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OpenRAM/compiler/modules/dff_inv.py

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Python
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import debug
import design
from tech import drc
from math import log
from vector import vector
from globals import OPTS
from pinv import pinv
class dff_inv(design.design):
"""
This is a simple DFF with an inverted output. Some DFFs
do not have Qbar, so this will create it.
"""
def __init__(self, inv_size=2, name=""):
if name=="":
name = "dff_inv_{0}".format(inv_size)
design.design.__init__(self, name)
debug.info(1, "Creating {}".format(self.name))
self.inv_size = inv_size
# This is specifically for SCMOS where the DFF vdd/gnd rails are more than min width.
# This causes a DRC in the pinv which assumes min width rails. This ensures the output
# contact does not violate spacing to the rail in the NMOS.
debug.check(inv_size>=2, "Inverter must be greater than two for rail spacing DRC rules.")
self.create_netlist()
if not OPTS.netlist_only:
self.create_layout()
def create_netlist(self):
self.add_pins()
self.add_modules()
self.create_modules()
def create_layout(self):
self.width = self.dff.width + self.inv1.width
self.height = self.dff.height
self.place_modules()
self.add_wires()
self.add_layout_pins()
self.DRC_LVS()
def add_pins(self):
self.add_pin("D")
self.add_pin("Q")
self.add_pin("Qb")
self.add_pin("clk")
self.add_pin("vdd")
self.add_pin("gnd")
def add_modules(self):
from importlib import reload
c = reload(__import__(OPTS.dff))
self.mod_dff = getattr(c, OPTS.dff)
self.dff = self.mod_dff("dff")
self.add_mod(self.dff)
self.inv1 = pinv(size=self.inv_size,height=self.dff.height)
self.add_mod(self.inv1)
def create_modules(self):
self.dff_inst=self.add_inst(name="dff_inv_dff",
mod=self.dff)
self.connect_inst(["D", "Q", "clk", "vdd", "gnd"])
self.inv1_inst=self.add_inst(name="dff_inv_inv1",
mod=self.inv1)
self.connect_inst(["Q", "Qb", "vdd", "gnd"])
def place_modules(self):
# Place the DFF
self.dff_inst.place(vector(0,0))
# Place the INV1 to the right
self.inv1_inst.place(vector(self.dff_inst.rx(),0))
def add_wires(self):
# Route dff q to inv1 a
q_pin = self.dff_inst.get_pin("Q")
a1_pin = self.inv1_inst.get_pin("A")
mid_x_offset = 0.5*(a1_pin.cx() + q_pin.cx())
mid1 = vector(mid_x_offset, q_pin.cy())
mid2 = vector(mid_x_offset, a1_pin.cy())
self.add_path("metal3",
[q_pin.center(), mid1, mid2, a1_pin.center()])
self.add_via_center(layers=("metal2","via2","metal3"),
offset=q_pin.center())
self.add_via_center(layers=("metal2","via2","metal3"),
offset=a1_pin.center())
self.add_via_center(layers=("metal1","via1","metal2"),
offset=a1_pin.center())
def add_layout_pins(self):
# Continous vdd rail along with label.
vdd_pin=self.dff_inst.get_pin("vdd")
self.add_layout_pin(text="vdd",
layer="metal1",
offset=vdd_pin.ll(),
width=self.width,
height=vdd_pin.height())
# Continous gnd rail along with label.
gnd_pin=self.dff_inst.get_pin("gnd")
self.add_layout_pin(text="gnd",
layer="metal1",
offset=gnd_pin.ll(),
width=self.width,
height=vdd_pin.height())
clk_pin = self.dff_inst.get_pin("clk")
self.add_layout_pin(text="clk",
layer=clk_pin.layer,
offset=clk_pin.ll(),
width=clk_pin.width(),
height=clk_pin.height())
din_pin = self.dff_inst.get_pin("D")
self.add_layout_pin(text="D",
layer=din_pin.layer,
offset=din_pin.ll(),
width=din_pin.width(),
height=din_pin.height())
dout_pin = self.dff_inst.get_pin("Q")
self.add_layout_pin_rect_center(text="Q",
layer=dout_pin.layer,
offset=dout_pin.center())
dout_pin = self.inv1_inst.get_pin("Z")
self.add_layout_pin_rect_center(text="Qb",
layer="metal2",
offset=dout_pin.center())
self.add_via_center(layers=("metal1","via1","metal2"),
offset=dout_pin.center())
def analytical_delay(self, slew, load=0.0):
""" Calculate the analytical delay of DFF-> INV -> INV """
dff_delay=self.dff.analytical_delay(slew=slew, load=self.inv1.input_load())
inv1_delay = self.inv1.analytical_delay(slew=dff_delay.slew, load=load)
return dff_delay + inv1_delay
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