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Tywaves project: a type based waveform viewer for Chisel and Tydi-Chisel

This repository contains a summary of the Tywaves project and an API to easily use it for testing a Chisel project. Tywaves consists of implementing a new type based waveform viewer for Chisel and Tydi-Chisel circuits.

The full project aims to successfully display waveforms of a Chisel circuit while maintaining the source code structure, constructs, hierarchies and source language type information (the Scala data type and constructor parameters) of signals and modules.

To achieve this goal, the project:

  1. collects high-level debug information (DI) of a circuit;
  2. elaborates the DI in order to associate it with the values in a trace from a simulator, in other words an association with the signals and modules output of a chisel-CIRCT compilation;
  3. emits a well-defined file format that a viewer can read together with a trace file to properly display the waveforms;
  4. makes everything compatible and portable with the new ChiselSim.

Tywaves project

If you are interested in using the tool and have any feedback on its implementation, 
please open an issue or contact me.

Internal functionality

The internal structure of the Tywaves project, how it works and details about the work done can be found in the wiki pages.

Note: The Tywaves project is currently under development. For now, the new functionality in chisel, firtool and surfer is available in my forks of the repositories. Pull-requests have been issued to the official repositories This would allow the Tywaves project to have a better integration and availability directly in the official releases.

Table of contents

Getting started

Prerequisites

The full project depends on the following tools. To install them, please check the links below:

Installation

The Makefile contains all the necessary commands to install the tools and the Tywaves-Chisel-API library.

You can run make all to install everything in one go, or you can install the components separately.

Install surfer-tywaves

To install the latest release of the fork:

make install-surfer-tywaves
make clean # Delete the cloned repository

or install the development version:

make install-surfer-tywaves-dev
make clean

Download and install the forks of Chisel and Firtool

make install-chisel-fork
make install-firtool-fork-bin # Download the Linux precompiled version (too long to compile)

If you want to compile the firtool from source, you can check the instructions, once cloned the correct version.

Install and publish locally this library: Tywaves-Chisel-API

git checkout <your-release>
make install-tywaves-chisel-api

Once published locally, you can use it in your project by adding the following line to your build.sbt file:

libraryDependencies += "com.github.rameloni" %% "tywaves-chisel-api" % "your-version-here"

Usage in a project through the Tywaves-Chisel-API

The Tywaves-Chisel-API is a library that allows to easily enable the Tywaves in a Chisel project. It provides 2 high-level simulators with functionalities to simulate a circuit through svsim, emit VCD traces and generate a symbol table for the surfer-tywaves waveform viewer itself automatically:

  • ParametricSimulator: provides some generic features such as VCD trace emission, name the trace file, pass additional arguments to firtool before simulation, save the workspace of svsim.1
  • TywavesSimulator: it extends the parametric simulator in order to generate extra debug information and optionally launch the waveform viewer directly after the simulation.

Their usage is very similar to ChiselTest and EphemeralSimulator since they both implement the PeekPokeAPI, but they use the new official ChiselSim, and they offer additional features compared to EphemeralSimulator. A simulation can be run as follows:

// Import the simulator

import tywaves.simulator.simulatorSettings._
import tywaves.simulator.ParametricSimulator._
//import tywaves.simulator.TywavesSimulator._

simulate(
  new DUT(), // The module to simulate
  settings = Seq(/* List of simulator settings */),
  simName = "Name_of_the_simulation", // used to name the directory in test_run_dir
) {
  dut => // Body of the simulation using the PeekPokeAPI
}

List of available settings of the simulators

A simulation can be customized by passing some settings to the simulator. The following options can be specified for ParametricSimulator and / or TywavesSimulator classes using the following syntax:

