mirror of https://github.com/VLSIDA/OpenRAM.git
107 lines
3.8 KiB
Python
107 lines
3.8 KiB
Python
# See LICENSE for licensing information.
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#
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# Copyright (c) 2016-2021 Regents of the University of California and The Board
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# of Regents for the Oklahoma Agricultural and Mechanical College
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# (acting for and on behalf of Oklahoma State University)
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# All rights reserved.
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#
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from datetime import datetime
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import debug
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from globals import print_time
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from .router import router
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from .signal_grid import signal_grid
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class signal_escape_router(router):
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"""
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A router that routes signals to perimeter and makes pins.
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"""
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def __init__(self, layers, design, bbox=None, margin=0):
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"""
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This will route on layers in design. It will get the blockages from
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either the gds file name or the design itself (by saving to a gds file).
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"""
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router.__init__(self,
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layers=layers,
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design=design,
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bbox=bbox,
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margin=margin)
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def perimeter_dist(self, pin_name):
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"""
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Return the shortest Manhattan distance to the bounding box perimeter.
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"""
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loc = self.cell.get_pin(pin_name).center()
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x_dist = min(loc.x - self.ll.x, self.ur.x - loc.x)
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y_dist = min(loc.y - self.ll.y, self.ur.y - loc.y)
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return min(x_dist, y_dist)
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def escape_route(self, pin_names):
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"""
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Takes a list of tuples (name, side) and routes them. After routing,
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it removes the old pin and places a new one on the perimeter.
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"""
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self.create_routing_grid(signal_grid)
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start_time = datetime.now()
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self.find_pins_and_blockages(pin_names)
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print_time("Finding pins and blockages",datetime.now(), start_time, 3)
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# Order the routes by closest to the perimeter first
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# This prevents some pins near the perimeter from being blocked by other pins
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ordered_pin_names = sorted(pin_names, key=lambda x: self.perimeter_dist(x))
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# Route the supply pins to the supply rails
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# Route vdd first since we want it to be shorter
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start_time = datetime.now()
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for pin_name in ordered_pin_names:
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self.route_signal(pin_name)
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# if pin_name == "dout0[1]":
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# self.write_debug_gds("postroute.gds", True)
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print_time("Maze routing pins",datetime.now(), start_time, 3)
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#self.write_debug_gds("final_escape_router.gds",False)
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return True
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def route_signal(self, pin_name, side="all"):
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for detour_scale in [5 * pow(2, x) for x in range(5)]:
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debug.info(1, "Escape routing {0} with scale {1}".format(pin_name, detour_scale))
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# Clear everything in the routing grid.
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self.rg.reinit()
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# This is inefficient since it is non-incremental, but it was
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# easier to debug.
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self.prepare_blockages()
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self.clear_blockages(pin_name)
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# Add the single component of the pin as the source
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# which unmarks it as a blockage too
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self.add_source(pin_name)
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# Marks the grid cells all along the perimeter as a target
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self.add_perimeter_target(side)
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# if pin_name == "dout0[3]":
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# self.write_debug_gds("pre_route.gds", False)
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# breakpoint()
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# Actually run the A* router
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if self.run_router(detour_scale=detour_scale):
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new_pin = self.get_perimeter_pin()
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self.cell.replace_layout_pin(pin_name, new_pin)
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return
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# if pin_name == "dout0[3]":
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# self.write_debug_gds("pre_route.gds", False)
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# breakpoint()
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self.write_debug_gds("debug_route.gds", True)
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