Getting Started
SpinalHDL is a hardware description language written in Scala, a statically-typed functional language using the Java virtual machine (JVM). In order to start programming with SpinalHDL, you must have a JVM as well as the Scala compiler. In the next section, we will explain how to download those tools if you don’t have them already.
Requirements / Things to download to get started
Before you download the SpinalHDL tools, you need to install:
A Java JDK, which can be downloaded from here for instance.
A Scala 2.11.X distribution, which can be downloaded here (not required if you use SBT).
The SBT build tool, which can be downloaded here.
Optionally:
How to start programming with SpinalHDL
Once you have downloaded all the requirements, there are two ways to get started with SpinalHDL programming.
The SBT way : If you already are familiar with the SBT build system and/or if you don’t need an IDE.
The IDE way : Get a project already set up for you in an IDE and start programming right away.
The SBT way
We have prepared a ready-to-go project for you on Github.
Either clone or download the “getting started” repository.
Open a terminal in the root of it and run
sbt run
. When you execute it for the first time, the process could take some time as it will download all the dependencies required to run SpinalHDL.
Normally, this command must generate an output file MyTopLevel.vhd
, which corresponds to the top level SpinalHDL code defined in src\main\scala\MyCode.scala
, which corresponds to the most simple SpinalHDL example
From a clean Debian distribution you can type the following commands into the shell. The commands will install Java, Scala, SBT, download the base project, and generate the corresponding VHDL file. Don’t worry if it takes some time the first time that you run it.
sudo apt-get install openjdk-8-jdk
sudo apt-get install scala
echo "deb https://repo.scala-sbt.org/scalasbt/debian all main" | sudo tee /etc/apt/sources.list.d/sbt.list
echo "deb https://repo.scala-sbt.org/scalasbt/debian /" | sudo tee /etc/apt/sources.list.d/sbt_old.list
curl -sL "https://keyserver.ubuntu.com/pks/lookup?op=get&search=0x2EE0EA64E40A89B84B2DF73499E82A75642AC823" | sudo apt-key add
sudo apt-get update
sudo apt-get install sbt
git clone https://github.com/SpinalHDL/SpinalTemplateSbt.git SpinalTemplateSbt
cd SpinalTemplateSbt
sbt run # select "mylib.MyTopLevelVhdl" in the menu
ls MyTopLevel.vhd
SBT in a environnement isolated from internet
Normally, SBT uses online repositories to download and cache your projects dependencies, this cache is located in your home/.ivy2
folder. The way to set up an internet-free environnement is to copy this cache from an internet-full environnement where the cache was already filled once, and copy it over to your internet-less environnement.
The IDE way, with IntelliJ IDEA and its Scala plugin
In addition to the aforementioned requirements , you also need to download the IntelliJ IDEA (the free Community edition is enough). When you have installed IntelliJ, also check that you have enabled its Scala plugin (install information can be found here).
And do the following :
Either clone or download the “getting started” repository.
In Intellij IDEA, “import project” with the root of this repository, the choose the Import project from external model SBT and be sure to check all boxes.
In addition, you might need to specify some path like where you installed the JDK to IntelliJ.
In the project (Intellij project GUI), right click on
src/main/scala/mylib/MyTopLevel.scala
and select “Run MyTopLevel”.
This should generate the output file MyTopLevel.vhd
in the project directory, which implements a simple 8-bit counter.
A very simple SpinalHDL example
The following code generates an and
gate between two one-bit inputs.
import spinal.core._
class AND_Gate extends Component {
/**
* This is the component definition that corresponds to
* the VHDL entity of the component
*/
val io = new Bundle {
val a = in Bool()
val b = in Bool()
val c = out Bool()
}
// Here we define some asynchronous logic
io.c := io.a & io.b
}
object AND_Gate {
// Let's go
def main(args: Array[String]) {
SpinalVhdl(new AND_Gate)
}
}
As you can see, the first line you have to write in SpinalHDL is import spinal.core._
which indicates that we are using the Spinal components in the file.
Generated code
Once you have successfully compiled your code, the compiler should have emitted the following VHDL code:
package pkg_enum is
...
end pkg_enum;
package pkg_scala2hdl is
...
end pkg_scala2hdl;
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.pkg_scala2hdl.all;
use work.all;
use work.pkg_enum.all;
entity AND_Gate is
port(
io_a : in std_logic;
io_b : in std_logic;
io_c : out std_logic
);
end AND_Gate;
architecture arch of AND_Gate is
begin
io_c <= (io_a and io_b);
end arch;
What to do next?
It’s up to you, but why not have a look at what the types are in SpinalHDL or discover what primitives the language provides to describe hardware components? You could also have a look at our examples to see some samples of what you could do next.