This fuzzer creates the tilegrid.json bitstream database This database contains segment definitions including base frame address and frame offsets

Example workflow for CLB: generate.tcl LOCs one LUT per segment column towards generating frame base addresses A reference bitstream is generated and then a series of bitstreams are generated each with one LUT bit toggled These are compared to find a toggled bit in the CLB segment column The resulting address is truncated to get the base frame address Finally, generate.py calculates the segment word offsets based on known segment column structure

Environment variables

XRAY_ROI This environment variable must be set with a valid ROI See database for example values

XRAY_ROI_FRAMES This can be set to a specific value to speed up processing and reduce disk space If you don't know where your ROI is, just set to to include all values (0x00000000:0xfffffff)

XRAY_ROI_GRID_* Optionally these as a small performance optimization: -XRAY_ROI_GRID_X1 -XRAY_ROI_GRID_X2 -XRAY_ROI_GRID_Y1 -XRAY_ROI_GRID_Y2 Which should, if unused, be set to -1, with this caveat: WARNING: CLB test generates this based on CLBs but implicitly includes INT Therefore, if you don‘t set an explicit XRAY_ROI_GRID_* it may fail if you don’t have a CLB*_L at left and a CLB*_R at right