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Davis In-Order (DINO) CPU models

Cute Dino

Build Status Coverage Status Contributor Covenant License License: CC BY 4.0

This repository contains Chisel implementations of the CPU models from Patterson and Hennessy's Computer Organization and Design (RISC-V Edition) primarily for use in UC Davis's Computer Architecture course (ECS 154B).

Any other educators are highly encouraged to take this repository and modify it to meet the needs of your class. Please open an issue with any questions or feature requests. We would also appreciate contributions via pull requests!

We published a summary paper on DINO CPU at the Workshop on Computer Architecture Education held with ISCA '19.

Jason Lowe-Power and Christopher Nitta. 2019. The Davis In-Order (DINO) CPU: A Teaching-focused RISC-V CPU Design. In Workshop on Computer Architecture Education (WCAE’19), June 22, 2019, Phoenix, AZ, USA. ACM, New York, NY, USA, 8 pages. https://doi.org/10.1145/3338698.3338892

The repository was originally cloned from https://github.com/ucb-bar/chisel-template.git.

Getting the code

To get the code, you can clone the repository that is in jlpteaching: jlpteaching/dinocpu.

git clone https://github.com/jlpteaching/dinocpu.git

Overview of code

The src/ directory:

The documentation directory contains some documentation on the design of the DINO CPU as well as an introduction to the Chisel constructs required for the DINO CPU.

How to run

First you should set up the Singularity container or follow the documentation for installing Chisel.

There are three primary ways to interact with the DINO CPU code.

  1. Running the DINO CPU tests.
  2. Running the DINO CPU simulator.
  3. Compiling the Chisel hardware description code into Verilog.

Compiling into Verilog

To compile your Chisel design into Verilog, you can run the elaborate main function and pass a parameter for which design you want to compile. As an example:

sbt:dinocpu> runMain dinocpu.elaborate single-cycle

The generated verilog will be available in the root folder as Top.v along with some meta-data. You may also get some generated verilog for auxillary devices like memory as Top.<device_name>.v

Compiling code for DINO CPU

See Compiling code to run on DINO CPU for details on how to compile baremetal RISC-V programs and compile full C applications.

Documentation for Teachers

DINO CPU-based assignments

The assignments directory contains some assignments that we have used at UC Davis with the DINO CPU.