OpenRAM/compiler/modules/delay_chain.py

# See LICENSE for licensing information.
#
# Copyright (c) 2016-2021 Regents of the University of California and The Board
# of Regents for the Oklahoma Agricultural and Mechanical College
# (acting for and on behalf of Oklahoma State University)
# All rights reserved.
#
import debug
import design
from vector import vector
from globals import OPTS
from sram_factory import factory


class delay_chain(design.design):
    """
    Generate a delay chain with the given number of stages and fanout.
    Input is a list contains the electrical effort (fanout) of each stage.
    Usually, this will be constant, but it could have varied fanout.
    """

    def __init__(self, name, fanout_list):
        """init function"""
        super().__init__(name)
        debug.info(1, "creating delay chain {0}".format(str(fanout_list)))
        self.add_comment("fanouts: {0}".format(str(fanout_list)))

        # Two fanouts are needed so that we can route the vdd/gnd connections
        for f in fanout_list:
            debug.check(f>=2, "Must have >=2 fanouts for each stage.")

        # number of inverters including any fanout loads.
        self.fanout_list = fanout_list

        self.create_netlist()
        if not OPTS.netlist_only:
            self.create_layout()

    def create_netlist(self):
        self.add_modules()
        self.add_pins()
        self.create_inverters()

    def create_layout(self):
        # Each stage is a a row
        self.height = len(self.fanout_list) * self.inv.height
        # The width is determined by the largest fanout plus the driver
        self.width = (max(self.fanout_list) + 1) * self.inv.width

        self.place_inverters()
        self.route_inverters()
        self.route_supplies()
        self.add_layout_pins()
        self.add_boundary()
        self.DRC_LVS()

    def add_pins(self):
        """ Add the pins of the delay chain"""
        self.add_pin("in", "INPUT")
        self.add_pin("out", "OUTPUT")
        self.add_pin("vdd", "POWER")
        self.add_pin("gnd", "GROUND")

    def add_modules(self):
        self.inv = factory.create(module_type="pinv")
        self.add_mod(self.inv)

    def create_inverters(self):
        """ Create the inverters and connect them based on the stage list """
        self.driver_inst_list = []
        self.load_inst_map = {}
        for stage_num, fanout_size in zip(range(len(self.fanout_list)), self.fanout_list):
            # Add the inverter
            cur_driver=self.add_inst(name="dinv{}".format(stage_num),
                                     mod=self.inv)
            # keep track of the inverter instances so we can use them to get the pins
            self.driver_inst_list.append(cur_driver)

            # Hook up the driver
            if stage_num + 1 == len(self.fanout_list):
                stageout_name = "out"
            else:
                stageout_name = "dout_{}".format(stage_num + 1)
            if stage_num == 0:
                stagein_name = "in"
            else:
                stagein_name = "dout_{}".format(stage_num)
            self.connect_inst([stagein_name, stageout_name, "vdd", "gnd"])

            # Now add the dummy loads to the right
            self.load_inst_map[cur_driver]=[]
            for i in range(fanout_size):
                cur_load=self.add_inst(name="dload_{0}_{1}".format(stage_num, i),
                                      mod=self.inv)
                # Fanout stage is always driven by driver and output is disconnected
                disconnect_name = "n_{0}_{1}".format(stage_num, i)
                self.connect_inst([stageout_name, disconnect_name, "vdd", "gnd"])

                # Keep track of all the loads to connect their inputs as a load
                self.load_inst_map[cur_driver].append(cur_load)

    def place_inverters(self):
        """ Place the inverters and connect them based on the stage list """
        for stage_num, fanout_size in zip(range(len(self.fanout_list)), self.fanout_list):
            if stage_num % 2:
                inv_mirror = "MX"
                inv_offset = vector(0, (stage_num + 1) * self.inv.height)
            else:
                inv_mirror = "R0"
                inv_offset = vector(0, stage_num * self.inv.height)

            # Add the inverter
            cur_driver=self.driver_inst_list[stage_num]
            cur_driver.place(offset=inv_offset,
                             mirror=inv_mirror)

