# SweRV RISC-V CoreTM 1.3 from Western Digital This repository contains the SweRV CoreTM 1.3 design RTL. The previous version can be found in [branch 1.2.](https://github.com/chipsalliance/Cores-SweRV/tree/branch1.2) The SweRV 1 series provides a 32-bit, machine-mode only, implementation of the RISC-V ISA including options I (base integer), M (multiply/divide) and C (compressed instructions from I and M). ## License By contributing to this project, you agree that your contribution is governed by [Apache-2.0](LICENSE). Files under the [tools](tools/) directory may be available under a different license. Please review individual file for details. ## Directory Structure ├── configs # Configurations Dir │   └── snapshots # Where generated configuration files are created ├── design # Design root dir │   ├── dbg # Debugger │   ├── dec # Decode, Registers and Exceptions │   ├── dmi # DMI block │   ├── exu # EXU (ALU/MUL/DIV) │   ├── ifu # Fetch & Branch Prediction │   ├── include │   ├── lib │   └── lsu # Load/Store ├── docs ├── tools # Scripts/Makefiles └── testbench # (Very) simple testbench    ├── asm # Example assembly files    └── hex # Canned demo hex files ## Dependencies - Verilator **(3.926 or later)** must be installed on the system - If adding/removing instructions, espresso must be installed. Espresso is a logic minimization tool used in *tools/coredecode*. ## Quickstart guide 1. Clone the repository 1. Setup RV_ROOT to point to the path in your local filesystem 1. Determine your configuration {optional} 1. Run make with tools/Makefile ## Release Notes for this version Please see [release notes](release-notes.md) for changes and bug fixes in this version of SweRV ### Configurations SweRV can be configured by running the `$RV_ROOT/configs/swerv.config` script: `% $RV_ROOT/configs/swerv.config -h` for detailed help options For example to build with a DCCM of size 64 : `% $RV_ROOT/configs/swerv.config -dccm_size=64` This will update the **default** snapshot in $RV_ROOT/configs/snapshots/default/ with parameters for a 64K DCCM. Add `-snapshot=dccm64`, for example, if you wish to name your build snapshot *dccm64* and refer to it during the build. This script derives the following consistent set of include files : $RV_ROOT/configs/snapshots/default ├── common_defines.vh # `defines for testbench or design ├── defines.h # #defines for C/assembly headers ├── pd_defines.vh # `defines for physical design ├── perl_configs.pl # Perl %configs hash for scripting ├── pic_ctrl_verilator_unroll.sv # Unrolled verilog based on PIC size ├── pic_map_auto.h # PIC memory map based on configure size └── whisper.json # JSON file for swerv-iss ### Building a model 1. Set the RV_ROOT environment variable to the root of the SweRV directory structure `RV_ROOT = /path/to/swerv` `export RV_ROOT` 1. Create your configuration *(Skip if default is sufficient)* *(Name your snapshot to distinguish it from the default. Without an explicit name, it will update/override the **default** snapshot)* `$RV_ROOT/configs/swerv.config [configuration options..] -snapshot=mybuild` Snapshots are placed in `$RV_ROOT/configs/snapshots//` directory 1. Build with **verilator**: `make -f $RV_ROOT/tools/Makefile verilator [snapshot=name]` This will create and populate the verilator *obj_dir/* in the current work dir. **Other targets supported**: vcs (Synopsys) irun (Cadence) ### Running a simple Hello World program (verilator) RV_ROOT = /path/to/swerv export RV_ROOT make -f $RV_ROOT/tools/Makefile verilator-run This will build a verilator model of SweRV with AHB-lite bus, and execute a short sequence of instructions that writes out "HELLO WORLD" to the bus. You can re-execute using ./obj_dir/Vtb_top Start of sim ------------------------------ Hello World from SweRV @WDC !! ------------------------------ Finished : minstret = 389, mcycle = 1658 End of sim A vcd file `sim.vcd` is created which can be browsed by gtkwave or similar waveform viewers. `trace_port.csv` contains a log of the trace port. `exec.log` contains a basic execution trace showing PC, opcode and GPR writes. The Makefile allows you to specify different assembly files from command line make -f $RV_ROOT/tools/Makefile verilator-run ASM_TEST=my_hellow_world.s ASM_TEST_DIR=/path/to/dir If you change only the assembly files, you do not need to rebuild verilator, just specify the target as `program.hex` : make -f $RV_ROOT/tools/Makefile program.hex ASM_TEST=my_hello_world.s ASM_TEST_DIR=/path/to/dir ./obj_dir/Vtb_top ---- Western Digital, the Western Digital logo, G-Technology, SanDisk, Tegile, Upthere, WD, SweRV Core, SweRV ISS, and OmniXtend are registered trademarks or trademarks of Western Digital Corporation or its affiliates in the US and/or other countries. All other marks are the property of their respective owners.