Current using Project X-Ray requires a bitstream “harness” which connects IO into the ROI.
Once you have the “harness” bitstream, you can place and route designs using only open source tools despite Project X-Ray still not understand how to configure the complete bitstream and IO tiles.
Currently supported boards are listed below, they are;
XC7Z010-1CLG400COnly the Zybo Z7-10 version of the board is currently supported.
Both the original Zybo and the Zybo Z7-20 are not supported.
Description from the Digilent website;
The Zybo Z7 is a feature-rich, ready-to-use embedded software and digital circuit development board built around the Xilinx Zynq-7000 family. This is the second generation update to the popular Zybo that was released in 2012. The Zynq family is based on the Xilinx All Programmable System-on-Chip (AP SoC) architecture, which tightly integrates a dual-core ARM Cortex-A9 processor with Xilinx 7-series Field Programmable Gate Array (FPGA) logic. The Zybo Z7 surrounds the Zynq with a rich set of multimedia and connectivity peripherals to create a formidable single-board computer, even before considering the flexibility and power added by the FPGA. The Zybo Z7‘s video-capable feature set, including a MIPI CSI-2 compatible Pcam connector, HDMI input, HDMI output, and high DDR3L bandwidth, was chosen to make it an affordable solution for the high end embedded vision applications that Xilinx FPGAs are popular for. Attaching additional hardware is made easy by the Zybo Z7’s Pmod connectors, allowing access to Digilent's catalog of over 70 Pmod peripheral boards, including motor controllers, sensors, displays, and more.
Supported harness configurations;
Currently supported boards are listed below, they are;
Harness which maps a board's switches, buttons and LEDs into the region of interest (plus clock).
Supported boards;
Harness which maps a board's PMOD connectors into the region of interest (plus a clock).
Supported boards;