Awesome
nextpnr-xilinx
nextpnr is a open-source multi-architecture place-and-route framework aimed at real-world FPGA silicon. This is an experiment to integrate nextpnr with RapidWright, an open interface into Xilinx FPGAs, and Project Xray, open bitstream documentation for xc7 FPGAs.
Currently two flows are supported:
- UltraScale+ with RapidWright database generation, bitstream generation using RapidWight and Vivado
- xc7 with Project Xray database generation, bitstream generation using FASM and Project Xray (no Vivado anywhere in the flow)
Prerequisites - UltraScale+
- Follow the RapidWright manual install instructions
- Make sure
$RAPIDWRIGHT_PATH
is set correctly for all further steps - Download a JAR of recent GSON
- Download and build Project Xray
- Install yosys
Prerequisites - Artix-7
- Run
git submodule init
andgit submodule update
to fetch the database and metadata - Download and build Project Xray
- Install yosys
A brief (academic) paper describing the Yosys+nextpnr flow can be found on arXiv.
Building - Artix-7
- Run
cmake -DARCH=xilinx .
- Run
make
(with -jN as appropriate)
Building - UltraScale+
- Run
cmake -DARCH=xilinx -DRAPIDWRIGHT_PATH=/path/to/rapidwright -DGSON_PATH=/path/to/gson-2.8.5.jar .
- Run
make
(with -jN as appropriate)
Building the Arty example - XRay database
- Run
pypy3 xilinx/python/bbaexport.py --device xc7a35tcsg324-1 --bba xilinx/xc7a35t.bba
(regular cpython works as well, but is a lot slower) - Run
./bba/bbasm --l xilinx/xc7a35t.bba xilinx/xc7a35t.bin
- Set
XRAY_DIR
to the path where Project Xray has been cloned and built (you may also need to patch out the Vivado check forutils/environment.sh
in Xray by removing this line and everything beyond it: https://github.com/SymbiFlow/prjxray/blob/80726cb73ba5c156549d98a2055f1ee3eff94530/utils/environment.sh#L52) - Run
attosoc.sh
inxilinx/examples/arty-a35
.
Building the zcu104 example - RapidWright
- Run
java -jar rapidwright_bbaexport.jar xczu7ev-ffvc1156-2-e xilinx/constids.inc xilinx/xczu7ev.bba
- Run
./bba/bbasm --l xilinx/xczu7ev.bba xilinx/xczu7ev.bin
- Run
blinky.sh
inxilinx/examples/zcu104
.
Creating chip database from RapidWright
-
Run
java -jar rapidwright_bbaexport.jar xczu2cg-sbva484-1-e xilinx/constids.inc xilinx/xczu2cg.bba
- This uses RapidWright to build a textual representation of a chip database for nextpnr
- Replace
xczu2cg-sbva484-1-e
and the bba filename with the device you want to target. You can build multiple databases for multiple devices if desired (subject to the support caveats above)
-
Run
./bba/bbasm --l xilinx/xczu2cg.bba xilinx/xczu2cg.bin
- This converts the text database from above to a binary database that nextpnr can mmap
-
See xilinx/examples for example scripts that run the Yosys/nextpnr/RapidWright flow, then use Vivado to write a Verilog simulation netlist.
Notes
-
Currently supported:
-
xc7 and xcup: LUTs (including fractured), FFs, DRAM (only RAM64X1D), carry (XORCY and MUXCY or CARRY4), SRL16E and SRLC32E (no cascading), BRAM and IO
-
xcup: OSERDESE3, ISERDESE3, IDDRE1, ODDRE1, IDELAYE3, ODELAYE3, IDELAYCTRL, BUFGCTRL, BUFG, BUFGCE, BUFG_PS, PLLE4_ADV, PLLE4_BASIC, MMCME4_ADV, MMCME4_BASIC, URAM288E, DSP48E2 (no cascading)
-
xc7: OSERDESE2, ISERDESE2, IDDR, ODDR, IDELAYE2, ODELAYE2, IDELAYCTRL, BUFGCTRL, BUFG, PLLE2_BASIC, PLLE2_ADV, DSP48E1 (cascading works)
-
Bels, tile wires and pips are deduplicated but nodes (connections between tile wires) are not. This means that databases for larger devices will be several gigabytes in size (but significantly smaller than a fully flat database).