from math import ceil, log, sqrt from openram.base import vector from openram.base import design from openram import OPTS from openram.sram_factory import factory from openram.tech import drc, layer class rom_base_bank(design): """ Rom data bank with row and column decoder + control logic word size is in bytes """ def __init__(self, strap_spacing=0, data_file=None, name="", word_size=2) -> None: self.word_size = word_size * 8 self.read_binary(word_size=word_size, data_file=data_file) self.num_outputs = self.rows self.num_inputs = ceil(log(self.rows, 2)) self.col_bits = ceil(log(self.words_per_row, 2)) self.row_bits = self.num_inputs # self.data = [[0, 1, 0, 1], [1, 1, 1, 1], [1, 1, 0, 0], [0, 0, 1, 0]] self.strap_spacing = strap_spacing if "li" in layer: self.route_layer = "li" else: self.route_layer = "m1" self.bus_layer = "m2" self.interconnect_layer = "m1" super().__init__(name=name) self.setup_layout_constants() self.create_netlist() self.create_layout() """ Reads a hexadecimal file from a given directory to be used as the data written to the ROM endian is either "big" or "little" word_size is the number of bytes per word sets the row and column size based on the size of binary input, tries to keep array as square as possible, """ def read_binary(self, data_file, word_size=2, endian="big"): hex_file = open(data_file, 'r') hex_data = hex_file.read() bin_data = list("{0:08b}".format(int(hex_data, 16))) bin_data = [int(x) for x in bin_data] # data size in bytes data_size = len(bin_data) / 8 num_words = int(data_size / word_size) bytes_per_col = sqrt(num_words) self.words_per_row = int(ceil(bytes_per_col /(2*word_size))) bits_per_row = self.words_per_row * word_size * 8 chunked_data = [] for i in range(0, len(bin_data), bits_per_row): word = bin_data[i:i + bits_per_row] if len(word) < bits_per_row: word = [0] * (bits_per_row - len(word)) + word chunked_data.append(word) if endian == "big": chunked_data.reverse() self.data = chunked_data self.cols = bits_per_row self.rows = int(num_words / (self.words_per_row)) # print("hex: {0}, binary: {1}, chunked: {2}".format(hex_data, bin_data, chunked_data)) def create_netlist(self): self.add_modules() # self.add_pins() self.create_instances() def create_layout(self): self.place_instances() # self.channel_route() self.route_decode_outputs() self.route_control() # self.route_supplies() self.height = self.array_inst.height self.width = self.array_inst.width self.add_boundary() def setup_layout_constants(self): self.route_layer_width = drc["minwidth_{}".format(self.route_layer)] self.route_layer_pitch = drc["{0}_to_{0}".format(self.route_layer)] self.bus_layer_width = drc["minwidth_{}".format(self.bus_layer)] self.bus_layer_pitch = drc["{0}_to_{0}".format(self.bus_layer)] self.interconnect_layer_width = drc["minwidth_{}".format(self.interconnect_layer)] self.interconnect_layer_pitch = drc["{0}_to_{0}".format(self.interconnect_layer)] def add_pins(self): self.add_pin("READ", "INPUT") self.add_pin("CS", "INPUT") for i in range(self.num_inputs): self.add_pin("addr_{}".format(i), "INPUT") out_pins = [] for j in range(self.rows): out_pins.append("rom_out_{}".format(j)) self.add_pin_list(out_pins, "OUTPUT") self.add_pin("vdd", "POWER") self.add_pin("gnd", "GROUND") def add_modules(self): self.array = factory.create(module_type="rom_base_array", cols=self.cols, rows=self.rows, strap_spacing=self.strap_spacing, bitmap=self.data, route_layer=self.route_layer, pitch_match=True) self.decode_array = factory.create(module_name="rom_row_decode", module_type="rom_decoder", num_outputs=self.rows, strap_spacing=self.strap_spacing, route_layer=self.route_layer, cols=self.cols) self.control_logic = factory.create(module_type="rom_control_logic", num_outputs=(self.rows + self.cols) / 2, height=self.decode_array.buf_inst.height) self.column_mux = factory.create(module_type="rom_column_mux_array", columns=self.cols, word_size=self.word_size, bitline_layer=self.route_layer) self.column_decode = factory.create(module_name="rom_column_decode", module_type="rom_decoder", num_outputs=self.words_per_row, strap_spacing=self.strap_spacing, route_layer=self.route_layer, cols=1) def create_instances(self): gnd = ["gnd"] vdd = ["vdd"] prechrg = ["precharge"] array_pins = [] decode_pins = [] for bl in range(self.cols): name = "bl_{}".format(bl) array_pins.append(name) for wl in range(self.rows): name = "wl_{}".format(wl) array_pins.append(wl) array_pins.append("precharge") array_pins.append("vdd") array_pins.append("gnd") for addr in range(self.row_bits): name = "row_addr_{}".format(addr) decode_pins.append(name) for wl in range(self.rows): name = "wl_{}".format(wl) decode_pins.append(name) decode_pins.append("precharge") decode_pins.append("vdd") decode_pins.append("gnd") bitlines = ["bl_{}".format(bl) for bl in range(self.cols)] select_lines = ["word_sel_{}".format(word) for word in range(self.words_per_row)] bitline_out = ["rom_out_{}".format(bl) for bl in range(self.word_size)] addr_lsb = ["col_addr_{}".format(addr) for addr in range(self.col_bits)] col_mux_pins = bitlines + select_lines + bitline_out + gnd col_decode_pins = addr_lsb + select_lines + prechrg + vdd + gnd self.array_inst = self.add_inst(name="rom_bit_array", mod=self.array) self.connect_inst(array_pins) self.decode_inst = self.add_inst(name="rom_row_decoder", mod=self.decode_array) self.connect_inst(decode_pins) self.control_inst = self.add_inst(name="rom_control", mod=self.control_logic) self.connect_inst(["READ", "CS", "precharge", "vdd", "gnd"]) self.mux_inst = self.add_inst(name="rom_column_mux", mod=self.column_mux) self.connect_inst(col_mux_pins) self.col_decode_inst = self.add_inst(name="rom_column_decoder", mod=self.column_decode) self.connect_inst(col_decode_pins) def place_instances(self): self.place_row_decoder() self.place_data_array() self.place_control_logic() self.place_col_decoder() self.place_col_mux() def place_row_decoder(self): self.decode_offset = vector(0, self.control_inst.height) self.decode_inst.place(offset=self.decode_offset) def place_data_array(self): # We approximate the correct position for the array array_x = self.decode_inst.width + (2) * ( self.route_layer_width + self.route_layer_pitch ) array_y = self.decode_array.buf_inst.height - self.array.precharge_inst.cy() - self.array.zero_cell.height * 0.5 self.array_offset = vector(array_x ,array_y) self.array_inst.place(offset=self.array_offset) # now move array to correct alignment with decoder array_align = self.decode_inst.get_pin("wl_0").cy() - self.array_inst.get_pin("wl_0_0").cy() self.array_inst.place(offset=(self.array_offset + vector(0, array_align))) def place_control_logic(self): self.control_offset = vector(0,0) self.control_inst.place(offset=self.control_offset) def place_col_decoder(self): self.col_decode_offset = vector(self.control_logic.width * 1.3, 0) self.col_decode_inst.place(offset=self.col_decode_offset) def place_col_mux(self): self.mux_offset = vector(self.decode_inst.width, 0) self.mux_inst.place(offset=self.mux_offset) def create_wl_bus(self): bus_x = self.decode_inst.width + ( drc["minwidth_{}".format(self.bus_layer)] + 1.5 * drc["{0}_to_{0}".format(self.bus_layer)] ) bus_y = self.array_inst.by() + self.bus_layer_pitch + self.bus_layer_width self.wl_interconnects = [] for wl in range(self.rows): self.wl_interconnects.append("wl_interconnect_{}".format(wl)) self.wl_bus = self.create_vertical_bus(self.bus_layer, vector(bus_x, bus_y), self.wl_interconnects, self.decode_inst.uy() - self.array_inst.by() ) def route_decode_outputs(self): route_pins = [self.array_inst.get_pin("wl_0_{}".format(wl)) for wl in range(self.rows)] decode_pins = [self.decode_inst.get_pin("wl_{}".format(wl)) for wl in range(self.rows)] route_pins.extend(decode_pins) self.connect_row_pins(self.interconnect_layer, route_pins, round=True) # for wl in range(self.rows): # decode_output = self.decode_array.output_names[wl] # decode_out_pin = self.decode_inst.get_pin(decode_output) # array_wl = self.array.wordline_names[0][wl] # array_wl_pin = self.array_inst.get_pin(array_wl) # # wl_bus_wire = self.wl_bus[self.wl_interconnects[wl]] # start = decode_out_pin.center() # end = vector(array_wl_pin.cx(), start.y) # self.add_segment_center(self.bus_layer, start, end) # self.add_via_stack_center(array_wl_pin.center(), self.bus_layer, self.interconnect_layer ) def route_array_inputs(self): for wl in range(self.rows): array_wl = self.array.wordline_names[0][wl] array_wl_pin = self.array_inst.get_pin(array_wl) wl_bus_wire = self.wl_bus[self.wl_interconnects[wl]] end = array_wl_pin.center() start = vector(wl_bus_wire.cx(), end.y) self.add_segment_center(self.interconnect_layer, start, end) self.add_via_stack_center(start, self.route_layer, self.interconnect_layer ) def channel_route(self): route_nets = [] for wl in range(self.rows): array_wl = self.array.wordline_names[0][wl] array_wl_pin = self.array_inst.get_pin(array_wl) decode_output = self.decode_array.output_names[wl] decode_out_pin = self.decode_inst.get_pin(decode_output) route_nets.append([array_wl_pin, decode_out_pin]) array_prechrg = self.array_inst.get_pin("precharge") decode_prechrg = self.decode_inst.get_pin("precharge") route_nets.append([array_prechrg, decode_prechrg]) channel_start = vector(decode_out_pin.cx(), self.decode_array.array_inst.by()) channel = self.create_vertical_channel_route(netlist=route_nets, offset=channel_start, layer_stack=self.m1_stack, directions="nonpref") def route_control(self): prechrg_control = self.control_inst.get_pin("prechrg") decode_prechrg = self.decode_inst.get_pin("precharge") array_prechrg = self.array_inst.get_pin("precharge") end = vector(decode_prechrg.cx() - 0.5 * self.interconnect_layer_width, prechrg_control.cy()) self.add_segment_center(self.interconnect_layer, prechrg_control.center(), end) start = end + vector(0.5 * self.interconnect_layer_width, 0) self.add_segment_center(self.interconnect_layer, start, decode_prechrg.center()) def route_supplies(self): gnd_start = vector(self.array_inst.get_pins("gnd")[0].cx(),0) decode_gnd = self.decode_inst.get_pin("gnd") decode_vdd = self.decode_inst.get_pin("vdd") array_vdd = self.array_inst.get_pin("vdd") # self.add_segment_center("m1", gnd_start, decode_gnd.center()) self.add_power_pin("gnd", decode_vdd.center()) self.add_power_pin("vdd", decode_gnd.center()) vdd_start = vector(array_vdd.lx() + 0.5 * self.via1_space, array_vdd.cy()) end = vector(decode_vdd.lx(), vdd_start.y) self.add_segment_center(self.interconnect_layer, vdd_start, end) self.add_via_stack_center(vdd_start, "m1", self.interconnect_layer) vdd_start = vector(decode_vdd.cx(), vdd_start.y) self.add_segment_center(self.interconnect_layer, vdd_start, decode_vdd.center())