SimIO is a collection of modular virtual components to interact with a running HDL simulation. Its components can be attached to the device under test (DUT) by instantiating the desired SimIO component in a SystemVerilog wrapper/testbench. For example, a virtual VGA screen display can be instantiated in the testbench. Wiring is as easy as connecting Red, Green, Blue, as well as the synchronization signals VSync and HSync from your design and the SimIO component. The Python GUI (virtual VGA screen) receives live data from the simulation and displays the image. The library builds on the SystemVerilog Direct Programming Interface (DPI) and is simulator-agnostic.
Important
📐 Please note that the library is work in progress. Please feel free to open a PR for bugfixes or added components.
The diagram above depicts the structure of the library. The testbench includes a SystemVerilog instance of each used SimIO component (simio_*.sv) and connects the needed signals. All communication to the server is handled inside the SimIO component. Input data is converted into a JSON string that is sent to the server and can be received by the Python GUI. Outputs of the SimIO component (that are connected to inputs of your DUT) are communicated from the GUI to the SimIO component analogously.
The example shows the data flow for an SSD1306 OLED display with SPI interface. simio_ssd1306_spi4.sv implements the SystemVerilog model that can be instantiated in the simulation. It receives the data and maintains an internal state, e.g., the addressing mode it is configured to. The hardware-specific configuration is converted into a display-generic interpretation, e.g., (a) display inverted: true/false, (b) display pixel data, etc. This information is parsed to a JSON string by json.sv. Once parsed, the DPI-C is used to communicate with a Python socket server by sock.sv. It receives the JSON string and distributes it to all clients connected to the server. In this example, it is gui_display_bw.py, a generic black-and-white display. An identifier prefixes each JSON string, so only the addressed client will process it. The client decodes the data and, in the case of the display GUI, draws the data on a tkinter canvas.
This Quickstart demonstrates how to get started by example.
Prepare the virtual environment and activate it in all shell sessions.
git submodule update --init
python3 -m venv .venv
source .venv/bin/activate
pip3 install -r requirements.txtThe server must be running to exchange data between the graphical user interfaces and the simulation. Start it with
python3 server/server.pyIn this example, the DUT is a simple 2-output blinker. Each output has an individual enable signal. To test it, the Gamepad SimIO component is used. Two buttons of the Gamepad are wired to the enable signals. The corresponding outputs are connected to the status LEDs in the Gamepad. The Gamepad has two modes: either buttons are only high while the corresponding key is pressed, or the keys are captured until pressed a second time. Use the spacebar to toggle the mode.
| DUT | SimIO Component |
|---|---|
blink2en dut (
.clk_i ( clk_i ),
.rst_in ( rst_in ),
.en1_i ( en1 ),
.en2_i ( en2 ),
.out1_o ( out1 ),
.out2_o ( out2 )
); |
gamepad i_gamepad (
.clk_i ( clk_i ),
.led1_i ( out1 ),
.led2_i ( out2 ),
.key_up_o ( /* not needed here */ ),
.key_down_o ( /* not needed here */ ),
.key_right_o ( /* not needed here */ ),
.key_left_o ( /* not needed here */ ),
.key_a_o ( en1 ),
.key_b_o ( en2 )
); |
Run GUI (make sure that the server is already running)
python components/gui/gamepad/gui_gamepad.py -sRun simulation
make example.gamepad
./examples/gamepad/obj_dir/Vgamepad_wrapperThe VGA example shows how a virtual display can be used for different VGA resolutions (and timings), as shown by some TinyTapeout projects.
Design: Tiny Shader by Leo Moser
Run GUI (make sure that the server is already running)
python components/gui/display/gui_display_vga.py -s --width 640 --height 480 --low-active \
--h-front-porch 16 --h-sync-pulse 96 --h-back-porch 48 \
--v-front-porch 10 --v-sync-pulse 2 --v-back-porch 33 Run simulation
make example.vga.shader
./examples/vga/shader/obj_dir/Vsim_vga_wrapperDesign: One Sprite Pony by Leo Moser
Run GUI (make sure that the server is already running)
python components/gui/display/gui_display_vga.py -s --width 800 --height 600 \
--h-front-porch 40 --h-sync-pulse 128 --h-back-porch 88 \
--v-front-porch 1 --v-sync-pulse 4 --v-back-porch 23 Run simulation
make example.vga.sprite
./examples/vga/sprite/obj_dir/Vsim_vga_wrapperDesign: Tiny Tapeout Verilog Project - VGA donut by Andy Sloane
Run GUI (make sure that the server is already running)
python components/gui/display/gui_display_vga.py -s --width 640 --height 480 --low-active \
--h-front-porch 16 --h-sync-pulse 96 --h-back-porch 48 \
--v-front-porch 10 --v-sync-pulse 2 --v-back-porch 33 Run simulation
make example.vga.donut
cp -r examples/vga/donut/tt08-vga-donut/data examples/vga/donut/data
cd examples/vga/donut/obj_dir
./Vsim_vga_wrapperRun GUI (make sure that the server is already running)
python components/gui/display/gui_display_bw.py -s
Run simulation
make example.ssd1306
./examples/ssd1306/obj_dir/Vsimio_ssd1306_spi4| Name | Appearance | Features |
|---|---|---|
| Gamepad |  |
6 buttons, 2 status leds; toggle or invert buttons on key press |
| Display Black/White |  |
Generic Black-and-White display |
| Display VGA |  |
VGA Color display |