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For example, I would like to run a simulation for an interactive game like: https://github.com/fabioperez/space-invaders-vhdl without an FPGA, such that:

  • signals are set by keyboard keys
  • outputs can be displayed on a window

http://www.nand2tetris.org/ does this, but is uses a simplified custom educational language for it.

VHDL's textio's read(input and write(output get somewhat close, but not quite:

  • read(input waits for a newline, we'd want something that can detect is a keyboard key is pressed or not
  • write(output: would need some way to flush data to ensure that the renderer that will emulate, say, a display gets it
  • we need some way to throttle simulation speed

Of course, I don't need to do everything in VHDL: I just need a minimal way to communicate with VHDL synchronously with other programs, and then I can do the e.g. display with SDL in C.

Also asked at: https://github.com/tgingold/ghdl/issues/92

Serious application: run an interactive Linux kernel + BusyBox on top of a hardware CPU simulation, e.g. https://github.com/lowRISC/lowrisc-chip (uses verilator) That project currently only does interactive simulations with a functional simulator (reads ISA assembly and simulates it's high level function), and only does non-interactive Verilog hardware unit tests.

  • In 1.1.4 Hardware Description Language (HDL) of the book referenced in your link, the V in VHDL doesn't stand for Virtual, it stands for VHSIC (another acronym). There's a distinction between simulation (1.2) and emulation (1.1). Without external resources as Brian indicates that V can't stand for Virtual. You want to emulate hardware with resources not found in a simulator (or the VHDL language). – user1155120 Jun 29 '16 at 22:06
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    @user1155120 I feel that read( and write( already come super close to what I need. I don't need key or display handling of course, just a minimal way to communicate with the VHDL simulation, and then feed that to other programs that will treat keys / display things to screen. – Ciro Santilli 郝海东冠状病六四事件法轮功 Jun 30 '16 at 5:07
  • If you do full detail cycle-accurate simulation, not sure if it will be fast enough to be interactive. Might require a very small core. – user2548418 Jun 30 '16 at 16:08
  • @user2548418 yes, I don't know if perf is reasonable for an interactive Linux kernel. We can easily estimate max frequency from the RISC-V testsuite, but I don't know how to estimate the minimum freq needed for an interactive kernel + bash. – Ciro Santilli 郝海东冠状病六四事件法轮功 Jun 30 '16 at 16:25
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    Aria from Nand2Tetris shows how to do it with Verilog, Verilator & SDL here: hackaday.io/project/… – Alexandre Dumont Jan 10 '19 at 23:26
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Verilator is a perfect solution for this application.

It exposes the Verilog simulation loop to C++ (and transpiles the Verilog to C++), allowing you to set inputs, and get outputs from C++.

See the CONNECTING TO C++ example from the docs: http://www.veripool.org/projects/verilator/wiki/Manual-verilator

So you can just plug that into SDL / ncurses / etc. without any IPC.

For a simulator independent solution, it might be worth looking into the foreign language APIs of VHDL (VHPI) / Verilog (DPI) as mentioned in this comment, but there are few examples of how to use those, and you'll have to worry about IPC.

Minimal runnable example: https://github.com/cirosantilli/rtl-cheat/tree/4e3289704ae5e2aa64170cbca756a3d46bbfa19d/interactive

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A related project that implements nand2tetris in Verilator + SDL can be found at: https://hackaday.io/project/160865-nand2tetris-in-verilog-part3-verilator-and-sdl2

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    I really like Verilator. I recommend it very highly. Ciro's point about not requiring IPC is a good one. In Connectal, we use IPC because the behavior is closer to what you get connecting software to actual hardware.However, for test benches IPC may limit performance or constrain what you can do in the testbench. I have ideas about how to extend Connectal for in-process connections between software and verilator. – Jamey Hicks Aug 19 '16 at 15:18
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Connectal connects software running on actual CPUs to RTL (BSV, which can link to VHDL and Verilog) on FPGAs or simulators. BSV is free for academic and research use and for open source projects. In any case, Connectal is open source and the software to simulator connection uses SystemVerilog DPI, which you could use in your project without using BSV.

Connectal has one example that displays the output from the FGPA/simulator on a display. It uses Qt to display on the computer monitor when simulating. From an FPGA it displays directly on an HDMI display.

CPUs simulated in Verilog or VHDL tend to be too slow for interactive use, but I have connected a CPU simulated with qemu to devices or accelerators in verilator or on FPGA. Performance of qemu is quite good. I think it would work for your purposes.

I added a plugin FgpaOps API so that the simulator or FPGA could handle CPU load/store instructions:

struct FpgaOps {
    uint64_t (*read)(hwaddr addr);
    void (*write)(hwaddr addr, uint64_t value);
    void (*close)(void);
    void *(*alloc_mem)(size_t size);
};

In my case, I used connectal to implement the FpgaOps plugin. This code is under hw/riscv but is not specific to riscv, so it could be used with any processor architecture supported by qemu.

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