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change one sram into several single macros
This commit is contained in:
FriedrichWu 2024-06-21 13:48:42 +02:00
parent 0937f86761
commit 3ee769a771
7 changed files with 2909 additions and 7 deletions
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3
compiler/gdsMill/gdsMill/vlsiLayout.py
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@ -742,6 +742,9 @@ class VlsiLayout:
Search for a pin label and return ALL the enclosing rectangles on the same layer
as the pin label.
"""
#debug
for pin in self.pins:
print(pin)
shape_list = []
pin_map = self.pins[pin_name]
for pin_list in pin_map:

2589
compiler/modules/sram_part.py Normal file
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File diff suppressed because it is too large Load Diff

60
compiler/router/signal_escape_router.py
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@ -10,7 +10,7 @@ from openram import OPTS
from .graph import graph
from .graph_shape import graph_shape
from .router import router
import re
class signal_escape_router(router):
"""
@ -76,6 +76,8 @@ class signal_escape_router(router):
self.find_vias(new_vias)
routed_count += 1
debug.info(2, "Routed {} of {} signal pins".format(routed_count, routed_max))
print("route pins:")
print(source)
self.replace_layout_pins()
@ -175,14 +177,18 @@ class signal_escape_router(router):
rect=rect,
layer_name_pp=layer)
self.fake_pins.append(pin)
print("this is add_per")
print(pin.name)
print(pin.center)
def create_fake_pin(self, pin):
""" Create a fake pin on the perimeter orthogonal to the given pin. """
ll, ur = self.bbox
c = pin.center()
print("inside pin name")
print("----------------------------------------------------------")
print(pin.name)
# Find the closest edge
edge, vertical = self.get_closest_edge(c)
@ -196,16 +202,62 @@ class signal_escape_router(router):
fake_center = vector(ur.x + self.track_wire * 2, c.y)
if edge == "top":
fake_center = vector(c.x, ur.y + self.track_wire * 2)
#fake_center = vector(ll.x - self.track_wire * 2, c.y) # test if here we could change the pin position at the layout
# relocate the pin position
"""
pattern = r'^addr0_1'
if re.match(pattern, pin.name):
vertical = True
fake_center = vector(ll.x - self.track_wire * 2, c.y + self.track_wire * 4)# fix still do not know how to control the distance between every fake pin
#do not know why after this, all fake out pins are put at the same position -> because the originl inside pin has same y?
pattern = r'^addr0_2'
if re.match(pattern, pin.name):
vertical = True
fake_center = vector(ll.x - self.track_wire * 2, c.y + self.track_wire * 8)# fix still do not know how to control the distance between every fake pin
#do not know why after this, all fake out pins are put at the same position -> because the originl inside pin has same y?
pattern = r'^addr0_3'
if re.match(pattern, pin.name):
vertical = True
fake_center = vector(ll.x - self.track_wire * 2, c.y + self.track_wire*12)# fix still do not know how to control the distance between every fake pin
#do not know why after this, all fake out pins are put at the same position -> because the originl inside pin has same y?
pattern = r'^addr0_4'
if re.match(pattern, pin.name):
vertical = True
fake_center = vector(ll.x - self.track_wire * 2, c.y + self.track_wire*16)# fix still do not know how to control the distance between every fake pin
#do not know why after this, all fake out pins are put at the same position -> because the originl inside pin has same y?
pattern = r'^p_en_bar0'
if re.match(pattern, pin.name):
vertical = True
fake_center = vector(ll.x - self.track_wire * 2, c.y)# fix still do not know how to control the distance between every fake pin
#do not know why after this, all fake out pins are put at the same position -> because the originl inside pin has same y?
pattern = r'^s_en0'
if re.match(pattern, pin.name):
vertical = True
fake_center = vector(ll.x - self.track_wire * 2, c.y + self.track_width *3)# fix still do not know how to control the distance between every fake pin
#do not know why after this, all fake out pins are put at the same position -> because the originl inside pin has same y?
pattern = r'^w_en0'
if re.match(pattern, pin.name):
vertical = True
fake_center = vector(ll.x - self.track_wire * 2, c.y + self.track_width * 6)# fix still do not know how to control the distance between every fake pin
#do not know why after this, all fake out pins are put at the same position -> because the originl inside pin has same y?
"""
# Create the fake pin shape
layer = self.get_layer(int(not vertical))
half_wire_vector = vector([self.half_wire] * 2)
nll = fake_center - half_wire_vector
nur = fake_center + half_wire_vector
#not test jet
#half_wire_vector = vector([self.half_wire] * 2)# out *2 means vector([self.half_wire, self.half_wire])
#nll = fake_center - half_wire_vector - half_wire_vector
#nur = fake_center + half_wire_vector + half_wire_vector
rect = [nll, nur]
pin = graph_shape(name="fake",
rect=rect,
layer_name_pp=layer)
print("this create_fake_pin")
print(pin.name)
print(pin.center)
return pin
@ -214,6 +266,8 @@ class signal_escape_router(router):
to_route = []
for name in pin_names:
print("==============the pin names===================")
print(name)
pin = next(iter(self.pins[name]))
fake = self.create_fake_pin(pin)
to_route.append((pin, fake, pin.distance(fake)))

