OpenRAM/compiler/modules/orig_bitcell_array.py

# See LICENSE for licensing information.
#
# Copyright (c) 2016-2024 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.
#
from openram.sram_factory import factory
from openram.tech import drc, spice
from openram import OPTS
from .bitcell_base_array import bitcell_base_array


class bitcell_array(bitcell_base_array):
    """
    Creates a rows x cols array of memory cells. Assumes bit-lines
    and word line is connected by abutment.
    Connects the word lines and bit lines.
    """
    def __init__(self, cols, rows, name, column_offset=0):
        super().__init__(cols, rows, name, column_offset)

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

        # We don't offset this because we need to align
        # the replica bitcell in the control logic
        # self.offset_all_coordinates()

    def create_netlist(self):
        """ Create and connect the netlist """
        self.add_modules()
        self.add_pins()
        self.create_instances()

    def create_layout(self):

        self.place_array("bit_r{0}_c{1}")

        self.add_layout_pins()

        self.add_boundary()

        self.DRC_LVS()

    def add_modules(self):
        """ Add the modules used in this design """
        self.cell = factory.create(module_type=OPTS.bitcell)

    def create_instances(self):
        """ Create the module instances used in this design """
        self.cell_inst = {}
        for col in range(self.column_size):
            for row in range(self.row_size):
                name = "bit_r{0}_c{1}".format(row, col)
                self.cell_inst[row, col]=self.add_inst(name=name,
                                                       mod=self.cell)
                self.connect_inst(self.get_bitcell_pins(col, row))

    def analytical_power(self, corner, load):
        """Power of Bitcell array and bitline in nW."""

        # Dynamic Power from Bitline
        bl_wire = self.gen_bl_wire()
        cell_load = 2 * bl_wire.return_input_cap()
        bl_swing = OPTS.rbl_delay_percentage
        freq = spice["default_event_frequency"]
        bitline_dynamic = self.calc_dynamic_power(corner, cell_load, freq, swing=bl_swing)

        # Calculate the bitcell power which currently only includes leakage
        cell_power = self.cell.analytical_power(corner, load)

        # Leakage power grows with entire array and bitlines.
        total_power = self.return_power(cell_power.dynamic + bitline_dynamic * self.column_size,
                                        cell_power.leakage * self.column_size * self.row_size)
        return total_power

    def gen_wl_wire(self):
        if OPTS.netlist_only:
            width = 0
        else:
            width = self.width
        wl_wire = self.generate_rc_net(int(self.column_size), width, drc("minwidth_m1"))
        wl_wire.wire_c = 2 * spice["min_tx_gate_c"] + wl_wire.wire_c # 2 access tx gate per cell
        return wl_wire

    def gen_bl_wire(self):
        if OPTS.netlist_only:
            height = 0
        else:
            height = self.height
        bl_pos = 0
        bl_wire = self.generate_rc_net(int(self.row_size - bl_pos), height, drc("minwidth_m1"))
        bl_wire.wire_c =spice["min_tx_drain_c"] + bl_wire.wire_c # 1 access tx d/s per cell
        return bl_wire

    def get_wordline_cin(self):
        """Get the relative input capacitance from the wordline connections in all the bitcell"""
        # A single wordline is connected to all the bitcells in a single row meaning the capacitance depends on the # of columns
        bitcell_wl_cin = self.cell.get_wl_cin()
        total_cin = bitcell_wl_cin * self.column_size
        return total_cin

    def graph_exclude_bits(self, targ_row, targ_col):
        """Excludes bits in column from being added to graph except target"""
        # Function is not robust with column mux configurations
        for row in range(self.row_size):
            for col in range(self.column_size):
                if row == targ_row and col == targ_col:
                    continue
                self.graph_inst_exclude.add(self.cell_inst[row, col])

    def get_cell_name(self, inst_name, row, col):
        """Gets the spice name of the target bitcell."""
        return inst_name + "{}x".format(OPTS.hier_seperator) + self.cell_inst[row, col].name, self.cell_inst[row, col]
single port progess 2020-09-15 03:11:38 +02:00			`# See LICENSE for licensing information.`
			`#`
Update copyright year 2024-01-03 23:32:44 +01:00			`# Copyright (c) 2016-2024 Regents of the University of California and The Board`
single port progess 2020-09-15 03:11:38 +02:00			`# of Regents for the Oklahoma Agricultural and Mechanical College`
			`# (acting for and on behalf of Oklahoma State University)`
			`# All rights reserved.`
			`#`
Use library imports globally 2022-11-27 22:01:20 +01:00			`from openram.sram_factory import factory`
			`from openram.tech import drc, spice`
			`from openram import OPTS`
Use packages for imports. Must set PYTHONPATH to include OPENRAM_HOME now. Reorganizes subdirs as packages. Rewrites unit tests to use packages. Update README.md with instructions, dependencies etc. Update sky130 module imports. Change tech specific package from modules to custom. 2022-07-13 19:57:56 +02:00			`from .bitcell_base_array import bitcell_base_array`
single port progess 2020-09-15 03:11:38 +02:00

