luke
/
OpenRAM
mirror of https://github.com/VLSIDA/OpenRAM.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity
OpenRAM/compiler/sram.py

123 lines
4.5 KiB
Python
Raw Blame History

import sys
import datetime
import getpass
import debug
from globals 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 oganization to compare
results.
We can later add visualizer and other high-level functions as needed.
"""
def __init__(self, word_size, num_words, num_banks, name):
# reset the static duplicate name checker for unit tests
# in case we create more than one SRAM
from design import design
design.name_map=[]
debug.info(2, "create sram of size {0} with {1} num of words".format(word_size,
num_words))
start_time = datetime.datetime.now()
self.name = name
if num_banks == 1:
from sram_1bank import sram_1bank
self.s=sram_1bank(word_size, num_words, name)
elif num_banks == 2:
from sram_2bank import sram_2bank
self.s=sram_2bank(word_size, num_words, name)
elif num_banks == 4:
from sram_4bank import sram_4bank
self.s=sram_4bank(word_size, num_words, name)
else:
debug.error("Invalid number of banks.",-1)
self.s.create_netlist()
self.s.create_layout()
# Can remove the following, but it helps for debug!
self.s.add_lvs_correspondence_points()
self.s.offset_all_coordinates()
highest_coord = self.s.find_highest_coords()
self.s.width = highest_coord[0]
self.s.height = highest_coord[1]
self.s.DRC_LVS(final_verification=True)
if not OPTS.is_unit_test:
print_time("SRAM creation", datetime.datetime.now(), start_time)
def sp_write(self,name):
self.s.sp_write(name)
def gds_write(self,name):
self.s.gds_write(name)
def verilog_write(self,name):
self.s.verilog_write(name)
def save(self):
""" Save all the output files while reporting time to do it as well. """
# Save the spice file
start_time = datetime.datetime.now()
spname = OPTS.output_path + self.s.name + ".sp"
print("SP: Writing to {0}".format(spname))
self.s.sp_write(spname)
print_time("Spice 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
sp_file = OPTS.output_path + "temp_pex.sp"
verify.run_pex(self.s.name, gdsname, spname, output=sp_file)
print_time("Extraction", datetime.datetime.now(), start_time)
else:
# Use generated spice file for characterization
sp_file = spname
# Characterize the design
start_time = datetime.datetime.now()
from characterizer import lib
print("LIB: Characterizing... ")
if OPTS.analytical_delay:
print("Using analytical delay models (no characterization)")
else:
if OPTS.spice_name!="":
print("Performing simulation-based characterization with {}".format(OPTS.spice_name))
if OPTS.trim_netlist:
print("Trimming netlist to speed up characterization.")
lib(out_dir=OPTS.output_path, sram=self.s, sp_file=sp_file)
print_time("Characterization", datetime.datetime.now(), start_time)
if not OPTS.netlist_only:
# Write the layout
start_time = datetime.datetime.now()
gdsname = OPTS.output_path + self.s.name + ".gds"
print("GDS: Writing to {0}".format(gdsname))
self.s.gds_write(gdsname)
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 + ".lef"
print("LEF: Writing to {0}".format(lefname))
self.s.lef_write(lefname)
print_time("LEF", datetime.datetime.now(), start_time)
# Write a verilog model
start_time = datetime.datetime.now()
vname = OPTS.output_path + self.s.name + ".v"
print("Verilog: Writing to {0}".format(vname))
self.s.verilog_write(vname)
print_time("Verilog", datetime.datetime.now(), start_time)
Reference in New Issue View Git Blame Copy Permalink