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CPU-X

wakatime

A RISC-V RV32I+Zicsr FPGA implementation.

Mini-Bus protocol

Mini-Bus is a simple bus protocol used to connect the CPU core with other components like memory and memory-mapped peripherals in this project.

Mini-Bus signals

  • clk: bus clock
  • nrst: bus reset
  • addr: bus address signals, 32-bit
  • wdata: bus write data signals, 32-bit
    • Always right-aligned for storing byte or half-word
  • rdata: bus read data signals, 32-bit
  • width: bus data width, 2-bit
    • 00: byte access
    • 01: half word access
    • 10: full word access
  • ren: bus read enable
    • If set, signaling this request is a read request
  • wen: bus write enable
    • If set, signaling this is a write request
  • err: bus master error signal
    • Connect to the current slave device being selected
  • ack: bus master acknowledge
    • If set, signaling the request is completed and master should read available data/start next request
  • Slave signals
    • selx: bus slave x select signal
      • Set based on the memory address assigned to each slave device
    • ackx: bus slave x acknowledge signal
    • errx: bus slave x error signal

Waveform examples

Using Wavedrom for visualization.

Mini-Bus Write

Mini-Bus Read

Mini-Bus read and write

TODO

Stage I: SingleCycle

  1. Implement unprivileged isa
  2. Implement machine-mode (privileged) isa
    1. CSR register and instruction support
      1. What CSR registers needed?
        1. Those in machine-mode
          1. A total of 4096 CSRs with default values
            1. misa
            2. mvendorid: zeros
            3. marchid: zeros
            4. mimpid: zeros
            5. mhartid: zeros
            6. mstatus
            7. mstatush
            8. mtvec
            9. medeleg and mideleg
            10. mie and mip
            11. mscratch
            12. mepc
            13. mcause
            14. mtval
          2. Map those in user and supervisor mode to zeros
        2. Performance monitor could be optional
      2. Instruction needed: Zicsr extension
      3. Instruction needed: machine-level privileged instructions
        1. ecall
        2. ebreak
        3. mret: need to modify CSR mstatus
        4. fence (Implemented as NOP for now)
        5. wfi: could be a nop
      4. CSR R/W permission protection, check index[11:10] bits
      5. CSR fields WARL, WLRL protection
      6. Need to determine what additional signals needed to the CSR module
        1. Like interrupt and exception signals
    2. Interrupt/Exception generator/handler
      1. Merge with the CSR unit to faciliate easy CSR values modification
      2. What are the interrupts and execptions needed to support?
        1. Just implement Exception for now?
          1. Inst addr misalign
          2. Inst illegal
          3. environment breakpoint
          4. load/store addr misalign
          5. environment call m-mode
          6. Also need to set epc
          7. Also need to save context? Unlike STM32, software saves the context
  3. Need to pass riscv isa tests in machine mode
    1. RTL Level
    2. GATE Level
      1. Let TB listen on the RAM signals, waiting for writes to toHOST memory region with the value
    3. Multi-cycle latency RAM
      1. 0 cycle latency
      2. 2 cycles latency
      3. 3 cycles latency
      4. 7 cycles latency
      5. 10 cycles latency
      6. For odd cycles latency, dhit/ihit will need hit twice
        1. Since the first hit is on the failing edge of CPU clock (RAM clk is twice as fast as the CPU clk)
        2. So the effective latency will be double if we don't sync the RAM ack with CPU clock
        3. Fix this in later iteration since we don't want single cycle to be burdened with performance.
      7. Need to update processor state only once in a multi-cycle wait for inst fetch
        1. By updating CSR and regfile only when ihit for regular inst
        2. Update regfile for load operation only when dhit
  4. Auto tester for unit test asm from riscv-tests

Stage I.a: Simple Peripheral

  1. Mini-Bus protocol
  2. For non-word loads, put data in right-aligned format or maintain same offset in memory?
    1. If load a byte 0xAA at address 0x1, do we want 0x000000AA or 0x0000AA00?
    2. Probably the first one as the address bus already contain the offset information, no need to include redundant information on the data bus as well
    3. Also no need on RISCV side to shift the offseted data
    4. Add this to Mini-Bus protocol
  3. Simple IO
    1. LED Segement
    2. Off-chip RAM

Stage I.b: Dev tool improvement

  1. Create a custom testbench compilation script to properly load folders in components with simulator
    1. The default one will prompt Folder exists error if rerun simulation, requiring manually deletion of the modelsim folder everytime
  2. Create different revisions for testbench mapped simulation and FPGA download
    1. The FPGA one is with system_fpga.sv and the testbench should have system.sv as top module
  3. CI/CD integration with coverage report?

Stage II: Pipeline

  1. Implement pipeline CPU with machine-mode
  2. Make sure the exception/interrupt are precise
  3. Group interface signals into event packet struct, like instruction fetch, memory_ldst

Stage II.a: M- and A- extensions support

  1. Add M- extension
  2. Add A- extension

Stage III: Peripheral

  1. Implement a memory bus to connect on-chip and off-chip RAM/ROM
  2. FENCE and RISCV memory consistency model?
  3. Implement programmer? To program the chip without quartus, like a real embedded system
  4. Debugger support? Like On-chip breakpoints
  5. Also other embedded peripheral
  6. Build a memory map
  7. Coverage report?

Make commands

  1. RISC-V Testsuite
    1. Use make benchmark_BENCHMARK or make isa_ISATEST to generate the meminit.hex
    2. Use make own_PROG to compile programs inside prog folder

References

  1. RISCV ISA Manual
    1. Used 20191214-draft for unprivileged ISA
    2. Used 20211203 for privileged ISA
  2. RISCV ISA simulator
  3. RISCV unit test benchmark suite
  4. Intel Quartus Lite
    1. For linux
    2. Also if want to use the waveform simulator, need to register for a license

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