Project Trellis enables a fully open-source flow for ECP5 FPGAs using Yosys for Verilog synthesis and nextpnr for place and route. Project Trellis itself provides the device database and tools for bitstream creation.
Install the dependencies for Project Trellis:
- Python 3.5 or later, including development libraries (
python3-dev
on Ubuntu) - A modern C++14 compiler (Clang is recommended)
- CMake 3.5 or later
- Boost including boost-python
- Git
- Recent OpenOCD for device programming (
--enable-ftdi
required if building from source)
Clone the Project Trellis repository and download the latest database:
git clone --recursive https://github.com/YosysHQ/prjtrellis
Install libtrellis and associated tools. You must run cmake
from the libtrellis directory.
Out-of-tree builds are currently unsupported when coupled with nextpnr
:
cd libtrellis
cmake -DCMAKE_INSTALL_PREFIX=/usr .
make
sudo make install
Clone and install latest git master versions (Yosys 0.8 is not sufficient for ECP5 development) of Yosys
and nextpnr according to their own instructions. Ensure
to include the ECP5 architecture when building nextpnr; and point it towards your prjtrellis
folder. (for example: cmake -DARCH=ecp5 -DTRELLIS_INSTALL_PREFIX=/usr .
)
You should now be able to build the examples.
The following features are currently working in the Yosys/nextpnr/Trellis flow.
- Logic slice functionality, including carries
- Distributed RAM inside logic slices
- All internal interconnect
- Basic IO, including tristate, using
TRELLIS_IO
primitives; LPF files and DDR inputs/outputs - Block RAM, using either inference in Yosys or manual instantiation of the DP16KD primitive
- Multipliers using manual instantiation of the MULT18X18D primitive. Inference and more advanced DSP features are not yet supported.
- Global networks (automatically promoted and routed in nextpnr)
- PLLs
- Transcievers (DCUs)
Project Trellis supports all ECP5 devices and should work with any development board. The following boards have been tested and confirmed working:
- Lattice ECP5-5G Versa Development Kit
- Lattice ECP5 Evaluation Board
- Radiona ULX3S (open hardware)
- TinyFPGA Ex (coming soon)
Project Trellis documents the Lattice ECP5 bit-stream format and internal architecture. Current documentation is located in machine-readable format in prjtrellis-db and is also published online as HTML.
This repository contains both tools and scripts which allow you to document the bit-stream format of Lattice ECP5 series FPGAs.
More documentation can be found published on prjtrellis ReadTheDocs site - this includes;
This follows the lead of Project X-Ray - which is documenting the bitstream format for the Xilinx Series 7 devices.
Currently Project Trellis is tested on Arch Linux, Ubuntu 17.10 and Ubuntu 16.04.
Install the dependencies:
- Lattice Diamond 3.10 (only required if you want to run fuzzers, not required as an end user or to explore the database)
- Python 3.5 or later, including development libraries (
python3-dev
on Ubuntu) - A modern C++14 compiler (Clang is recommended)
- CMake 3.5 or later
- Boost including boost-python
For a generic environment:
source environment.sh
Optionally, modify user_environment.sh
and rerun the above command if needed.
Build libtrellis:
cd libtrellis
cmake .
make
(Re-)creating parts of the database, for example LUT interconnect:
cd fuzzers/ECP5/001-plc2_routing
TRELLIS_JOBS=`nproc` python3 fuzzer.py
The documentation is done through a "black box" process were Diamond is asked to generate a large number of designs which then used to create bitstreams. The resulting bit streams are then cross correlated to discover what different bits do.
This follows the same process as Project X-Ray - more documentation can be found here.
There are also "minitests" which are small tests of features used to build fuzers.
Fuzzers are the scripts which generate the large number of bitstream.
They are called "fuzzers" because they follow an approach similar to the idea of software testing through fuzzing.
Miscellaneous tools for exploring the database and experimenting with bitstreams.
Python libraries used for fuzzers and other purposes
libtrellis is a library for manipulating ECP5 bitstreams, tiles and the Project Trellis databases. It is written with C++, with Python bindings exposed using Boost::Python so that fuzzers and utilities can be written in Python.
Instead of downloading the compiled part database, it can also be created from scratch. However, this procedure takes several hours, even on a decent workstation. First, the empty reference bitstreams and the tile layout must be created based on the initial knowledge provided in the metadata directory. Then, running all fuzzers in order will produce a database which documents the bitstream format in the database directory.
UMG and UM5G devices may be stripped from devices.json to ceate the database only for non-SERDES chip variants. Obviously, SERDES related fuzzers are not able to run in this case.
source environment.sh
./create-empty-db.sh
cd fuzzers/ECP5/001-plc2_routing
TRELLIS_JOBS=`nproc` python3 fuzzer.py
... (run more fuzzers)
Thanks to @tinyfpga for the original inspiration, and @mithro for the name and initial support.
Thanks to @q3k, @emard and @tinyfpga for their donations of ECP5 hardware that have made real-world testing and demos possible.
There are a couple of guidelines when contributing to Project Trellis which are listed here.
All contributions should be sent as GitHub Pull requests.
All code in the Project Trellis repository is licensed under the very permissive
ISC Licence. A copy can be found in the COPYING
file.
All new contributions must also be released under this license.
By contributing you agree to the code of conduct. We follow the open source best practice of using the Contributor Covenant for our Code of Conduct.