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Unit information: Advanced DSP & FPGA Implementation in 2018/19

Please note: It is possible that the information shown for future academic years may change due to developments in the relevant academic field. Optional unit availability varies depending on both staffing and student choice.

Unit name Advanced DSP & FPGA Implementation
Unit code EENGM4120
Credit points 10
Level of study M/7
Teaching block(s) Teaching Block 2 (weeks 13 - 24)
Unit director Dr. Nunez-Yanez
Open unit status Not open
Pre-requisites

EENG20400 Digital Systems and knowledge of C programming

Co-requisites

None

School/department Department of Electrical & Electronic Engineering
Faculty Faculty of Engineering

Description

The unit covers the topics of FPGA and DSP design as follows:

FPGA: This module extends the knowledge in digital systems with advanced topics in the emergent area of reconfigurable computing and FPGA design. The course will cover state-of-the-art features available in modern FPGAs exploring their fine-grained internal architecture and embedded macro blocks such as DSP slices and hardwired processors. A design language based on C++ will be presented as an alternative to traditional RTL design (VHDL, Verilog). High level synthesis tools will be used to map compute intensive kernels in signal processing applications from a generic DSP core to the FPGA device and the performance advantages will be evaluated.

DSP: This module extends knowledge of signal processing techniques and gives students practical experience of using the state-of-the-art DSPs. The course covers generic techniques for developing design solutions for all DSP devices as well as focussing specifically on the TMS320C6000 DSP processor which is the flagship of Texas Instruments DSPs and also the Davinci DSP processor which is a system on chip with a C6000 DSP and an Arm Processor. It also covers the use of operating systems. This module provides practical experience.

Intended learning outcomes

  1. Develop optimal DSP programs (Exam/Report).
  2. Implement real-time DSP algorithms for communications applications (Exam/Report).
  3. Analyse DSP device architectures and the interfacing with DSP microprocessors (Exam/Report).
  4. Describe general purpose processors and be able to compare them with Digital Signal processors (Exam/Report.
  5. List the features of modern FPGA architectures and their configuration process (Exam/Quiz).
  6. Implement hardware designs in FPGA devices (Exam/Quiz).
  7. Learn to develop C-based programs for hardware design (Exam/Assignment)
  8. Compare FPGA and DSP features and their suitability for different algorithms (Exam/Assignment).

Teaching details

Lectures and laboratory classes

Assessment Details

Quiz 20% (ILOs 5, 6)

Assignment 30% (ILOs 7, 8)

Report 50% (ILOs 1, 2, 3, 4)

Reading and References

FPGA

  • Reference material available in Blackboard

DSP

  • Chassaing, R., DSP Applications using C and the TMS320C6x DSK, J. Wiley, ISBN:0-471-20754-3
  • Dahnoun, N., Digital Signal Processing Implementation using the TMS320C6000 Platform, Prentice Hall Pearson Education Ltd, ISBN:0/201/61916/4
  • Dahnoun, N., DSP Implementation using the TMDS320C6711, at http://www.ti.com/

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