2,
style='romand',
line_width=0.044,
layer=l_smBeam)
]
xmax_cell = Cell('MerryChristmas')
for i, xmas_text in enumerate(xmas_texts):
xmas_text.translate(
tuple(
np.array(-xmas_text.bounding_box.mean(0)) +
np.array([20, -80 - i * 10.]))) # Center justify label
xmax_cell.add(xmas_text)
TopCell = Cell('GrowthTheoryTopCell')
TopCell.add(wheel1, origin=(-170., -50.), rotation=-90.)
TopCell.add(wheel2, origin=(-175., -50.), rotation=-90.)
TopCell.add(wheel3, origin=(0, -80))
TopCell.add(PitchDep, origin=(-200., -250.))
TopCell.add(LenWidDep, origin=(-200., -50.))
TopCell.add(xmax_cell, origin=(-110., 60.))
return TopCell
if __name__ == "__main__":
TopCell = make_theory_cell()
# Add the copied cell to a Layout and save
layout = Layout('LIBRARY')
layout.add(TopCell)
layout.save('GrowthTheoryCell_B.gds')
centerAlignField = Frame("CenterAlignField", (smFrameSize, smFrameSize), [])
# Add everything together to a top cell
topCell = Cell("TopCell")
topCell.add(lgField)
smFrameSpacing = 400 # Spacing between the three small frames
dx = smFrameSpacing + smFrameSize
dy = smFrameSpacing + smFrameSize
topCell.add(smField1, origin=(-dx / 2., dy / 2.))
topCell.add(smField2, origin=(dx / 2., dy / 2.))
topCell.add(smField3, origin=(-dx / 2., -dy / 2.))
topCell.add(smField4, origin=(dx / 2., -dy / 2.))
# topCell.add(centerAlignField, origin=(0., 0.))
# %%Create the layout and output GDS file
layout = Layout('LIBRARY', precision=1e-10)
wafer = MBEWafer('MembranesWafer',
wafer_r=wafer_r,
cells=[topCell],
cell_gap=CELL_GAP,
mkWidth=tDicingMarks,
cellsAtEdges=False)
file_string = str(waferVer)
filename = file_string.replace(' ', '_')
# Add pattern for ellipsometry check of SiO2 etching
size = 2000
rect = Rectangle((size / 2., size / 2.), (-size / 2., -size / 2.), layer=10)
rectCell = Cell('EtchCheckSquare')
rectCell.add(rect)
smField4.make_many_shapes(25, areas, pitch, shapes, skew, l_smBeam)
centerAlignField = Frame("CenterAlignField", (smFrameSize, smFrameSize), [])
# Add everything together to a top cell
topCell = Cell("TopCell")
# topCell.add(lgField)
smFrameSpacing = 400 # Spacing between the three small frames
dx = smFrameSpacing + smFrameSize
dy = smFrameSpacing + smFrameSize
topCell.add(smField1, origin=(-dx / 2., dy / 2.))
topCell.add(smField2, origin=(dx / 2., dy / 2.))
topCell.add(smField3, origin=(-dx / 2., -dy / 2.))
topCell.add(smField4, origin=(dx / 2., -dy / 2.))
# topCell.add(centerAlignField, origin=(0., 0.))
# %%Create the layout and output GDS file
layout = Layout('LIBRARY', precision=1e-10)
wafer = MBEWafer('MembranesWafer',
wafer_r=wafer_r,
cells=[topCell],
cell_gap=CELL_GAP,
mkWidth=tDicingMarks,
cellsAtEdges=False)
layout.add(wafer)
file_string = str(waferVer)
filename = file_string.replace(' ', '_') + '.gds'
layout.save(filename)