VHDL and Verilog generation
Generate VHDL and Verilog from a SpinalHDL Component
To generate the VHDL from a SpinalHDL component you just need to call SpinalVhdl(new YourComponent)
in a Scala main
.
Generating Verilog is exactly the same, but with SpinalVerilog
in place of SpinalVHDL
import spinal.core._
// A simple component definition.
class MyTopLevel extends Component {
// Define some input/output signals. Bundle like a VHDL record or a Verilog struct.
val io = new Bundle {
val a = in Bool()
val b = in Bool()
val c = out Bool()
}
// Define some asynchronous logic.
io.c := io.a & io.b
}
// This is the main function that generates the VHDL and the Verilog corresponding to MyTopLevel.
object MyMain {
def main(args: Array[String]) {
SpinalVhdl(new MyTopLevel)
SpinalVerilog(new MyTopLevel)
}
}
Important
SpinalVhdl
and SpinalVerilog
may need to create multiple instances of your component class, therefore the first argument is not a Component
reference, but a function that returns a new component.
Important
The SpinalVerilog
implementation began the 5th of June, 2016.
This backend successfully passes the same regression tests as the VHDL one (RISCV CPU, Multicore and pipelined mandelbrot, UART RX/TX, Single clock fifo, Dual clock fifo, Gray counter, …).
If you have any issues with this new backend, please make a Github issue describing the problem.
Parametrization from Scala
Argument name |
Type |
Default |
Description |
---|---|---|---|
|
SpinalMode |
null |
Set the SpinalHDL hdl generation mode.
Can be set to
VHDL or Verilog |
|
ClockDomainConfig |
RisingEdgeClock
AsynchronousReset
ResetActiveHigh
ClockEnableActiveHigh
|
Set the clock configuration that will be used as the default value for all new |
|
Boolean |
false |
Change all unsigned/signed toplevel io into std_logic_vector. |
|
IClockDomainFrequency |
UnknownFrequency |
Default clock frequency. |
|
String |
Current directory |
Directory where files are generated. |
And this is the syntax to specify them:
SpinalConfig(mode=VHDL, targetDirectory="temp/myDesign").generate(new UartCtrl)
// Or for Verilog in a more scalable formatting:
SpinalConfig(
mode=Verilog,
targetDirectory="temp/myDesign"
).generate(new UartCtrl)
Parametrization from shell
You can also specify generation parameters by using command line arguments.
def main(args: Array[String]): Unit = {
SpinalConfig.shell(args)(new UartCtrl)
}
The syntax for command line arguments is:
Usage: SpinalCore [options]
--vhdl
Select the VHDL mode
--verilog
Select the Verilog mode
-d | --debug
Enter in debug mode directly
-o <value> | --targetDirectory <value>
Set the target directory
Generated VHDL and Verilog
How a SpinalHDL RTL description is translated into VHDL and Verilog is important:
Names in Scala are preserved in VHDL and Verilog.
Component
hierarchy in Scala is preserved in VHDL and Verilog.when
statements in Scala are emitted as if statements in VHDL and Verilog.switch
statements in Scala are emitted as case statements in VHDL and Verilog in all standard cases.
Organization
When you use the VHDL generator, all modules are generated into a single file which contain three sections:
A package that contains the definition of all Enums
A package that contains functions used by the architectural elements
All components needed by your design
When you use the Verilog generation, all modules are generated into a single file which contains two sections:
All enumeration definitions used
All modules needed by your design
Combinational logic
Scala:
class TopLevel extends Component {
val io = new Bundle {
val cond = in Bool()
val value = in UInt(4 bits)
val withoutProcess = out UInt(4 bits)
val withProcess = out UInt(4 bits)
}
io.withoutProcess := io.value
io.withProcess := 0
when(io.cond) {
switch(io.value) {
is(U"0000") {
io.withProcess := 8
}
is(U"0001") {
io.withProcess := 9
}
default {
io.withProcess := io.value+1
}
}
}
}
VHDL:
entity TopLevel is
port(
io_cond : in std_logic;
io_value : in unsigned(3 downto 0);
io_withoutProcess : out unsigned(3 downto 0);
io_withProcess : out unsigned(3 downto 0)
);
end TopLevel;
architecture arch of TopLevel is
begin
io_withoutProcess <= io_value;
process(io_cond,io_value)
begin
io_withProcess <= pkg_unsigned("0000");
if io_cond = '1' then
case io_value is
when pkg_unsigned("0000") =>
io_withProcess <= pkg_unsigned("1000");
when pkg_unsigned("0001") =>
io_withProcess <= pkg_unsigned("1001");
when others =>
io_withProcess <= (io_value + pkg_unsigned("0001"));
end case;
end if;
end process;
end arch;
Sequential logic
Scala:
class TopLevel extends Component {
val io = new Bundle {
val cond = in Bool()
val value = in UInt (4 bit)
val resultA = out UInt(4 bit)
val resultB = out UInt(4 bit)
}
val regWithReset = Reg(UInt(4 bits)) init(0)
val regWithoutReset = Reg(UInt(4 bits))
regWithReset := io.value
regWithoutReset := 0
when(io.cond) {
regWithoutReset := io.value
}
io.resultA := regWithReset
io.resultB := regWithoutReset
}
VHDL:
entity TopLevel is
port(
io_cond : in std_logic;
io_value : in unsigned(3 downto 0);
io_resultA : out unsigned(3 downto 0);
io_resultB : out unsigned(3 downto 0);
clk : in std_logic;
reset : in std_logic
);
end TopLevel;
architecture arch of TopLevel is
signal regWithReset : unsigned(3 downto 0);
signal regWithoutReset : unsigned(3 downto 0);
begin
io_resultA <= regWithReset;
io_resultB <= regWithoutReset;
process(clk,reset)
begin
if reset = '1' then
regWithReset <= pkg_unsigned("0000");
elsif rising_edge(clk) then
regWithReset <= io_value;
end if;
end process;
process(clk)
begin
if rising_edge(clk) then
regWithoutReset <= pkg_unsigned("0000");
if io_cond = '1' then
regWithoutReset <= io_value;
end if;
end if;
end process;
end arch;
VHDL and Verilog attributes
In some situations, it is useful to give attributes for some signals in a design to modify how they are synthesized.
To do that, you can call the following functions on any signals or memories in the design:
Syntax |
Description |
---|---|
|
Add a boolean attribute with the given |
|
Add a string attribute with the given |
Example:
val pcPlus4 = pc + 4
pcPlus4.addAttribute("keep")
Produced declaration in VHDL:
attribute keep : boolean;
signal pcPlus4 : unsigned(31 downto 0);
attribute keep of pcPlus4: signal is true;
Produced declaration in Verilog:
(* keep *) wire [31:0] pcPlus4;