			`class bitcell_array(bitcell_base_array):`
			`"""`
			`Creates a rows x cols array of memory cells. Assumes bit-lines`
			`and word line is connected by abutment.`
			`Connects the word lines and bit lines.`
			`"""`
			`def __init__(self, cols, rows, name, column_offset=0):`
			`super().__init__(cols, rows, name, column_offset)`

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

			`# We don't offset this because we need to align`
			`# the replica bitcell in the control logic`
			`# self.offset_all_coordinates()`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
single port progess 2020-09-15 03:11:38 +02:00			`def create_netlist(self):`
			`""" Create and connect the netlist """`
			`self.add_modules()`
			`self.add_pins()`
			`self.create_instances()`

			`def create_layout(self):`

			`self.place_array("bit_r{0}_c{1}")`

			`self.add_layout_pins()`

			`self.add_boundary()`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
single port progess 2020-09-15 03:11:38 +02:00			`self.DRC_LVS()`

			`def add_modules(self):`
			`""" Add the modules used in this design """`
Use OPTS.bitcell everywhere 2020-11-06 01:55:08 +01:00			`self.cell = factory.create(module_type=OPTS.bitcell)`
single port progess 2020-09-15 03:11:38 +02:00
			`def create_instances(self):`
			`""" Create the module instances used in this design """`
			`self.cell_inst = {}`
			`for col in range(self.column_size):`
			`for row in range(self.row_size):`
			`name = "bit_r{0}_c{1}".format(row, col)`
			`self.cell_inst[row, col]=self.add_inst(name=name,`
			`mod=self.cell)`
			`self.connect_inst(self.get_bitcell_pins(col, row))`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
single port progess 2020-09-15 03:11:38 +02:00			`def analytical_power(self, corner, load):`
			`"""Power of Bitcell array and bitline in nW."""`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
single port progess 2020-09-15 03:11:38 +02:00			`# Dynamic Power from Bitline`
			`bl_wire = self.gen_bl_wire()`
			`cell_load = 2 * bl_wire.return_input_cap()`
			`bl_swing = OPTS.rbl_delay_percentage`
			`freq = spice["default_event_frequency"]`
			`bitline_dynamic = self.calc_dynamic_power(corner, cell_load, freq, swing=bl_swing)`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
single port progess 2020-09-15 03:11:38 +02:00			`# Calculate the bitcell power which currently only includes leakage`
			`cell_power = self.cell.analytical_power(corner, load)`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
single port progess 2020-09-15 03:11:38 +02:00			`# Leakage power grows with entire array and bitlines.`
			`total_power = self.return_power(cell_power.dynamic + bitline_dynamic * self.column_size,`
			`cell_power.leakage * self.column_size * self.row_size)`
			`return total_power`

			`def gen_wl_wire(self):`
			`if OPTS.netlist_only:`
			`width = 0`
			`else:`
			`width = self.width`
			`wl_wire = self.generate_rc_net(int(self.column_size), width, drc("minwidth_m1"))`
			`wl_wire.wire_c = 2 * spice["min_tx_gate_c"] + wl_wire.wire_c # 2 access tx gate per cell`
			`return wl_wire`

			`def gen_bl_wire(self):`
			`if OPTS.netlist_only:`
			`height = 0`
			`else:`
			`height = self.height`
			`bl_pos = 0`
			`bl_wire = self.generate_rc_net(int(self.row_size - bl_pos), height, drc("minwidth_m1"))`
			`bl_wire.wire_c =spice["min_tx_drain_c"] + bl_wire.wire_c # 1 access tx d/s per cell`
			`return bl_wire`

			`def get_wordline_cin(self):`
			`"""Get the relative input capacitance from the wordline connections in all the bitcell"""`
			`# A single wordline is connected to all the bitcells in a single row meaning the capacitance depends on the # of columns`
			`bitcell_wl_cin = self.cell.get_wl_cin()`
			`total_cin = bitcell_wl_cin * self.column_size`
			`return total_cin`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
single port progess 2020-09-15 03:11:38 +02:00			`def graph_exclude_bits(self, targ_row, targ_col):`
			`"""Excludes bits in column from being added to graph except target"""`
			`# Function is not robust with column mux configurations`
			`for row in range(self.row_size):`
			`for col in range(self.column_size):`
			`if row == targ_row and col == targ_col:`
			`continue`
			`self.graph_inst_exclude.add(self.cell_inst[row, col])`
Remove EOL whitespace globally 2020-11-03 15:29:17 +01:00
single port progess 2020-09-15 03:11:38 +02:00			`def get_cell_name(self, inst_name, row, col):`
			`"""Gets the spice name of the target bitcell."""`
Add hierarchical seperator option to work with Xyce measurements. 2021-05-15 01:16:25 +02:00			`return inst_name + "{}x".format(OPTS.hier_seperator) + self.cell_inst[row, col].name, self.cell_inst[row, col]`