Book Image

FPGA Programming for Beginners

By : Frank Bruno
5 (1)
Book Image

FPGA Programming for Beginners

5 (1)
By: Frank Bruno

Overview of this book

Field Programmable Gate Arrays (FPGAs) have now become a core part of most modern electronic and computer systems. However, to implement your ideas in the real world, you need to get your head around the FPGA architecture, its toolset, and critical design considerations. FPGA Programming for Beginners will help you bring your ideas to life by guiding you through the entire process of programming FPGAs and designing hardware circuits using SystemVerilog. The book will introduce you to the FPGA and Xilinx architectures and show you how to work on your first project, which includes toggling an LED. You’ll then cover SystemVerilog RTL designs and their implementations. Next, you’ll get to grips with using the combinational Boolean logic design and work on several projects, such as creating a calculator and updating it using FPGA resources. Later, the book will take you through the advanced concepts of AXI and show you how to create a keyboard using PS/2. Finally, you’ll be able to consolidate all the projects in the book to create a unified output using a Video Graphics Array (VGA) controller that you’ll design. By the end of this SystemVerilog FPGA book, you’ll have learned how to work with FPGA systems and be able to design hardware circuits and boards using SystemVerilog programming.
Table of Contents (16 chapters)
1
Section 1: Introduction to FPGAs and Xilinx Architectures
3
Section 2: Introduction to Verilog RTL Design, Simulation, and Implementation
9
Section 3: Interfacing with External Components

Creating SystemVerilog modules

At the heart of every design are the modules that compose it. From the testbench that's used to verify the design to any instantiated components, they are all declared somewhere as a module. For the example design we'll be covering in this chapter, we'll be creating a set of modules representing the functions that we can access via the buttons and switches on the evaluation board. We'll use these switches to set values, and we'll use five buttons to perform operations.

Let's take a look at the components of a module declaration:

module project_2
#(parameter SELECTOR,
  Parameter BITS = 16)
(input wire [BITS-1:0]          SW,
 input wire                     BTNC,
 input wire              ...