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# EL2 SweRV RISC-V Core Chiselified Version from <> LAMPRO MELLON # EL2 SweRV RISC-V Core Chiselified Version from LAMPRO MELLON
This repository contains the SweRV EL2 Core design in CHISEL This repository contains the SweRV-EL2 Core design in CHISEL
## Back ground ## Back ground
@ -8,20 +8,111 @@ The project is being made for learning purpose. Copy rights to the SweRV-EL2 bel
## Directory Structure ## Directory Structure
├── configs # Configurations Dir ├── .idea #
│   └── snapshots # Where generated configuration files are created │   ├── codeStyles #
├── design # Design root dir │   ├── libraries #
│   ├── dbg # Debugger │   └── modules #
│   ├── dec # Decode, Registers and Exceptions ├── project #
│   ├── dmi # DMI block │   ├── project/target/config-classes #
│   ├── exu # EXU (ALU/MUL/DIV) │   └── target #
│   ├── ifu # Fetch & Branch Prediction ├── src
│   ├── include │   ├── main #
│   ├── lib │    ├── resource/vsrc #
│   └── lsu # Load/Store │   └── scala #
├── docs │    ├── dbg #
├── tools # Scripts/Makefiles │    ├── dec #
└── testbench # (Very) simple testbench │    ├── dmi #
   ├── asm # Example assembly files     ├── exu #
   └── hex # Canned demo hex files │    ├── ifu #
│    ├── include #
│    ├── lib #
│    ├── lsu #
│    ├── snapshot #
│    ├── el2_dma_ctrl.scala #
│    ├── el2_pic_ctl.scala #
│     └── el2_swerv.scala #
│     └── test/scala/lib #
├── target #
  ├── scala-2.12 #
   └── streams #
└── test_run_dir #
## Dependencies
- Verilator **(4.020 or later)** must be installed on the system if running with verilator
- If adding/removing instructions, espresso must be installed (used by *tools/coredecode*)
- RISCV tool chain (based on gcc version 7.3 or higher) must be
installed so that it can be used to prepare RISCV binaries to run.
## Quickstart guide
1. Clone the repository
2. Setup RV_ROOT to point to the path in your local filesystem
3. Determine your configuration {optional}
4. Run make with tools/Makefile
### Configurations
This script derives the following consistent set of include files :
### Building a model
while in a work directory:
1. Set the RV_ROOT environment variable to the root of the SweRV directory structure.
Example for bash shell:
`export RV_ROOT=/path/to/swerv`
Example for csh or its derivatives:
`setenv RV_ROOT /path/to/swerv
2. Create your specific configuration
Enter here
3. Running a simple Hello World program (verilator)
Enter here
The simulation produces output on the screen like:
Enter here
The simulation generates following files:
Enter here
You can re-execute simulation using:
Enter here
The simulation run/build command has following generic form:
Enter here
where,
Enter here
If you want to compile a test only, you can run:
Enter here
The `$RV_ROOT/testbench/asm` directory contains following tests ready to simulate:
```
hello_world - default tes to run, prints Hello World message to screen and console.log
hello_world_dccm - the same as above, but takes the string from preloaded DCCM.
hello_world_iccm - the same as hello_world, but loads the test code to ICCM via LSU to DMA bridge and then executes
it from there. Runs on EL2 with AXI4 buses only.
cmark - coremark benchmark running with code and data in external memories
cmark_dccm - the same as above, running data and stack from DCCM (faster)
cmark_iccm - the same as above with preloaded code to ICCM.
```
**Building an FPGA speed optimized model:**
Use ``-set=fpga_optimize=1`` option to ``swerv.config`` to build a model that is removes clock gating logic from flop model so that the FPGA builds can run a higher speeds.