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foss-eda-tools / third_party / shuttle / sky130 / mpw-008 / slot-001 / f95c970e2eff6b0ae90bcdd9ccba2b208ec93bfd
commitf95c970e2eff6b0ae90bcdd9ccba2b208ec93bfd[log] [tgz]
authorSean Cross <sean@xobs.io>Wed Dec 28 14:05:08 2022 +0800
committerSean Cross <sean@xobs.io>Wed Dec 28 14:05:08 2022 +0800
tree240b4521439b0648abebfbea94643f61b5ebef8e
parente85588c3a388b35767da03a916627318a2c02c77 [diff]
release: check in synthesized wb_pio files

Add the output from the following:

    make wb_pio
    make user_project_wrapper`
    make compress

Signed-off-by: Sean Cross <sean@xobs.io>
50 files changed
tree: 240b4521439b0648abebfbea94643f61b5ebef8e
  1. .github/
  2. def/
  3. docs/
  4. gds/
  5. lef/
  6. lib/
  7. mag/
  8. maglef/
  9. openlane/
  10. sdc/
  11. sdf/
  12. signoff/
  13. spef/
  14. spi/
  15. verilog/
  16. .gitignore
  17. .gitmodules
  18. activate-caravel.sh
  19. LICENSE
  20. Makefile
  21. README.md
README.md

PIO on GF180 (with Caravel)

License UPRJ_CI Caravel Build

A project designed to demonstrate Raspberry Pi PIO on GF180 using the Caravel harness.

Refer to README for a quickstart of how to use caravel_user_project

Refer to README for this sample project documentation.

Building the Project

You will need a Linux environment with Docker. Once you have that, you can set things up:

mkdir -p deps
export OPENLANE_ROOT=$(pwd)/deps/openlane_src # you need to export this whenever you start a new shell
export PDK_ROOT=$(pwd)/deps/pdks # you need to export this whenever you start a new shell
export PDK=gf180mcuC # you can also use sky130B

These steps are included in activate-caravel.sh, which you can just source.

Next, do a one-time setup of the project.

make setup

Next, perform the synthesis, which will take anywhere between 30 minutes and 3 hours:

make wb_pio

When it's done, the resulting files will be in openlane/wb_pio/runs/$CURRENT_DATE_TIME/results/final/.

Running the testbench

You can run the testbench using iverilog, which will generate a .vcd file:

make verify-wb_pio_test-rtl

You can then inspect the .vcd file by using a tool such as gtkwave to view verilog/dv/wb_pio_test/RTL-wb_pio_test.vcd