mirror of https://github.com/VLSIDA/OpenRAM.git
Drafting global bitcell array
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5776788574
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@ -5,24 +5,31 @@
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# (acting for and on behalf of Oklahoma State University)
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# (acting for and on behalf of Oklahoma State University)
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# All rights reserved.
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# All rights reserved.
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#
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#
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from bitcell_base_array import bitcell_base_array
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import design
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from tech import drc, spice
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from globals import OPTS
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from globals import OPTS
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from sram_factory import factory
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from sram_factory import factory
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import debug
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import debug
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class global_bitcell_array(bitcell_base_array):
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class global_bitcell_array(design.design):
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"""
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"""
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Creates a global bitcell array with a number
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Creates a global bitcell array.
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of local arrays of a sizes given by a tuple in the list.
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Rows is an integer number for all local arrays.
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Cols is a list of the array widths.
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add_left_rbl and add_right_
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"""
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"""
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def __init__(self, rows, cols, ports, add_replica, name=""):
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def __init__(self, rows, cols, ports, name=""):
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# The total of all columns will be the number of columns
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# The total of all columns will be the number of columns
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self.cols = sum(cols)
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super().__init__(name=name)
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self.local_cols = cols
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self.cols = cols
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self.rows = rows
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self.rows = rows
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self.sizes = sizes
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self.all_ports = ports
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super().__init__(rows=self.rows, cols=self.cols, name=name)
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debug.check(len(ports)<=2, "Only support dual port or less in global bitcell array.")
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self.rbl = [1, 1 if len(self.all_ports)>1 else 0]
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self.left_rbl = self.rbl[0]
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self.right_rbl = self.rbl[1]
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self.create_netlist()
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self.create_netlist()
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if not OPTS.netlist_only:
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if not OPTS.netlist_only:
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@ -47,24 +54,121 @@ class global_bitcell_array(bitcell_base_array):
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def add_modules(self):
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def add_modules(self):
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""" Add the modules used in this design """
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""" Add the modules used in this design """
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self.local_mods = []
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self.local_mods = []
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for i, col in enumerate(self.local_cols):
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if i==self.add_replica[0]:
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for i, cols in enumerate(self.cols):
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la = factory.create(module_type="local_bitcell_array", rows=row, cols=col, left_rbl=i, add_replica=True)
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# Always add the left RBLs to the first subarray and the right RBLs to the last subarray
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elif len(self.add_replica)==2 and i==self.add_replica[2]:
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if i == 0:
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la = factory.create(module_type="local_bitcell_array", rows=row, cols=col, left_rbl=i, add_replica=True)
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la = factory.create(module_type="local_bitcell_array", rows=self.rows, cols=cols, rbl=self.rbl, add_rbl=[self.left_rbl, 0])
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elif i == len(self.cols) - 1:
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la = factory.create(module_type="local_bitcell_array", rows=self.rows, cols=cols, rbl=self.rbl, add_rbl=[0, self.right_rbl])
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else:
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else:
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la = factory.create(module_type="local_bitcell_array", rows=row, cols=col, add_replica=False)
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la = factory.create(module_type="local_bitcell_array", rows=self.rows, cols=cols, rbl=self.rbl, add_rbl=[0, 0])
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self.add_mod(la)
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self.add_mod(la)
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self.local_mods.append(la)
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self.local_mods.append(la)
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import pdb; pdb.set_trace()
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def add_pins(self):
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self.add_bitline_pins()
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self.add_wordline_pins()
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self.add_pin("vdd", "POWER")
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self.add_pin("gnd", "GROUND")
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def add_bitline_pins(self):
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# Regular bitline names for all ports
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self.bitline_names = []
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for port in range(self.left_rbl):
