First verification results.

All seem to be working well, RO may be too fast to still get data out.
1 file changed
tree: ddf55b9c84421fe902e2560c447cccb1b8918015
  1. .github/
  2. design/
  3. docs/
  4. doitcode/
  5. gds/
  6. mag/
  7. netgen/
  8. openlane/
  9. verilog/
  10. xschem/
  11. .gitignore
  12. .gitlab-ci.yml
  13. dodo.py
  14. IOBlock.png
  15. IORO.png
  16. LICENSE
  17. Makefile
  18. README.md
  19. user_analog_project_wrapper.png
README.md

Higher speed IO test chip

This is an alpha of a set of IO pad cells that should allow higher speed IO than the original Skywater IO cells. As no real guidelines are available for designing own ESD and latch-up the design of the Skywater has been used as inspiration for the design of the combine output driver/ESD clamp. Currently only a snapback ESD clamp is used and no active clamp is used on the vdd/iovdd nets.

Cell set

A (minimal set) of IO pad cells is included that are meant to be put abutted next to each.This will generate an IO ring with lanes for the iovdd, iovss, vdd and vss DC connection needed by all the IO cells. Included cells

  • IOPadVdd: the pad for the 1.8V core vdd connection;
  • IOPadVss: the pad for the core vss connection;
  • IOPadIOVdd: the pad for the 3.3V IO vdd connection
  • IOPadIOVss: the pad for the IO vss connection
  • IOPadIn: the pad for an input pin to the core; the core 1.8V pins:
    • s (sense): the data sensed on the IO pad
  • IOPadOut: the pad for an output of the core; the core 1.8V pins:
    • d (drive): the logic value for the output
    • de (drive enable): wether to enable the output. If value is logic 0 the pad will be in high impedance state
  • IOPadInOut: the for an input/output to/from the core; the core 1.8V pins:
    • s (sense): the data sensed on the IO pad
    • d (drive): the logic value for the output
    • de (drive enable): wether to enable the output. If value is logic 0 the pad will be in high impedance state

Design top (user_analog_project_wrapper)

This project uses the caravan top cell using the 11 analog connections to connect to the IO pads without external ESD protection load etc. on the signal.

user_analog_project_wrapper

The design contains two blocks located near the top of the design. The first at the top is a set of IO pads. This set has all signals including the core 1.8V signal connected out to the caravan analog pads. The second below is a set making a 5 stage ring-oscillator with IO pads; each stage consist of a IOPadIn and IOPadOut IO cell.

Following is a table with the signal and corresponding caravan pin on the design:

caravan pininternal signalcellDescription
io_analog[0]vssIOBlock&IOROcore ground
io_analog[1]vddIOBlock&IOROcore 1.8V supply
io_analog[2]ioout_padIOBlockpad of IOPadOut
io_analog[3]ioinout_padIOBlockpad of IOPadInOut
io_analog[4]d_coreIOBlockshared d signal for IOPadOut & IOPadInOut
io_analog[5]de_coreIOBlockshared de signal for IOPadOut & IOPadInOut
io_analog[6]ioinout_coreIOBlocks signal of IOPadInOut
io_analog[7]ioin_coreIOBlocks signal of IOPadIn
io_analog[8]ioin_padIOBlockpad of IOPadIn
io_analog[9]iovddIOBlock&IOROIO 3.3V supply
io_analog[10]iovssIOBlock&IOROIO ground
gpio_analog[4]ro_deIOROshared de signal of all IOPadOut cells
gpio_analog[5]ro_enIORORO enable signal
gpio_noesd[7]ro_outIORORO output

IOBlock

Close up of the subcell with the connected out cells:

IOBlock

IORO

Close up of the subcell with the ring-oscillator with stages from IO cells:

IORO

Next to the supply/ground signals the block has three external signals:

  • ro_de: this is connect to the de signal of all 5 IOPadOut IO pad cells so they can all be put in high impedance state
  • ro_en: this signal allows to enable/disable the oscilation of the RO. This signal is connected to a NAND2 gate, the other input is connected to the s signal of the first IOPadIn cell, the output of the NAND2 is connected the the d signal of the last IOPadOut cell.
  • ro_out: this is the buffered output of the RO. It is the output of a buf_x4 cell with the input the s signal of the first IOPadIn cell.

Source

The top level is fully generated from python code in the doitcode subdirectory. pydoit is used to generate the desig with the provided dodo.py file in the top directory. The code depends on some external modules that are assumed to be installed:

  • PDKMaster: python framework (under heavy development) to ease generation of circuits and corresponding DRC compliant layout. This based on a description of a technology with python souce code to allow easy porting to different technologies.
  • c4m-flexcell: a (currently minimal) standard cell library based on PDKMaster
  • c4m-flexio: the source for the IO pad cells used for this design
  • c4m-pdk-sky130: the source for the PDKMaster based PDK for the Sky130 technology.

License

The resulting GDS files is released under the LGPL 2.1 or later license. Some of the source code to generate the GDS is under the GPL 2.0 or later license.