Setting Description Simulator
VcdTrace Enable the VCD output optimizing out signals starting with an underscore (_) in the final verilog ParametricSimulator and TywavesSimulator
VcdTraceWithUnderscore Enable the VCD output (including "underscored" signals) ParametricSimulator and TywavesSimulator
SaveWorkdir Save the workdir of svsim ParametricSimulator and TywavesSimulator
SaveWorkdirFile(name: String) Save the workdir with a specific name ParametricSimulator and TywavesSimulator
NameTrace(name: String) Give a name to the VCD trace ParametricSimulator and TywavesSimulator
WithFirtoolArgs(args: Seq[String]) Pass arguments to firtool under the simulation TywavesSimulator
WithTywavesWaveforms(runWaves: Boolean) Enable the generation of extra debug information (to fully exploit the tywaves project) and (optionally runWaves=true) launch the waveform viewer directly once the simulation has been completed ParametricSimulator and TywavesSimulator
WithTywavesWaveformsGo(runWaves: Boolean) Same as WithTywavesWaveforms but without blocking sbt if runWaves is true TywavesSimulator

Note: please open an issue/PR to request new settings.

Run a quick simple example

To run a quick example you can try to run the examples in the examples folder.

cd example
# Run the gcd example
scala-cli test gcd.test.scala

# Run a Tydi-Chisel example
scala-cli test tydi-chisel.test.scala

The following images show the classic and tywaves waveform visualization of the GCD module.

/** A simple module useful for testing Chisel generation and testing */
class GCD extends Module {
  val io = IO(new Bundle {
    val a             = Input(UInt(32.W))
    val b             = Input(UInt(32.W))
    val loadValues    = Input(Bool())
    val result        = Output(UInt(32.W))
    val resultIsValid = Output(Bool())
  })

  val x = Reg(UInt(32.W))
  val y = Reg(UInt(32.W))

  when(x > y)(x := x -% y).otherwise(y := y -% x)

  when(io.loadValues) {
    x := io.a
    y := io.b
  }

  io.result := x
  io.resultIsValid := y === 0.U
}
Only VCD loaded Tywaves
VCD GCD waveform Tywaves GCD waveform

Real use case scenario: debugging ChiselWatt

If you are interested to see Tywaves working in an existing Chisel design, you can refer to this section. This example has been used in the official publication to assess Tywaves.

Features

The following list shows a summary of the features added by the Tywaves project to Chisel/CIRCT and Surfer:

  • Parse and map Chisel/FIRRTL/Verilog circuits
  • Emit VCD traces from the simulator (both with and without underscores in the signal names)
  • Automatic debug information generation (from Chisel through CIRCT to the waveform viewer)
    • Dump Chisel types
    • Dump constructor parameters in the final symbol table
    • Distinguish IO, Reg and wires
  • Chisel data types representation (basic):
    • Hierarchical structures of bundles
    • Vectors
    • Enums
    • Hierarchical modules (modules with children)
      • Generic submodules (all different types of modules)
      • Variants of the same module (i.e. parametric module)
      • Instances of the same module
  • Chisel data types representation (advanced):
    • Type visualization for module instances (scopes in the waveform viewer)
    • Constructor parameters for both signals and modules
    • Selectable signal value rendering (with type information attached)
    • Automatic/custom signal value rendering
    • For loops code generation
    • Temporary values (also inside when and otherwise blocks)

Future work

  • Internals
    • Use intrinsics as a communication method to propagate type information between Chisel and CIRCT instead of FIRRTL annotations. Annotations are used temporarily and need to be replaced with a mechanism more suitable for MLIR operations. This change should enable the acceptance of PRs in the official repositories.
    • Create a new debug file format independent of HGLDD that is free from the code patterns and limitations of VCS internals. HGLDD is built using some internal VCS names and methods that overcomplicate the format in general cases.
  • Performance
    • Profiling and performance overhead
    • Remove the VCD rewriter step to improve the performance of tywaves-rs and Surfer.
    • Parallelize the TyVcdBuilder to further improve the performance of the viewer.
  • Feature Extensions
    • Extend and test the infrastructure of Tywaves to support other languages integrated into CIRCT.
    • Enable type information for module instances in the viewer UI.
    • Enable to save the state of the viewer. This feature should allow to save the appearance of waveforms onto a state file.
    • Automatically choose how to render a value based on the type name: either based on the name of the type or by defining an API that allows users to define how to render a value, similar to a toString() method.
    • Enable switching between multiple IRs in the viewer dynamically (i.e., Chisel, FIRRTL, Verilog).
    • Introduce a new specific visualization for hardware streaming interfaces (i.e., providing a new abstract view like showing deserializing a whole message received). This would work for Tydi but also for other streaming protocols if a standard interface for visualization is provided.

