mirror of https://github.com/VLSIDA/OpenRAM.git
102 lines
3.0 KiB
Python
102 lines
3.0 KiB
Python
import os
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import gdsMill
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import tech
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import globals
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from vector import vector
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from pin_layout import pin_layout
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OPTS = globals.OPTS
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def snap_to_grid(offset):
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"""
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Changes the coodrinate to match the grid settings
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"""
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grid = tech.drc["grid"]
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x = offset[0]
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y = offset[1]
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# this gets the nearest integer value
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xgrid = int(round(round((x / grid), 2), 0))
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ygrid = int(round(round((y / grid), 2), 0))
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xoff = xgrid * grid
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yoff = ygrid * grid
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out_offset = [xoff, yoff]
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return out_offset
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def pin_center(boundary):
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"""
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This returns the center of a pin shape in the vlsiLayout border format.
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"""
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return [0.5 * (boundary[0] + boundary[2]), 0.5 * (boundary[1] + boundary[3])]
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def pin_rect(boundary):
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"""
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This returns a LL,UR point pair.
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"""
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return [vector(boundary[0],boundary[1]),vector(boundary[2],boundary[3])]
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def auto_measure_libcell(pin_list, name, units, layer):
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"""
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Open a GDS file and find the pins in pin_list as text on a given layer.
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Return these as a set of properties including the cell width/height too.
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"""
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cell_gds = OPTS.openram_tech + "gds_lib/" + str(name) + ".gds"
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cell_vlsi = gdsMill.VlsiLayout(units=units)
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reader = gdsMill.Gds2reader(cell_vlsi)
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reader.loadFromFile(cell_gds)
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cell = {}
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measure_result = cell_vlsi.getLayoutBorder(layer)
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if measure_result == None:
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measure_result = cell_vlsi.measureSize(name)
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[cell["width"], cell["height"]] = measure_result
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for pin in pin_list:
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(name,layer,boundary)=cell_vlsi.getPinShapeByLabel(str(pin))
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cell[str(pin)] = pin_center(boundary)
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return cell
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def get_libcell_size(name, units, layer):
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"""
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Open a GDS file and return the library cell size from either the
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bounding box or a border layer.
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"""
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cell_gds = OPTS.openram_tech + "gds_lib/" + str(name) + ".gds"
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cell_vlsi = gdsMill.VlsiLayout(units=units)
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reader = gdsMill.Gds2reader(cell_vlsi)
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reader.loadFromFile(cell_gds)
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cell = {}
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measure_result = cell_vlsi.getLayoutBorder(layer)
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if measure_result == None:
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measure_result = cell_vlsi.measureSize(name)
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# returns width,height
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return measure_result
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def get_libcell_pins(pin_list, name, units, layer):
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"""
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Open a GDS file and find the pins in pin_list as text on a given layer.
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Return these as a rectangle layer pair for each pin.
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"""
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cell_gds = OPTS.openram_tech + "gds_lib/" + str(name) + ".gds"
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cell_vlsi = gdsMill.VlsiLayout(units=units)
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reader = gdsMill.Gds2reader(cell_vlsi)
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reader.loadFromFile(cell_gds)
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cell = {}
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for pin in pin_list:
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cell[str(pin)]=[]
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label_list=cell_vlsi.getPinShapeByLabel(str(pin))
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for label in label_list:
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(name,layer,boundary)=label
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rect = pin_rect(boundary)
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# this is a list because other cells/designs may have must-connect pins
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cell[str(pin)].append(pin_layout(pin, rect, layer))
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return cell
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