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RVBS - RISC-V Bluespec SystemVerilog Specification

RVBS (pronounced "rubs") is an ISA level description of the RISC-V instruction set in Bluespec SystemVerilog. It uses the BID library to describe the instructions, providing a readable, executable and synthesizeable specification, with an AXI interface, that could be used as a golden model.

RVBS is not a heavily pipelined, superscalar or optimised RISC-V core. It is however capable to boot small embedded operating systems.

RVBS currently supports:

  • 32-bit and 64-bit RISC-V I base integer instructions
  • RISC-V M integer multiply/divide instructions
  • RISC-V C compressed instructions
  • RISC-V Zicsr control and status registers manipulation instructions
  • Machine/Supervisor/User privilege modes
  • Sv32 virtual memory translation mechanism without Sv32 memory protection features
  • PMP physical memory protection mechanism
  • RISC-V Zifencei the fence.i instruction, currently a nop

RVBS supports traps between privilege modes, but Supervisor mode is not fully implemented.

Building RVBS

In order to build a RVBS Bluesim simulator, you will need a valid installation of Bluespec SystemVerilog on your machine. RVBS relies on the following three Bluespec libraries:

BID is a submodule of the RVBS repository. Recipe, BitPat and BlueStuff are themselves submodules of the BID repository. In order to checkout all of them, you need to run:

$ git submodule update --init --recursive

Once the libraries are available, you can build RVBS and specify a number of build options as environment variables. The XLEN environment variable must be set to one of 32 or 64 to specify the XLEN to build with. The following optional environment variables are available:

  • USER_MODE can be set to enable User mode support
  • SUPERVISOR_MODE can be set to enable Supervisor mode support (implies User mode)
  • PMP can be set to enable the Physical Memory Protection unit
  • RVM can be set to enable the M integer multiply/divide instructions extention
  • RVC can be set to enable the C compressed instructions extention
  • RVZICSR can be set to enable the Zicsr control and status registers manipulation instructions extention
  • RVZIFENCEI can be set to enable the Zifencei fence.i instruction extention
  • NO_LOGS can be set to skip print statements (accelerates simulation)
  • PRINT_ABI_REG_NAME can be set to use ABI names for registers instead of their index

Bluesim

Several Bluesim build targets are available:

  • isa-test to get a simulator that can be used for running the ISA tests from riscv-tests
  • rfvi-dii to get a rvfi-dii server to be used with a TestRIG configuration
  • sim to get the default simulator. It can be further configured using:
    • MEM_SIZE can be used to specify the size of the memory in bytes
    • MEM_IMG can be used to specify the memory image used to initialize the memory
    • MEM_DELAY can be set to enable artificial memory delay

The generated simulator is found under the output/ folder, and when run, will execute the program found in test-prog.hex.

Examples

  • To build a 64-bit bluesim simulator with support for multiply/divide instructions and 32KB of memory, you can run:
$ make RVM=1 XLEN=64 MEM_SIZE=32768 sim
  • To build a 32-bit bluesim simulator with support for compressed instructions and as an rvfi-dii server, you can run:
$ make RVC=1 rvfi-dii
  • To build a 32-bit bluesim simulator capable of running the ISA tests, you can run:
$ make isa-test

Run time flags

The +itrace flag can be specified on the command line when running the simulator to get an instruction trace in stdout as follows:

$ output/rvbs-rv64IM +itrace

Verilog

To build a 32-bit verilog module with support for compressed instructions, you can run:

$ make RVC=1 XLEN=32 verilog

The generated verilog can be found in the output/rvbs-rv32IC-vdir/ folder. Specifically, the rvbs verilog module with an AXI4Lite interface can be found in output/rvbs-rv32IC-vdir/rvbs.v.

TODOs, upcoming features and experimentations...

  • sv39/sv48 memory virtualisation
  • N extention for User mode interrupt and exception support
  • CHERI extension

References