            # Now add the dummy loads to the right
            load_list = self.load_inst_map[cur_driver]
            for i in range(fanout_size):
                inv_offset += vector(self.inv.width, 0)
                load_list[i].place(offset=inv_offset,
                                   mirror=inv_mirror)

    def add_route(self, pin1, pin2):
        """ This guarantees that we route from the top to bottom row correctly. """
        pin1_pos = pin1.center()
        pin2_pos = pin2.center()
        if pin1_pos.y == pin2_pos.y:
            self.add_path("m2", [pin1_pos, pin2_pos])
        else:
            mid_point = vector(pin2_pos.x, 0.5 * (pin1_pos.y + pin2_pos.y))
            # Written this way to guarantee it goes right first if we are switching rows
            self.add_path("m2", [pin1_pos, vector(pin1_pos.x, mid_point.y), mid_point, vector(mid_point.x, pin2_pos.y), pin2_pos])

    def route_inverters(self):
        """ Add metal routing for each of the fanout stages """

        for i in range(len(self.driver_inst_list)):
            inv = self.driver_inst_list[i]
            for load in self.load_inst_map[inv]:
                # Drop a via on each A pin
                a_pin = load.get_pin("A")
                self.add_via_stack_center(from_layer=a_pin.layer,
                                          to_layer="m3",
                                          offset=a_pin.center())

            # Route an M3 horizontal wire to the furthest
            z_pin = inv.get_pin("Z")
            a_pin = inv.get_pin("A")
            a_max = self.load_inst_map[inv][-1].get_pin("A")
            self.add_via_stack_center(from_layer=a_pin.layer,
                                      to_layer="m2",
                                      offset=a_pin.center())
            self.add_via_stack_center(from_layer=z_pin.layer,
                                      to_layer="m3",
                                      offset=z_pin.center())
            self.add_path("m3", [z_pin.center(), a_max.center()])

            # Route Z to the A of the next stage
            if i + 1 < len(self.driver_inst_list):
                z_pin = inv.get_pin("Z")
                next_inv = self.driver_inst_list[i + 1]
                next_a_pin = next_inv.get_pin("A")
                y_mid = (z_pin.cy() + next_a_pin.cy()) / 2
                mid1_point = vector(z_pin.cx(), y_mid)
                mid2_point = vector(next_a_pin.cx(), y_mid)
                self.add_path("m2", [z_pin.center(), mid1_point, mid2_point, next_a_pin.center()])

    def route_supplies(self):
        # Add power and ground to all the cells except:
        # the fanout driver, the right-most load
        # The routing to connect the loads is over the first and last cells
        # We have an even number of drivers and must only do every other
        # supply rail

        for inst in self.driver_inst_list:
            load_list = self.load_inst_map[inst]
            for pin_name in ["vdd", "gnd"]:
                pin = load_list[0].get_pin(pin_name)
                self.copy_power_pin(pin, loc=pin.rc() - vector(self.m1_pitch, 0))

                pin = load_list[-2].get_pin(pin_name)
                self.copy_power_pin(pin, loc=pin.rc() - vector(self.m1_pitch, 0))

    def add_layout_pins(self):

        # input is A pin of first inverter
        a_pin = self.driver_inst_list[0].get_pin("A")
        self.add_via_stack_center(from_layer=a_pin.layer,
                                  to_layer="m2",
                                  offset=a_pin.center())
        self.add_layout_pin(text="in",
                            layer="m2",
                            offset=a_pin.ll().scale(1, 0),
                            height=a_pin.cy())

        # output is A pin of last load inverter
        last_driver_inst = self.driver_inst_list[-1]
        a_pin = self.load_inst_map[last_driver_inst][-1].get_pin("A")
        self.add_via_stack_center(from_layer=a_pin.layer,
                                  to_layer="m2",
                                  offset=a_pin.center())
        mid_point = vector(a_pin.cx() + 3 * self.m2_width, a_pin.cy())
        self.add_path("m2", [a_pin.center(), mid_point, mid_point.scale(1, 0)])
        self.add_layout_pin_segment_center(text="out",
                                           layer="m2",
                                           start=mid_point,
                                           end=mid_point.scale(1, 0))
Update copyright. Add header to all OpenRAM files. 2019-04-26 21:21:50 +02:00			`# See LICENSE for licensing information.`
			`#`
Update copyright year. 2021-01-22 20:23:28 +01:00			`# Copyright (c) 2016-2021 Regents of the University of California and The Board`
Fix space before comment 2019-06-14 17:43:41 +02:00			`# of Regents for the Oklahoma Agricultural and Mechanical College`
			`# (acting for and on behalf of Oklahoma State University)`
			`# All rights reserved.`
Update copyright. Add header to all OpenRAM files. 2019-04-26 21:21:50 +02:00			`#`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`import debug`
			`import design`
			`from vector import vector`
			`from globals import OPTS`
First draft of sram_factory code 2019-01-17 01:15:38 +01:00			`from sram_factory import factory`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00
PEP8 cleanup 2020-04-22 00:36:38 +02:00
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`class delay_chain(design.design):`
			`"""`
Update golden lib tests. Add new generic SCMOS models. Fix tech error with new msflop_in_cap name. 2018-02-14 00:54:50 +01:00			`Generate a delay chain with the given number of stages and fanout.`
Fix s_en stages to be even per Kevin's bug report. Assert minimum fanout to ensure vdd/gnd connections. 2018-07-19 19:51:20 +02:00			`Input is a list contains the electrical effort (fanout) of each stage.`
			`Usually, this will be constant, but it could have varied fanout.`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`"""`

First draft of sram_factory code 2019-01-17 01:15:38 +01:00			`def __init__(self, name, fanout_list):`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`"""init function"""`
Change inheritance inits to use super 2020-08-06 20:33:26 +02:00			`super().__init__(name)`
Added some comments to the spice files. 2019-01-26 00:00:00 +01:00			`debug.info(1, "creating delay chain {0}".format(str(fanout_list)))`
			`self.add_comment("fanouts: {0}".format(str(fanout_list)))`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Fix s_en stages to be even per Kevin's bug report. Assert minimum fanout to ensure vdd/gnd connections. 2018-07-19 19:51:20 +02:00			`# Two fanouts are needed so that we can route the vdd/gnd connections`
Change RBL to allow stages and FO for configuration 2018-02-16 20:51:01 +01:00			`for f in fanout_list:`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`debug.check(f>=2, "Must have >=2 fanouts for each stage.")`
Change RBL to allow stages and FO for configuration 2018-02-16 20:51:01 +01:00
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`# number of inverters including any fanout loads.`
			`self.fanout_list = fanout_list`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`self.create_netlist()`
			`if not OPTS.netlist_only:`
			`self.create_layout()`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`def create_netlist(self):`
			`self.add_modules()`
Clean up new code for add_modules, add_pins and netlist/layouts. 2018-08-28 19:24:09 +02:00			`self.add_pins()`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`self.create_inverters()`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`def create_layout(self):`
			`# Each stage is a a row`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`self.height = len(self.fanout_list) * self.inv.height`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`# The width is determined by the largest fanout plus the driver`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`self.width = (max(self.fanout_list) + 1) * self.inv.width`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00
			`self.place_inverters()`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`self.route_inverters()`
Simplify supply contacts in delay chain. 2020-04-22 01:12:54 +02:00			`self.route_supplies()`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`self.add_layout_pins()`
Add boundary to every module and pgate for visual debug. 2019-05-28 01:32:38 +02:00			`self.add_boundary()`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`self.DRC_LVS()`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`def add_pins(self):`
			`""" Add the pins of the delay chain"""`
Add direction to pins of all modules 2019-08-06 23:14:09 +02:00			`self.add_pin("in", "INPUT")`
			`self.add_pin("out", "OUTPUT")`
			`self.add_pin("vdd", "POWER")`
			`self.add_pin("gnd", "GROUND")`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`def add_modules(self):`
Changes to allow decoder height to be a 2x multiple of bitcell height. Convert to use li layer in pgates. Fix multifinger devices with li layers. Simplify wordline driver input routing. Fix power pin direction option update. PEP8 cleanup Changes to simplify metal preferred directions and pitches. Split of control logic tests. 2020-04-23 23:43:54 +02:00			`self.inv = factory.create(module_type="pinv")`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`self.add_mod(self.inv)`

Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`def create_inverters(self):`
			`""" Create the inverters and connect them based on the stage list """`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`self.driver_inst_list = []`
			`self.load_inst_map = {}`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`for stage_num, fanout_size in zip(range(len(self.fanout_list)), self.fanout_list):`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`# Add the inverter`
			`cur_driver=self.add_inst(name="dinv{}".format(stage_num),`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`mod=self.inv)`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`# keep track of the inverter instances so we can use them to get the pins`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`self.driver_inst_list.append(cur_driver)`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`# Hook up the driver`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`if stage_num + 1 == len(self.fanout_list):`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`stageout_name = "out"`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`else:`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`stageout_name = "dout_{}".format(stage_num + 1)`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`if stage_num == 0:`
			`stagein_name = "in"`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`else:`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`stagein_name = "dout_{}".format(stage_num)`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`self.connect_inst([stagein_name, stageout_name, "vdd", "gnd"])`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`# Now add the dummy loads to the right`
			`self.load_inst_map[cur_driver]=[]`
			`for i in range(fanout_size):`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`cur_load=self.add_inst(name="dload_{0}_{1}".format(stage_num, i),`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`mod=self.inv)`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`# Fanout stage is always driven by driver and output is disconnected`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`disconnect_name = "n_{0}_{1}".format(stage_num, i)`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`self.connect_inst([stageout_name, disconnect_name, "vdd", "gnd"])`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`# Keep track of all the loads to connect their inputs as a load`
			`self.load_inst_map[cur_driver].append(cur_load)`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00
			`def place_inverters(self):`
			`""" Place the inverters and connect them based on the stage list """`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`for stage_num, fanout_size in zip(range(len(self.fanout_list)), self.fanout_list):`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`if stage_num % 2:`
			`inv_mirror = "MX"`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`inv_offset = vector(0, (stage_num + 1) * self.inv.height)`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`else:`
			`inv_mirror = "R0"`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`inv_offset = vector(0, stage_num * self.inv.height)`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`# Add the inverter`
Move place function to instance class rather than hierarchy. 2018-08-28 02:25:39 +02:00			`cur_driver=self.driver_inst_list[stage_num]`
			`cur_driver.place(offset=inv_offset,`
			`mirror=inv_mirror)`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`# Now add the dummy loads to the right`
Move place function to instance class rather than hierarchy. 2018-08-28 02:25:39 +02:00			`load_list = self.load_inst_map[cur_driver]`
Converted all modules to not run create_layout when netlist_only mode is enabled. 2018-08-28 01:42:48 +02:00			`for i in range(fanout_size):`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`inv_offset += vector(self.inv.width, 0)`
Move place function to instance class rather than hierarchy. 2018-08-28 02:25:39 +02:00			`load_list[i].place(offset=inv_offset,`
			`mirror=inv_mirror)`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Rewrite the parameterized transistor and gate classes. Changes propagate through all designs. All modules use instance and layout pins. 2017-12-12 23:53:19 +01:00			`def add_route(self, pin1, pin2):`
			`""" This guarantees that we route from the top to bottom row correctly. """`
			`pin1_pos = pin1.center()`
			`pin2_pos = pin2.center()`
			`if pin1_pos.y == pin2_pos.y:`
Clean up and generalize layer rules. Convert metalN to mN. Generalize helper constants in modules for space, width, enclose, etc. Use layer stacks whever possible. Try to remove drc() calls in liu of helper constants. 2019-12-17 20:03:36 +01:00			`self.add_path("m2", [pin1_pos, pin2_pos])`
Rewrite the parameterized transistor and gate classes. Changes propagate through all designs. All modules use instance and layout pins. 2017-12-12 23:53:19 +01:00			`else:`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`mid_point = vector(pin2_pos.x, 0.5 * (pin1_pos.y + pin2_pos.y))`
Rewrite the parameterized transistor and gate classes. Changes propagate through all designs. All modules use instance and layout pins. 2017-12-12 23:53:19 +01:00			`# Written this way to guarantee it goes right first if we are switching rows`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`self.add_path("m2", [pin1_pos, vector(pin1_pos.x, mid_point.y), mid_point, vector(mid_point.x, pin2_pos.y), pin2_pos])`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`def route_inverters(self):`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`""" Add metal routing for each of the fanout stages """`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00
