A quickstart guide on how to use Icarus Verilog. Contribute to albertxie/iverilog- tutorial development by creating an account on GitHub. This guide isn’t supposed to include every little detail of either Icarus Verilog or GTKWave, but the Icarus Verilog is a free Verilog simulation and synthesis tool. Installation and startup instructions for Icarus Verilog for E Now open up any Verilog file (i.e. from the tutorial 1 code) and verify that it is highlighted for.

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Before getting started with actual examples, here are a few notes on conventions. First, command lines and sequences take the same arguments on all supported operating environments, including Linux, Windows and the various Unix systems.

Under Windows, the commands are invoked in a command window. Second, when creating a file to hold Verilog code, it is common to use the “. This is not a requirement imposed by Icarus Verilog, but a useful convention. Some people also use the suffixes “. Examples in this book will use the “. So let us start. Given that you are going to use Icarus Verilog as part of your design process, the first thing to do as a designer is learn how to compile and execute even the most trivial design.

For the purposes of simulation, we use as our example the most trivial simulation, a simple Hello, World program. Use a text editor to place the program in a text file, hello.

User Guide

The results of this compile are placed into the file “hello”, because the “-o” flag tells the compiler where to place the iverilgo result. Next, execute the compiled program like so:.

And there it is, the program has been executed. The first step, the “iverilog” command, read and interpreted the source file, then generated a compiled result.

The compiled form may be selected by command line switches, but the default is the “vvp” format, which is actually run later, as needed. The “vvp” command of the second step interpreted the “hello” file from the first step, causing the program to execute.


E15 – Installing and testing Icarus Verilog

The tutoriao and “vvp” commands are the most important commands available to users of Icarus Verilog. The “iverilog” command is the compiler, and the “vvp” command is the simulation runtime engine. What sort of output the compiler actually creates is controlled by command line switches, but normally it produces output in the default vvp format, which is in turn executed by the vvp program.

As designs get larger and more complex, they gain hierarchy in the form of modules that are instantiated within other. A common convention is to write one tutoial sized module per file or group related tiny modules into a single file then combine the files of the design together during compilation. For example, the counter model in counter. The “iverilog” command supports multi-file designs by two methods.

The simplest is to list the files on the command line:. This works for small to medium sized designs, but gets cumbersome when there are lots of files. Another technique is to use a commandfile, which lists the input files in a text file. Tutorizl command file technique clearly supports much larger designs simply by saving you the trouble of listing all the source files on the command line.

Name the files that are part of the design in the command file and use the “-c” flag to tell iverilog to ivfrilog the command file as a list of Verilog input files.

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As designs get more complicated, they almost certainly contain many Verilog modules that represent the hierarchy of your design. Typically, there is one module that instantiates other modules but is not instantiated by any other modules. This is called a root module.


Icarus Verilog chooses as roots There can be more than one root all the modules that are not instantiated by other modules. If there are no such modules, the compiler will not be able to choose any root, and the iverilpg must tutoial the “-s root ” switch to identify the root module, like this:. If there are multiple candidate roots, all of them will be elaborated. The compiler will do this even if there are many root modules that you do not intend to simulate, or that have no effect on the simulation.

This can happen, for example, if you include a source file that has multiple modules, but are only really interested in some of them. The tuutorial flag identifies a specific root module and also turns off the automatic search for other root modules.

You can use this feature to prevent instantiation of unwanted roots. As designs get even larger, they become spread across many dozens or even hundreds of files. When designs are that complex, more ivdrilog source code management techniques become necessary. These are described in later chapters, along with other advanced design management techniques supported by Icarus Verilog.

Sign In Don’t have an account? Next, execute tutoial compiled program like so: As designs get larger and more complex, they gain hierarchy in the form of modules that are instantiated within other it becomes convenient to organize them into multiple files.

The simplest is to list the files on the command line: If there tutoriap no such modules, the compiler will not be able to choose any root, and the designer must use the “-s root ” switch to identify the root module, like this: Retrieved from ” http: