Skip to content

agra-uni-bremen/SpinalAGRADemo

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

6 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Demonstrations for the SpinalHDL AGRA Demo

The code is organized in the following directory structure:

SpinalAGRADemo
├── hw
│   ├── gen
│   ├── spinal
│   │   ├── fsmdemo
│   │   ├── projectname
│   │   ├── regdemo
│   │   ├── sineromdemo
│   │   └── adder 
│   ├── verilog
│   └── vhdl
├── project
├── simWorkspace
└── target

The hw directory contains all source code, generated or provided. Inside hw/gen resides the generated Verilog and VHDL code and corresponding initial data for memories. In hw/spinal all the SpinalHDL-related code will be placed, directory structures are similar to package structures in Java/Scala. The folders hw/verilog and hw/vhdl contain source code in Verilog and VHDL, respectively, if code in these languages is utilized within SpinalHDL (e.g., as IP/blackboxes). The directories project and target come from the usage of sbt as build tool. Once a design is simulated, corresponding artifacts are placed inside simWorkspace as subdirectories.

Let's start using SpinalHDL!

  1. Start an interactive sbt console from this directory:
~/SpinalAGRADemo$ sbt

Eventually, you will have a sbt prompt that looks like this:

sbt:projectname> 
  1. The command show discoveredMainClasses can show the available runnable parts of this repository:
[...]
sbt:projectname> show discoveredMainClasses
[info] compiling 2 Scala sources to /home/sallar/work/SpinalAGRADemo/target/scala-2.12/classes ...
[info] * adders.AddersSim
[info] * adders.AddersVerilog
[info] * adders.RCAVerilog
[info] * fsmdemo.FSMDemoSim
[info] * fsmdemo.FSMDemoVerilog
[info] * gcd.GCDCtrlVerilog
[info] * gcd.GCDTopSim
[info] * gcd.GCDTopVerilog
[info] * projectname.MyTopLevelFormal
[info] * projectname.MyTopLevelSim
[info] * projectname.MyTopLevelVerilog
[info] * projectname.MyTopLevelVhdl
[info] * regdemo.RegDemoVerilog
[info] * regdemo.RegDemoVhdl
[info] * sineromdemo.SineRomDemoSim
[info] * sineromdemo.SineRomDemoVerilog
[...]
  1. We can now use the command runMain to execute one of those targets. For example regdemo.RegDemoVerilog:
sbt:projectname> runMain regdemo.RegDemoVerilog
[info] running (fork) regdemo.RegDemoVerilog 
[info] [Runtime] SpinalHDL v1.10.2    git head : 279867b771fb50fc0aec21d8a20d8fdad0f87e3f
[info] [Runtime] JVM max memory : 7940,0MiB
[info] [Runtime] Current date : 2024.07.24 13:28:55
[info] [Progress] at 0,000 : Elaborate components
[info] [Progress] at 0,252 : Checks and transforms
[info] [Progress] at 0,347 : Generate Verilog to hw/gen
[info] [Warning] 1 signals were pruned. You can call printPruned on the backend report to get more informations.
[info] [Done] at 0,411
[success] Total time: 1 s, completed 24.07.2024, 13:28:56

This will generate the respective Verilog code inside hw/gen/. The file will be called RegDemo.v.

  1. Simulating a design with its testbench works similarly, by calling the runMain command for the respective target. For example sineromdemo.SineRomDemoSim:
sbt:projectname> runMain sineromdemo.SineRomDemoSim
[info] running (fork) sineromdemo.SineRomDemoSim 
[info] [Runtime] SpinalHDL v1.10.2    git head : 279867b771fb50fc0aec21d8a20d8fdad0f87e3f
[info] [Runtime] JVM max memory : 7940,0MiB
[info] [Runtime] Current date : 2024.07.24 13:31:40
[info] [Progress] at 0,000 : Elaborate components
[info] [Progress] at 0,311 : Checks and transforms
[info] [Progress] at 0,439 : Generate Verilog to ./simWorkspace/tmp/job_1
[info] [Done] at 0,507
[info] [Progress] Simulation workspace in /home/sallar/work/SpinalAGRADemo/./simWorkspace/SineRomDemo
[info] [Progress] Verilator compilation started
[info] [info] Found cached verilator binaries
[info] [Progress] Verilator compilation done in 572,406 ms
[info] [Progress] Start SineRomDemo test simulation with seed 495730415
[info] [Done] Simulation done in 58,517 ms
[success] Total time: 2 s, completed 24.07.2024, 13:31:42
  1. Since we simulated a design with a testbench that also writes a wavetrace (in the FST format), we can take a look at it. GTKWave is an open-source tool that allows this, for example. In a new terminal inside this directory, you can do the following:
~/SpinalAGRADemo$ gtkwave simWorkspace/SineRomDemo/test/wave.fst

Which will open the wavetrace for the testbench of SineRomDemo. The directory simWorkspace contains all simulated designs, which were simulated through SpinalHDL testbenches. Corresponding artifacts like wavetraces, the generated Verilog, or even the Verilator code are contained inside.


Below you find some general information on how to setup and run this SpinalHDL project (original README from the Basic SpinalHDL Project / SpinalTemplateSbt)


SpinalHDL Base Project

This repository is a base project to help Spinal users set-up project without knowledge about Scala and SBT.

If it is your are learning SpinalHDL

You can follow the tutorial on the Getting Started page.

More specifically:

TL;DR Things have already been set up in my environment, how do I run things to try SpinalHDL?

Once in the SpinalTemplateSbt directory, when tools are installed, the commands below can be run to use sbt.

// To generate the Verilog from the example
sbt "runMain projectname.MyTopLevelVerilog"

// To generate the VHDL from the example
sbt "runMain projectname.MyTopLevelVhdl"

// To run the testbench
sbt "runMain projectname.MyTopLevelSim"
  • The example hardware description is into hw/spinal/projectname/MyTopLevel.scala
  • The testbench is into hw/spinal/projectname/MyTopLevelSim.scala

When you really start working with SpinalHDL, it is recommended (both for comfort and efficiency) to use an IDE, see the Getting started.

If you want to create a new project from this template

Change project name

You might want to change the project name, which is currently projectname. To do so (let's say your actual project name is myproject; it must be all lowercase with no separators):

  • Update build.sbt and/or build.sc by replacing projectname by the name of your project myproject (1 occurrence in each file). The better is to replace in both (it will always work), but in some contexts you can keep only one of these two files:
    • If you are sure all people only use sbt, you can replace only in build.sbt and remove build.sc
    • If you are sure all people only use mill, you can replace only in build.sc and remove build.sbt
    • Replace in both files for open-source project.
  • Put all your scala files into hw/spinal/myproject/ (remove the unused hw/spinal/projectname/ folder)
  • Start all your scala files with package myproject

Change project structure

You can change the project structure as you want. The only restrictions (from Scala environment) are (let's say your actual project name is myproject):

  • you must have a myproject folder and files in it must start with package myproject
  • if you have a file in a subfolder myproject/somepackage/MyElement.scala it must start with package myproject.somepackage.
  • sbt and mill must be run right in the folder containing their configurations (recommended to not move these files)

Once the project structure is modified, update configurations:

  • In build.sbt and/or build.sc (see above) replace / "hw" / "spinal" by the new path to the folder containing the myproject folder.
  • In the spinal configuration file (if you kept it, by default it is in projectname/Config.scala) change the path in targetDirectory = "hw/gen" to the directory where you want generated files to be written. If you don't use a config or if it doesn't contain this element, generated files will be written in the root directory.

Update this README

Of course you can replace/modify this file to help people with your own project!

Mill Support (Experimental)

The Mill build tool can be installed and used instead of sbt.

// To generate the Verilog from the example
mill projectname.runMain projectname.MyTopLevelVerilog

// To generate the VHDL from the example
mill projectname.runMain projectname.MyTopLevelVhdl

// To run the testbench
mill projectname.runMain projectname.MyTopLevelSim

About

SpinalHDL demo for AGRA

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published