New ARTIQ compiler, third iteration
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ARTIQ on Zynq

How to use

  1. Install ARTIQ-6 or newer.
  2. Select the latest successful build on Hydra: https://nixbld.m-labs.hk/jobset/artiq/zynq
  3. Search for the job named <board>-<variant>-sd (for example: zc706-nist_clock-sd or zc706-nist_qc2-sd).
  4. Download the boot.bin "binary distribution" and place it at the root of a FAT-formatted SD card.
  5. Optionally, create a config.txt configuration file at the root of the SD card containing key=value pairs on each line. Use the ip, ip6 and mac keys to respectively set the IPv4, IPv6 and MAC address of the board. Configuring an IPv6 address is entirely optional. If these keys are not found, the firmware will use default values that may or may not be compatible with your network.
  6. Insert the SD card into the board and set up the board to boot from the SD card. For the ZC706, this is achieved by placing the large DIP switch SW11 in the 00110 position.
  7. Power up the board. After the firmware starts successfully, it should respond to ping at its IP addresses, and boot messages can be observed from its UART at 115200bps.
  8. Create and use an ARTIQ device database as usual, but set "target": "cortexa9" in the arguments of the core device.

Configuration

Configuring the device is done using the config.txt text file at the root of the SD card, plus the contents of the config folder. When searching for a configuration key, the firmware first looks for a file named /config/[key].bin and, if it exists, returns the contents of that file. If not, it looks into /config.txt, which contains a list of key=value pairs, one per line. The config folder allows configuration values that consist in binary data, such as the startup kernel.

The following configuration keys are available:

  • mac: Ethernet MAC address.
  • ip: IPv4 address.
  • ip6: IPv6 address.
  • startup: startup kernel in ELF format (as produced by artiq_compile).
  • rtioclk: source of RTIO clock; valid values are external and internal.
  • boot: SD card "boot.bin" file, for replacing the boot firmware/gateware. Write only.

Configurations can be read/written/removed via artiq_coremgmt. Config erase is not implemented as it seems not very useful.

Development instructions

Configure Nix channels:

nix-channel --add https://nixbld.m-labs.hk/channel/custom/artiq/fast-beta/artiq-fast
nix-channel --update

Note: if you are using Nix channels the first time, you need to be aware of this bug: https://github.com/NixOS/nix/issues/3831

Pure build with Nix and execution on a remote JTAG server:

nix-build -A zc706-simple-jtag  # or zc706-nist_qc2-jtag or zc706-nist_clock-jtag
./remote_run.sh

Impure incremental build and execution on a remote JTAG server:

nix-shell
cd src
gateware/zc706.py -g ../build/gateware  # build gateware
make                                    # build firmware
cd ..
./remote_run.sh -i

Notes:

  • This is developed with Nixpkgs 20.09, and the nixbld.m-labs.hk binary substituter can also be used here (see the ARTIQ manual for the public key and instructions).
  • The impure build process is also compatible with non-Nix systems.
  • If the board is connected to the local machine, use the local_run.sh script.
  • To update zynq-rs, update the cargo files as per usual for Rust projects, but also keep zynq-rs.nix in sync.

License

Copyright (C) 2019-2020 M-Labs Limited.

ARTIQ is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.

ARTIQ is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public License along with ARTIQ. If not, see http://www.gnu.org/licenses/.