# This will be the name of the output files name: bcdwafer wafers: ["B", "C", "D"] # round or square wafer shape: round # diameter/edge size of the wafer size: 300 # large or small markers and labels marker_size: large font_size: large # origin settings. x_origin can be left, right, or center. y_origin can # be top, bottom, or center. Using right or top implies that the X/Y values # for that axis are negative, or else we'll be drawing outside the image. x_origin: center y_origin: center # sensor X and Y values, in mm relative to the origin X: [0, 72.50, 125.57, 145.00, 125.57, 72.50, 0, -72.50, -125.57, -145.00, -125.57, -72.50, 0, 47.50, 82.27, 95.00, 82.27, 47.50, 0, -47.50, -82.27, -95.00, -82.27, -47.50, 38.97, 22.50, -38.97, -22.50, 0] Y: [145.00, 125.57, 72.50, 0, -72.50, -125.57, -145.00, -125.57, -72.50, 0, 72.50, 125.57, 95.00, 82.27, 47.50, 0, -47.50, -82.27, -95.00, -82.27, -47.50, 0, 47.50, 82.27, 22.50, -38.97, -22.50, 38.97, 0] # set this to either 0 or 1 for the initial sensor number (usually 1) start_sn: 1 # Normally, positive X is to the right, and positive Y is up. # These settings can be used to reverse one or both of these. reverse_x: false reverse_y: false # these are sensors whose labels need to be repositioned. Sensor numbers # start at start_sn. Directions are up, down, left, and right, and values # are multiples of the marker size. label_exceptions: { 2: { left: [1, 0] }, 3: { left: [1, 0] }, 4: { left: [1, 0] }, 5: { left: [1, 0] }, 6: { left: [1, 0] }, }