Chassaing and Donald Reay, Digital Signal Processing and Applications with the C6713 and C6416 DSK, John Wiley & Sons, Inc., Publication, 2012 (Reprint).
4. User guides Texas Instruments, Analog Devices and NXP.