Versioning and tools (ref)

Use the new name of the library in your sbt dependencies: com.github.rameloni::tywaves-chisel-api:<version>.

IMPORTANT NOTE: Always use the latest version of Tywaves

Release Chisel fork version (from rameloni/chisel) Firtool fork version (from rameloni/circt) Tywaves-rs version Surfer-tywaves version
0.4.2-SNAPSHOT v6.4.3-tywaves-SNAPSHOT v0.1.5 v0.1.4 v0.3.2-tywaves-dev-SNAPSHOT
0.4.1-SNAPSHOT v6.4.3-tywaves-SNAPSHOT v0.1.4 v0.1.4 v0.3.2-tywaves-dev-SNAPSHOT
0.4.0-SNAPSHOT v6.4.3-tywaves-SNAPSHOT v0.1.3 v0.1.4 v0.3.2-tywaves-dev-SNAPSHOT
0.3.0-SNAPSHOT v6.4.2-tywaves-SNAPSHOT v0.1.1 v0.1.1 v0.3.0-tywaves-dev-SNAPSHOT

Old backend implementations (ref)

Use the old name of the library in your sbt dependencies: com.github.rameloni::tywaves-demo-backend:<version>.

Release Chisel fork version (from rameloni/chisel) Firtool version (official CIRCT repo) Tywaves-rs version Surfer-tywaves version
0.2.1-SNAPSHOT v6.1.0-tywaves-SNAPSHOT v1.75.0 v0.1.0 v0.2.1-tywaves-dev-SNAPSHOT
0.2.0-SNAPSHOT v6.1.0-tywaves-SNAPSHOT v1.75.0 - v0.2.0-tywaves-dev-SNAPSHOT
0.1.1-SNAPSHOT v6.1.0-tywaves-SNAPSHOT v1.75.0 - v0.1.1-SNAPSHOT
0.1.0-SNAPSHOT v6.1.0 official repo v1.62.0 - v0.1.0-SNAPSHOT

Publications

The paper on Tywaves has been submitted for publication NorCAS 2024. It is currently available at https://arxiv.org/abs/2408.10082. If you like Tywaves, you can cite this work using the following BibTex entry:

@unpublished{meloni2024tywavestypedwaveformviewer,
      title={{Tywaves: A Typed Waveform Viewer for Chisel}}, 
      author={Raffaele Meloni and H. Peter Hofstee and Zaid Al-Ars},
      year={2024},
      eprint={2408.10082},
      archivePrefix={arXiv},
      primaryClass={cs.AR},
      url={https://arxiv.org/abs/2408.10082}, 
      note={Submitted for publication}
}

The BibTex entry will be updated when the paper will be officially published.

For more details about the original work and the justification behind design choices, please refer to the respective MSc thesis:

Raffaele Meloni. Tywaves: A Typed Waveform Viewer for Chisel HDL with Typed Circuit Components and Tydi Streams. MSc thesis, TU Delft, Aug. 2024. Available: https://repository.tudelft.nl/record/uuid:829f43e0-1c34-4624-8c33-5182b71bd027.

License

Tywaves is licensed under the Apache License 2.0. Please see LICENSE for details.


Footnotes

  1. While TywavesSimulator is a central part of the Tywaves project, the ParametricSimulator is able to simulate any Chisel circuit independently from Tywaves. In case you need to simulate a circuit without a "Chisel" representation, you can use ParametricSimulator to emit a VCD trace. If you want to try the functionalities of Tywaves then TywavesSimulator is the right choice.