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left_names=["rbl_{0}_{1}".format(self.cell.get_bl_name(x), port) for x in range(len(self.all_ports))]
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right_names=["rbl_{0}_{1}".format(self.cell.get_br_name(x), port) for x in range(len(self.all_ports))]
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# Interleave the left and right lists
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bitline_names = [x for t in zip(left_names, right_names) for x in t]
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self.bitline_names.extend(bitline_names)
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# Regular array bitline names
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for col in range(sum(self.cols)):
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left_names=["bl_{0}_{1}".format(self.cell.get_bl_name(x), port) for x in range(len(self.all_ports))]
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right_names=["bl_{0}_{1}".format(self.cell.get_br_name(x), port) for x in range(len(self.all_ports))]
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# Array of all port bitline names
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for port in range(self.add_left_rbl + self.add_right_rbl):
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left_names=["rbl_{0}_{1}".format(self.cell.get_bl_name(x), port) for x in range(len(self.all_ports))]
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right_names=["rbl_{0}_{1}".format(self.cell.get_br_name(x), port) for x in range(len(self.all_ports))]
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# Keep track of the left pins that are the RBL
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self.replica_bl_names[port]=left_names[self.all_ports[port]]
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# Interleave the left and right lists
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bitline_names = [x for t in zip(left_names, right_names) for x in t]
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self.replica_bitline_names[port] = bitline_names
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# Dummy bitlines are not connected to anything
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self.bitline_names.extend(self.bitcell_array_bitline_names)
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for port in self.all_ports:
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self.add_pin_list(self.replica_bitline_names[port], "INOUT")
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self.add_pin_list(self.bitline_names, "INOUT")
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def add_wordline_pins(self):
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# All wordline names for all ports
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self.wordline_names = []
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# Wordline names for each port
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self.wordline_names_by_port = [[] for x in self.all_ports]
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# Replica wordlines by port
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self.replica_wordline_names = [[] for x in self.all_ports]
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# Regular array wordline names
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self.bitcell_array_wordline_names = self.bitcell_array.get_all_wordline_names()
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# Create the full WL names include dummy, replica, and regular bit cells
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self.wordline_names = []
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# Left port WLs
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for port in range(self.left_rbl):
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# Make names for all RBLs
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wl_names=["rbl_{0}_{1}".format(x, port) for x in self.cell.get_all_wl_names()]
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# Keep track of the pin that is the RBL
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self.replica_wordline_names[port] = wl_names
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self.wordline_names.extend(wl_names)
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# Regular WLs
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self.wordline_names.extend(self.bitcell_array_wordline_names)
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# Right port WLs
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for port in range(self.left_rbl, self.left_rbl + self.right_rbl):
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# Make names for all RBLs
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wl_names=["rbl_{0}_{1}".format(x, port) for x in self.cell.get_all_wl_names()]
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# Keep track of the pin that is the RBL
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self.replica_wordline_names[port] = wl_names
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self.wordline_names.extend(wl_names)
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self.dummy_wordline_names["top"] = ["{0}_top".format(x) for x in dummy_cell_wl_names]
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self.wordline_names.extend(self.dummy_wordline_names["top"])
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# Array of all port wl names
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for port in range(self.left_rbl + self.right_rbl):
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wl_names = ["rbl_{0}_{1}".format(x, port) for x in self.cell.get_all_wl_names()]
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self.replica_wordline_names[port] = wl_names
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self.add_pin_list(self.wordline_names, "INPUT")
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def create_instances(self):
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def create_instances(self):
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""" Create the module instances used in this design """
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""" Create the module instances used in this design """
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self.local_inst = {}
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self.local_inst = []
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for i in range(self.sizes):
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for i, mod in self.local_mods:
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name = "local_array_{0}".format(i)
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name = "la_{0}".format(i)
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self.local_inst.append(self.add_inst(name=name,
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self.local_inst.append(self.add_inst(name=name,
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mod=self.local_mods[i])
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mod=mod))
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self.connect_inst(self.get_bitcell_pins(row, col))
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self.connect_inst(self.get_bitcell_pins(row, col))
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def place(self):
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offset = vector(0, 0)
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for inst in self.local_inst:
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inst.place(offset)
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offset = inst.rx() + 3 * self.m3_pitch
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