			`for i in range(len(self.driver_inst_list)):`
			`inv = self.driver_inst_list[i]`
			`for load in self.load_inst_map[inv]:`
			`# Drop a via on each A pin`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`a_pin = load.get_pin("A")`
Fix missing via LVS issues. LVS passing for some 20 tests. 2020-07-01 18:22:59 +02:00			`self.add_via_stack_center(from_layer=a_pin.layer,`
			`to_layer="m3",`
			`offset=a_pin.center())`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00
			`# Route an M3 horizontal wire to the furthest`
			`z_pin = inv.get_pin("Z")`
			`a_pin = inv.get_pin("A")`
Simplify supply contacts in delay chain. 2020-04-22 01:12:54 +02:00			`a_max = self.load_inst_map[inv][-1].get_pin("A")`
Fix missing via LVS issues. LVS passing for some 20 tests. 2020-07-01 18:22:59 +02:00			`self.add_via_stack_center(from_layer=a_pin.layer,`
			`to_layer="m2",`
			`offset=a_pin.center())`
			`self.add_via_stack_center(from_layer=z_pin.layer,`
			`to_layer="m3",`
			`offset=z_pin.center())`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`self.add_path("m3", [z_pin.center(), a_max.center()])`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00
			`# Route Z to the A of the next stage`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`if i + 1 < len(self.driver_inst_list):`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`z_pin = inv.get_pin("Z")`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`next_inv = self.driver_inst_list[i + 1]`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`next_a_pin = next_inv.get_pin("A")`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`y_mid = (z_pin.cy() + next_a_pin.cy()) / 2`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`mid1_point = vector(z_pin.cx(), y_mid)`
			`mid2_point = vector(next_a_pin.cx(), y_mid)`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`self.add_path("m2", [z_pin.center(), mid1_point, mid2_point, next_a_pin.center()])`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00
Simplify supply contacts in delay chain. 2020-04-22 01:12:54 +02:00			`def route_supplies(self):`
Fixing power via problems in freepdk45 2018-07-19 19:23:08 +02:00			`# Add power and ground to all the cells except:`
			`# the fanout driver, the right-most load`
			`# The routing to connect the loads is over the first and last cells`
Add internal vdd/gnd connections for delay chain 2018-07-19 19:37:47 +02:00			`# We have an even number of drivers and must only do every other`
			`# supply rail`
Simplify supply contacts in delay chain. 2020-04-22 01:12:54 +02:00
			`for inst in self.driver_inst_list:`
			`load_list = self.load_inst_map[inst]`
			`for pin_name in ["vdd", "gnd"]:`
			`pin = load_list[0].get_pin(pin_name)`
Refactor add power pins 2021-01-13 19:57:12 +01:00			`self.copy_power_pin(pin, loc=pin.rc() - vector(self.m1_pitch, 0))`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Fix power pin layer problems in delay line 2020-06-24 19:26:49 +02:00			`pin = load_list[-2].get_pin(pin_name)`
Refactor add power pins 2021-01-13 19:57:12 +01:00			`self.copy_power_pin(pin, loc=pin.rc() - vector(self.m1_pitch, 0))`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
Simplify supply contacts in delay chain. 2020-04-22 01:12:54 +02:00			`def add_layout_pins(self):`
Add internal vdd/gnd connections for delay chain 2018-07-19 19:37:47 +02:00
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`# input is A pin of first inverter`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`a_pin = self.driver_inst_list[0].get_pin("A")`
Fix missing via LVS issues. LVS passing for some 20 tests. 2020-07-01 18:22:59 +02:00			`self.add_via_stack_center(from_layer=a_pin.layer,`
			`to_layer="m2",`
			`offset=a_pin.center())`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00			`self.add_layout_pin(text="in",`
Clean up and generalize layer rules. Convert metalN to mN. Generalize helper constants in modules for space, width, enclose, etc. Use layer stacks whever possible. Try to remove drc() calls in liu of helper constants. 2019-12-17 20:03:36 +01:00			`layer="m2",`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`offset=a_pin.ll().scale(1, 0),`
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`height=a_pin.cy())`
Development version of new pin data structure. Tests pass LVS/DRC except for bank level. 2017-08-24 00:02:15 +02:00
Reworking control logic for veritcal poly. Rewrote delay line. Rewrote buffered-DFF array. 2018-03-12 21:14:53 +01:00			`# output is A pin of last load inverter`
			`last_driver_inst = self.driver_inst_list[-1]`
Simplify supply contacts in delay chain. 2020-04-22 01:12:54 +02:00			`a_pin = self.load_inst_map[last_driver_inst][-1].get_pin("A")`
Fix missing via LVS issues. LVS passing for some 20 tests. 2020-07-01 18:22:59 +02:00			`self.add_via_stack_center(from_layer=a_pin.layer,`
			`to_layer="m2",`
			`offset=a_pin.center())`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`mid_point = vector(a_pin.cx() + 3 * self.m2_width, a_pin.cy())`
			`self.add_path("m2", [a_pin.center(), mid_point, mid_point.scale(1, 0)])`
Add dffs to control logic. Rename layout pin segment/rect functions for consistency. Redo gnd/vdd pins in control. Shift s_en buffers even with other cells. 2018-03-21 21:20:48 +01:00			`self.add_layout_pin_segment_center(text="out",`
Clean up and generalize layer rules. Convert metalN to mN. Generalize helper constants in modules for space, width, enclose, etc. Use layer stacks whever possible. Try to remove drc() calls in liu of helper constants. 2019-12-17 20:03:36 +01:00			`layer="m2",`
Recreate delay chain and RBL to have vertical poly only. 2018-03-14 18:53:20 +01:00			`start=mid_point,`
PEP8 cleanup 2020-04-22 00:36:38 +02:00			`end=mid_point.scale(1, 0))`