2
compiler/router/supply_router.py
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@ -76,6 +76,8 @@ class supply_router(router):
# Create the graph
g = graph(self)
g.create_graph(source, target)
# debug
debug.warning("graph creat success!")
# Find the shortest path from source to target
path = g.find_shortest_path()
# If no path is found, throw an error

2
compiler/sram.py
View File

@ -50,7 +50,7 @@ class sram():
self.name = name
from openram.modules.sram_1bank import sram_1bank as sram
#from openram.modules.sram_new import sram_1bank as sram
self.s = sram(name, sram_config)
self.s.create_netlist()

253
compiler/sram_road.py Normal file
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@ -0,0 +1,253 @@
# 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.
#
# This file generate sram part, aiming at using openroad to do the P&R
import os
import shutil
import datetime
from openram import debug
from openram import sram_config as config
from openram import OPTS, print_time
class sram():
"""
This is not a design module, but contains an SRAM design instance.
It could later try options of number of banks and organization to compare
results.
We can later add visualizer and other high-level functions as needed.
"""
def __init__(self, sram_config=None, name=None):
# Create default configs if custom config isn't provided
if sram_config is None:
sram_config = config(word_size=OPTS.word_size,
num_words=OPTS.num_words,
write_size=OPTS.write_size,
num_banks=OPTS.num_banks,
words_per_row=OPTS.words_per_row,
num_spare_rows=OPTS.num_spare_rows,
num_spare_cols=OPTS.num_spare_cols)
if name is None:
name = OPTS.output_name
sram_config.set_local_config(self)
# reset the static duplicate name checker for unit tests
# in case we create more than one SRAM
from openram.base import design
design.name_map=[]
debug.info(2, "create sram of size {0} with {1} num of words {2} banks".format(self.word_size,
self.num_words,
self.num_banks))
start_time = datetime.datetime.now()
self.name = name
#from openram.modules.sram_1bank import sram_1bank as sram
from openram.modules.sram_part import sram_1bank as sram
self.s = sram(name, sram_config)
def get_sp_name(self):
if OPTS.use_pex:
# Use the extracted spice file
return self.pex_name
else:
# Use generated spice file for characterization
return self.sp_name
def sp_write(self, name, lvs=False, trim=False):
self.s.sp_write(name, lvs, trim)
def lef_write(self, name):
self.s.lef_write(name)
def gds_write(self, name):
self.s.gds_write(name)
def verilog_write(self, name):
self.s.verilog_write(name)
if self.num_banks != 1:
from openram.modules.sram_multibank import sram_multibank
mb = sram_multibank(self.s)
mb.verilog_write(name[:-2] + '_top.v')
def extended_config_write(self, name):
"""Dump config file with all options.
Include defaults and anything changed by input config."""
f = open(name, "w")
var_dict = dict((name, getattr(OPTS, name)) for name in dir(OPTS) if not name.startswith('__') and not callable(getattr(OPTS, name)))
for var_name, var_value in var_dict.items():
if isinstance(var_value, str):
f.write(str(var_name) + " = " + "\"" + str(var_value) + "\"\n")
else:
f.write(str(var_name) + " = " + str(var_value)+ "\n")
f.close()
def generate_files(self, module_name):
"""use to generate gds, lef files for one certain layout"""
# Import this at the last minute so that the proper tech file
# is loaded and the right tools are selected
from openram import verify
from openram.characterizer import functional
from openram.characterizer import delay
# Save the spice file
start_time = datetime.datetime.now()
spname = OPTS.output_path + self.s.name + module_name + ".sp"
debug.print_raw("SP: Writing to {0}".format(spname))
self.sp_write(spname)
print_time("Spice writing", datetime.datetime.now(), start_time)
# Save trimmed spice file
temp_trim_sp = "{0}trimmed_{1}.sp".format(OPTS.output_path, module_name)
self.sp_write(temp_trim_sp, lvs=False, trim=True)
if not OPTS.netlist_only:
# Write the layout
start_time = datetime.datetime.now()
gdsname = OPTS.output_path + self.s.name + module_name + ".gds"
debug.print_raw("GDS: Writing to {0}".format(gdsname))
self.gds_write(gdsname)
if OPTS.check_lvsdrc:
verify.write_drc_script(cell_name=self.s.name + module_name,
gds_name=os.path.basename(gdsname),
extract=True,
final_verification=True,
output_path=OPTS.output_path)
print_time("GDS", datetime.datetime.now(), start_time)
# Create a LEF physical model
start_time = datetime.datetime.now()
lefname = OPTS.output_path + self.s.name + module_name + ".lef"
