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FPGA Programming for Beginners

You're reading from   FPGA Programming for Beginners Bring your ideas to life by creating hardware designs and electronic circuits with SystemVerilog

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Product type Paperback
Published in Mar 2021
Publisher Packt
ISBN-13 9781789805413
Length 368 pages
Edition 1st Edition
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Author (1):
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Frank Bruno Frank Bruno
Author Profile Icon Frank Bruno
Frank Bruno
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Table of Contents (16) Chapters Close

Preface 1. Section 1: Introduction to FPGAs and Xilinx Architectures
2. Chapter 1: Introduction to FPGA Architectures and Xilinx Vivado FREE CHAPTER 3. Section 2: Introduction to Verilog RTL Design, Simulation, and Implementation
4. Chapter 2: Combinational Logic 5. Chapter 3: Counting Button Presses 6. Chapter 4: Let's Build a Calculator 7. Chapter 5: FPGA Resources and How to Use Them 8. Chapter 6: Math, Parallelism, and Pipelined Design 9. Section 3: Interfacing with External Components
10. Chapter 7: Introduction to AXI 11. Chapter 8: Lots of Data? MIG and DDR2 12. Chapter 9: A Better Way to Display – VGA 13. Chapter 10: Bringing It All Together 14. Chapter 11: Advanced Topics 15. Other Books You May Enjoy

Questions

  1. When might you use an FPGA?

    a) You are prototyping an application that may eventually be an ASIC.

    b) You will only have very small volumes.

    c) You need something that you can easily change the algorithms on in the future.

    d) All of the above.

  2. When would you use an ASIC?

    a) You are developing a very specialized application, with just a small number to be built and the budget is tight.

    b) You've been asked to design a calculator that will be mass produced and that requires a custom processor.

    c) You need something extremely low power and cost is not a consideration.

    d) You are developing an imaging satellite and want the ability to update the algorithms over the lifetime of the satellite.

    e) a and b.

  3. We have seen a full adder in the chapter. A half adder is a circuit that can add two inputs, in other words, no carry in. Can you write the truth table for the sum and carry for a half adder?
  4. Modify the code and testbench to test the following gates: NAND (not AND), NOR (not OR), and XNOR (not XOR). Hint: You can invert a unary operator by adding a ~ operator in front of it, in other words, NAND is ~&. Try it on the board.

Challenge

  1. Open CH1/build/challenge.prj.
  2. Modify the lines in challenge.sv to implement a full adder:
      assign LED[0]  = ; // Write the code for the Sum
      assign LED[1]  = ; // Write the code for the Carry 
  3. Modify tb_challenge.sv to test it:
        if () begin // Modify for checking

Hint: You may want to jump ahead in the book to look at addition or do a quick web search.

You have been reading a chapter from
FPGA Programming for Beginners
Published in: Mar 2021
Publisher: Packt
ISBN-13: 9781789805413
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