SiFive Freedom: chisel code structure
I. Introduction
Reference link for SiFive Freedom: sifive/freedom
I. a) Important files
They have two main series of CPU called E300 (rv32gc) and U500 (rv64gc). The way they structured them are similar. They used three kind of scala files, i.e., Shell file, Configs file, and Design file, to create a system.
| File | Description | Example file |
|---|---|---|
| Configs file | Is used as a configuration file for the CPU, and it's usually fixed for multiple designs. | src/main/scala/unleashed/ DevKitConfigs.scala |
| Design file | Is an extension upon the Configs file. In the Design file, all of the modules are called and connected. The Design file is also usually fixed for multiple platforms. | src/main/scala/unleashed/ DevKitFPGADesign.scala |
| Shell file | Is like a top file where all of the IOs are declared. They usually have one Shell file for each platform. | fpga-shells/src/main/scala/ shell/xilinx/VC707NewShell.scala |
I. b) Build procedure
1: from Makefile -> to sbt
When $ make verilog in the freedom top folder, the job of the Makefiles is just to pass the arguments into the sbt tool.
2: sbt: from .scala -> to .fir
The sbt tool is a tool to compile the scala codes into java executable files. Then, subsequently, create the .fir files from those java executives.
The actual command to create .fir file from scala codes:
java -jar $(rocketchip_dir)/sbt-launch.jar ++2.12.4 "runMain freechips.rocketchip.system.Generator $(BUILD_DIR) $(PROJECT) $(MODEL) $(CONFIG_PROJECT) $(CONFIG)"
where:
$(BUILD_DIR)is the folder that you want to generate your .fir file into$(PROJECT)is the package that contains the$(MODEL)$(MODEL)is the name of the top Shell in scala codes$(CONFIG_PROJECT)is the package that contains the$(CONFIG)$(CONFIG)is the name of the top Design in scala codes
3: from .fir -> to .v
After we have the .fir file, this is the command to create the verilog codes from the .fir file: (the verilog codes are generated into just one .v file)
java -Xmx2G -Xss8M -XX:MaxPermSize=256M -cp $(FIRRTL_JAR) firrtl.Driver -i <path to .fir file> -o <path to .v file> -X verilog
where $(FIRRTL_JAR) is the path that point to $(rocketchip_dir)/firrtl/utils/bin/firrtl.jar
II. Shell File
This file is like a top file with the main purpose of IOs declaration.
This file doesn’t call the Design file or Config file. When $ make by the sbt, this file and the Design file are called together by a single sbt command-line. The Shell file and the Design file ‘talk’ with each other by Overlays.
SiFive Freedom codes are relied on extending the LazyModule which relied on lazy val declaration. Because of the lazy property, if a group of IOs isn’t declared in the top Shell, the corresponding LazyModule won’t be instantiated, thus leading to the removal of the relevant modules in the actual implementation.
For example: in the fpga-shells/src/main/scala/shell/xilinx/VC707NewShell.scala
abstract class VC707Shell()(implicit p: Parameters) extends Series7Shell
{
. . .
val led = Overlay(LEDOverlayKey) (new LEDVC707Overlay (_, _, _))
val switch = Overlay(SwitchOverlayKey) (new SwitchVC707Overlay (_, _, _))
. . .
}
If we just // the val led and val switch, like this:
abstract class VC707Shell()(implicit p: Parameters) extends Series7Shell
{
. . .
//val led = Overlay(LEDOverlayKey) (new LEDVC707Overlay (_, _, _))
//val switch = Overlay(SwitchOverlayKey) (new SwitchVC707Overlay (_, _, _))
. . .
}
Then the IOs of leds & switches won’t be declared, thus the GPIOs module won’t be instantiated in the design, and there will be no GPIOs module in the final verilog code.
III. Configs File
This file is the configuration file for the CPUs and internal bus systems.
This file is later called by the Design file.
IV. Design File
This file carries out the actual implementation of the design, with all of the modules and how they are connected.
This file calls and extends (or even overrides) the Configs file.