import debug from tech import drc from math import log from vector import vector from globals import OPTS from pinv import pinv import pgate class pbuf(pgate.pgate): """ This is a simple buffer used for driving loads. """ from importlib import reload c = reload(__import__(OPTS.bitcell)) bitcell = getattr(c, OPTS.bitcell) unique_id = 1 def __init__(self, size=4, height=None, name=""): self.stage_effort = 4 self.size = size self.height = height if name=="": name = "pbuf_{0}_{1}".format(self.size, pbuf.unique_id) pbuf.unique_id += 1 pgate.pgate.__init__(self, name, height) debug.info(1, "creating {0} with size of {1}".format(self.name,self.size)) self.create_netlist() if not OPTS.netlist_only: self.create_layout() def create_netlist(self): self.add_pins() self.create_modules() self.create_insts() def create_layout(self): self.width = self.inv1.width + self.inv2.width self.place_insts() self.add_wires() self.add_layout_pins() def add_pins(self): self.add_pin("A") self.add_pin("Z") self.add_pin("vdd") self.add_pin("gnd") def create_modules(self): # Shield the cap, but have at least a stage effort of 4 input_size = max(1,int(self.size/self.stage_effort)) self.inv1 = pinv(size=input_size, height=self.height) self.add_mod(self.inv1) self.inv2 = pinv(size=self.size, height=self.height) self.add_mod(self.inv2) def create_insts(self): self.inv1_inst=self.add_inst(name="buf_inv1", mod=self.inv1) self.connect_inst(["A", "zb_int", "vdd", "gnd"]) self.inv2_inst=self.add_inst(name="buf_inv2", mod=self.inv2) self.connect_inst(["zb_int", "Z", "vdd", "gnd"]) def place_insts(self): # Add INV1 to the right self.inv1_inst.place(vector(0,0)) # Add INV2 to the right self.inv2_inst.place(vector(self.inv1_inst.rx(),0)) def add_wires(self): # inv1 Z to inv2 A z1_pin = self.inv1_inst.get_pin("Z") a2_pin = self.inv2_inst.get_pin("A") mid_point = vector(z1_pin.cx(), a2_pin.cy()) self.add_path("metal1", [z1_pin.center(), mid_point, a2_pin.center()]) def add_layout_pins(self): # Continous vdd rail along with label. vdd_pin=self.inv1_inst.get_pin("vdd") self.add_layout_pin(text="vdd", layer="metal1", offset=vdd_pin.ll().scale(0,1), width=self.width, height=vdd_pin.height()) # Continous gnd rail along with label. gnd_pin=self.inv1_inst.get_pin("gnd") self.add_layout_pin(text="gnd", layer="metal1", offset=gnd_pin.ll().scale(0,1), width=self.width, height=vdd_pin.height()) z_pin = self.inv2_inst.get_pin("Z") self.add_layout_pin_rect_center(text="Z", layer=z_pin.layer, offset=z_pin.center(), width=z_pin.width(), height=z_pin.height()) a_pin = self.inv1_inst.get_pin("A") self.add_layout_pin_rect_center(text="A", layer=a_pin.layer, offset=a_pin.center(), width=a_pin.width(), height=a_pin.height()) def analytical_delay(self, slew, load=0.0): """ Calculate the analytical delay of DFF-> INV -> INV """ inv1_delay = self.inv1.analytical_delay(slew=slew, load=self.inv2.input_load()) inv2_delay = self.inv2.analytical_delay(slew=inv1_delay.slew, load=load) return inv1_delay + inv2_delay