# See LICENSE for licensing information. # # Copyright (c) 2016-2019 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 tech import layer from vector import vector from sram_factory import factory from globals import OPTS from tech import layer_properties as layer_props class wordline_buffer_array(design.design): """ Creates a Wordline Buffer/Inverter array """ def __init__(self, name, rows, cols): design.design.__init__(self, name) debug.info(1, "Creating {0}".format(self.name)) self.add_comment("rows: {0} cols: {1}".format(rows, cols)) self.rows = rows self.cols = cols self.create_netlist() if not OPTS.netlist_only: self.create_layout() def create_netlist(self): self.add_modules() self.add_pins() self.create_drivers() def create_layout(self): if "li" in layer: self.route_layer = "li" else: self.route_layer = "m1" self.place_drivers() self.route_layout() self.route_vdd_gnd() self.offset_all_coordinates() self.add_boundary() self.DRC_LVS() def add_pins(self): # inputs to wordline_driver. for i in range(self.rows): self.add_pin("in_{0}".format(i), "INPUT") # Outputs from wordline_driver. for i in range(self.rows): self.add_pin("out_{0}".format(i), "OUTPUT") self.add_pin("vdd", "POWER") self.add_pin("gnd", "GROUND") def add_modules(self): b = factory.create(module_type=OPTS.bitcell) self.wl_driver = factory.create(module_type="inv_dec", size=self.cols, height=b.height) self.add_mod(self.wl_driver) def route_vdd_gnd(self): """ Add a pin for each row of vdd/gnd which are must-connects next level up. """ if layer_props.wordline_driver.vertical_supply: for name in ["vdd", "gnd"]: supply_pins = self.wld_inst[0].get_pins(name) for pin in supply_pins: self.add_layout_pin_segment_center(text=name, layer=pin.layer, start=pin.bc(), end=vector(pin.cx(), self.height)) else: # Find the x offsets for where the vias/pins should be placed xoffset_list = [self.wld_inst[0].rx()] for num in range(self.rows): # this will result in duplicate polygons for rails, but who cares # use the inverter offset even though it will be the and's too (gate_offset, y_dir) = self.get_gate_offset(0, self.wl_driver.height, num) # Route both supplies for name in ["vdd", "gnd"]: supply_pin = self.wld_inst[num].get_pin(name) # Add pins in two locations for xoffset in xoffset_list: pin_pos = vector(xoffset, supply_pin.cy()) self.add_power_pin(name, pin_pos) def create_drivers(self): self.wld_inst = [] for row in range(self.rows): self.wld_inst.append(self.add_inst(name="wld{0}".format(row), mod=self.wl_driver)) self.connect_inst(["in_{0}".format(row), "out_{0}".format(row), "vdd", "gnd"]) def place_drivers(self): for row in range(self.rows): # These are flipped since we always start with an RBL on the bottom if (row % 2): y_offset = self.wl_driver.height * row inst_mirror = "R0" else: y_offset = self.wl_driver.height * (row + 1) inst_mirror = "MX" offset = [0, y_offset] self.wld_inst[row].place(offset=offset, mirror=inst_mirror) self.width = self.wl_driver.width self.height = self.wl_driver.height * self.rows def route_layout(self): """ Route all of the signals """ for row in range(self.rows): inst = self.wld_inst[row] self.copy_layout_pin(inst, "A", "in_{0}".format(row)) # output each WL on the right wl_offset = inst.get_pin("Z").rc() self.add_layout_pin_segment_center(text="out_{0}".format(row), layer=self.route_layer, start=wl_offset, end=wl_offset - vector(self.m1_width, 0))