debug.print_raw("LEF: Writing to {0}".format(lefname))
self.lef_write(lefname)
print_time("LEF", datetime.datetime.now(), start_time)
# Save the LVS file
start_time = datetime.datetime.now()
lvsname = OPTS.output_path + self.s.name + module_name + ".lvs.sp"
debug.print_raw("LVS: Writing to {0}".format(lvsname))
self.sp_write(lvsname, lvs=True)
if not OPTS.netlist_only and OPTS.check_lvsdrc:
verify.write_lvs_script(cell_name=self.s.name + module_name,
gds_name=os.path.basename(gdsname),
sp_name=os.path.basename(lvsname),
final_verification=True,
output_path=OPTS.output_path)
print_time("LVS writing", datetime.datetime.now(), start_time)
# Save the extracted spice file
if OPTS.use_pex:
start_time = datetime.datetime.now()
# Output the extracted design if requested
pexname = OPTS.output_path + self.s.name + module_name + ".pex.sp"
spname = OPTS.output_path + self.s.name + module_name + ".sp"
verify.run_pex(self.s.name, gdsname, spname, output=pexname)
sp_file = pexname
print_time("Extraction", datetime.datetime.now(), start_time)
else:
# Use generated spice file for characterization
sp_file = spname
# Write the config file
start_time = datetime.datetime.now()
try:
from shutil import copyfile
copyfile(OPTS.config_file, OPTS.output_path + OPTS.output_name + '.py')
except shutil.SameFileError:
pass
debug.print_raw("Config: Writing to {0}".format(OPTS.output_path + OPTS.output_name + '.py'))
print_time("Config", datetime.datetime.now(), start_time)
# Write a verilog model
start_time = datetime.datetime.now()
vname = OPTS.output_path + self.s.name + '.v'
debug.print_raw("Verilog: Writing to {0}".format(vname))
self.verilog_write(vname)
print_time("Verilog", datetime.datetime.now(), start_time)
# Write out options if specified
if OPTS.output_extended_config:
start_time = datetime.datetime.now()
oname = OPTS.output_path + OPTS.output_name + "_extended.py"
debug.print_raw("Extended Config: Writing to {0}".format(oname))
self.extended_config_write(oname)
print_time("Extended Config", datetime.datetime.now(), start_time)
def save(self):
""" Save all the output files while reporting time to do it as well. """
for i in range(7):
if i == 0:
self.s.create_netlist_bank()
if not OPTS.netlist_only:
self.s.create_layout_bank_only()
self.generate_files("bank")
elif i == 1:
self.s.create_netlist_control()
if not OPTS.netlist_only:
for port in self.s.all_ports:
self.s.create_layout_control_only(self, instance_index=port)
self.generate_files("control_" + port)
else:
for port in self.s.all_ports:
self.generate_files("control_" + port)
elif i == 2:
self.s.create_netlist_row_addr_dff()
if not OPTS.netlist_only:
for port in self.s.all_ports:
self.s.create_layout_row_addr_dff_only(self, instance_index=port)
self.generate_files("row_addr_dff_" + port)
else:
for port in self.s.all_ports:
self.generate_files("row_addr_dff_" + port)
elif i == 3:
if self.s.create_netlist_col_addr_dff() == False:
continue # do not need col addr dff
elif not OPTS.netlist_only:
for port in self.s.all_ports:
self.create_layout_col_addr_dff_only(self, instance_index=port)
self.generate_files("col_addr_dff_" + port)
else:
self.generate_files("col_addr_dff_" + port)
elif i == 4:
self.s.create_netlist_data_dff()
if not OPTS.netlist_only:
for port in self.s.all_ports:
self.s.create_layout_data_dff_only(self, instance_index=port)
self.generate_files("data_dff_" + port)
else:
for port in self.s.all_ports:
self.generate_files("data_dff_" + port)
elif i == 5:
if self.s.create_netlist_wmask_dff() == False:
continue # do not need wmask dff
elif not OPTS.netlist_only:
for port in self.s.all_ports:
self.s.create_layout_wmask_dff_only(self, instance_index=port)
self.generate_files("wmask_dff_" + port)
else:
for port in self.s.all_ports:
self.generate_files("wmask_dff_" + port)
elif i == 6:
if self.s.create_netlist_spare_wen_dff() == False:
continue # do not need spare wen dff
elif not OPTS.netlist_only:
for port in self.s.all_ports:
self.s.create_layout_spare_wen_dff_only(self, instance_index=port)
self.generate_files("spare_wen_dff_" + port)
else:
for port in self.s.all_ports:
self.generate_files("spare_wen_dff_" + port)

7
sram_compiler.py
View File

@ -69,9 +69,10 @@ for path in output_files:
debug.print_raw(path)
# Create an SRAM (we can also pass sram_config, see documentation/tutorials for details)
from openram import sram
s = sram()
#from openram import sram
#s = sram()
from openram import sram_road
s = sram_road.sram()
# Output the files for the resulting SRAM
s.save()