# See LICENSE for licensing information. # # Copyright (c) 2016-2021 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 is called globals.py, but it actually parses all the arguments and performs the global OpenRAM setup as well. """ import os import debug import shutil import optparse import options import sys import re import copy import importlib import getpass import subprocess VERSION = "1.1.18" NAME = "OpenRAM v{}".format(VERSION) USAGE = "openram.py [options] \nUse -h for help.\n" OPTS = options.options() CHECKPOINT_OPTS = None def parse_args(): """ Parse the optional arguments for OpenRAM """ global OPTS option_list = { optparse.make_option("-b", "--backannotated", action="store_true", dest="use_pex", help="Back annotate simulation"), optparse.make_option("-o", "--output", dest="output_name", help="Base output file name(s) prefix", metavar="FILE"), optparse.make_option("-p", "--outpath", dest="output_path", help="Output file(s) location"), optparse.make_option("-i", "--inlinecheck", action="store_true", help="Enable inline LVS/DRC checks", dest="inline_lvsdrc"), optparse.make_option("-n", "--nocheck", action="store_false", help="Disable all LVS/DRC checks", dest="check_lvsdrc"), optparse.make_option("-j", "--threads", action="store", type="int", help="Specify the number of threads (default: 1)", dest="num_threads"), optparse.make_option("-m", "--sim_threads", action="store", type="int", help="Specify the number of spice simulation threads (default: 3)", dest="num_sim_threads"), optparse.make_option("-v", "--verbose", action="count", dest="verbose_level", help="Increase the verbosity level"), optparse.make_option("-t", "--tech", dest="tech_name", help="Technology name"), optparse.make_option("-s", "--spice", dest="spice_name", help="Spice simulator executable name"), optparse.make_option("-r", "--remove_netlist_trimming", action="store_false", dest="trim_netlist", help="Disable removal of noncritical memory cells during characterization"), optparse.make_option("-c", "--characterize", action="store_false", dest="analytical_delay", help="Perform characterization to calculate delays (default is analytical models)"), optparse.make_option("-k", "--keeptemp", action="store_true", dest="keep_temp", help="Keep the contents of the temp directory after a successful run"), optparse.make_option("-d", "--debug", action="store_true", dest="debug", help="Run in debug mode to drop to pdb on failure") # -h --help is implicit. } parser = optparse.OptionParser(option_list=option_list, description=NAME, usage=USAGE, version=VERSION) (options, args) = parser.parse_args(values=OPTS) # If we don't specify a tech, assume scmos. # This may be overridden when we read a config file though... if OPTS.tech_name == "": OPTS.tech_name = "scmos" # Alias SCMOS to 180nm if OPTS.tech_name == "scmos": OPTS.tech_name = "scn4m_subm" # Alias s8 to sky130 if OPTS.tech_name == "s8": OPTS.tech_name = "sky130" return (options, args) def print_banner(): """ Conditionally print the banner to stdout """ global OPTS if OPTS.is_unit_test: return debug.print_raw("|==============================================================================|") debug.print_raw("|=========" + NAME.center(60) + "=========|") debug.print_raw("|=========" + " ".center(60) + "=========|") debug.print_raw("|=========" + "VLSI Design and Automation Lab".center(60) + "=========|") debug.print_raw("|=========" + "Computer Science and Engineering Department".center(60) + "=========|") debug.print_raw("|=========" + "University of California Santa Cruz".center(60) + "=========|") debug.print_raw("|=========" + " ".center(60) + "=========|") user_info = "Usage help: openram-user-group@ucsc.edu" debug.print_raw("|=========" + user_info.center(60) + "=========|") dev_info = "Development help: openram-dev-group@ucsc.edu" debug.print_raw("|=========" + dev_info.center(60) + "=========|") if OPTS.openram_temp: temp_info = "Temp dir: {}".format(OPTS.openram_temp) debug.print_raw("|=========" + temp_info.center(60) + "=========|") debug.print_raw("|=========" + "See LICENSE for license info".center(60) + "=========|") debug.print_raw("|==============================================================================|") def check_versions(): """ Run some checks of required software versions. """ # Now require python >=3.5 major_python_version = sys.version_info.major minor_python_version = sys.version_info.minor major_required = 3 minor_required = 5 if not (major_python_version == major_required and minor_python_version >= minor_required): debug.error("Python {0}.{1} or greater is required.".format(major_required, minor_required), -1) # FIXME: Check versions of other tools here?? # or, this could be done in each module (e.g. verify, characterizer, etc.) global OPTS def cmd_exists(cmd): return subprocess.call("type " + cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) == 0 if cmd_exists("coverage"): OPTS.coverage_exe = "coverage run -p " elif cmd_exists("python3-coverage"): OPTS.coverage_exe = "python3-coverage run -p " else: OPTS.coverage_exe = "" debug.warning("Failed to find coverage installation. This can be installed with pip3 install coverage") try: import coverage OPTS.coverage = 1 except ModuleNotFoundError: OPTS.coverage = 0 def init_openram(config_file, is_unit_test=True): """ Initialize the technology, paths, simulators, etc. """ check_versions() debug.info(1, "Initializing OpenRAM...") setup_paths() read_config(config_file, is_unit_test) import_tech() set_default_corner() init_paths() from sram_factory import factory factory.reset() global OPTS global CHECKPOINT_OPTS # This is a hack. If we are running a unit test and have checkpointed # the options, load them rather than reading the config file. # This way, the configuration is reloaded at the start of every unit test. # If a unit test fails, # we don't have to worry about restoring the old config values # that may have been tested. if is_unit_test and CHECKPOINT_OPTS: OPTS.__dict__ = CHECKPOINT_OPTS.__dict__.copy() return # Setup correct bitcell names setup_bitcell() # Import these to find the executables for checkpointing import characterizer import verify # Make a checkpoint of the options so we can restore # after each unit test if not CHECKPOINT_OPTS: CHECKPOINT_OPTS = copy.copy(OPTS) def setup_bitcell(): """ Determine the correct custom or parameterized bitcell for the design. """ # If we have non-1rw ports, # and the user didn't over-ride the bitcell manually, # figure out the right bitcell to use if OPTS.bitcell == "pbitcell": OPTS.bitcell = "pbitcell" OPTS.dummy_bitcell = "dummy_pbitcell" OPTS.replica_bitcell = "replica_pbitcell" else: OPTS.num_ports = OPTS.num_rw_ports + OPTS.num_w_ports + OPTS.num_r_ports OPTS.bitcell = "bitcell_{}port".format(OPTS.num_ports) OPTS.dummy_bitcell = "dummy_" + OPTS.bitcell OPTS.replica_bitcell = "replica_" + OPTS.bitcell # See if bitcell exists try: __import__(OPTS.bitcell) except ImportError: # Use the pbitcell if we couldn't find a custom bitcell # or its custom replica bitcell # Use the pbitcell (and give a warning if not in unit test mode) OPTS.bitcell = "pbitcell" OPTS.dummy_bitcell = "dummy_pbitcell" OPTS.replica_bitcell = "replica_pbitcell" if not OPTS.is_unit_test: msg = "Didn't find {0}rw {1}w {2}r port bitcell. ".format(OPTS.num_rw_ports, OPTS.num_w_ports, OPTS.num_r_ports) debug.warning("{} Using the parameterized bitcell which may have suboptimal density.".format(msg)) debug.info(1, "Using bitcell: {}".format(OPTS.bitcell)) def get_tool(tool_type, preferences, default_name=None): """ Find which tool we have from a list of preferences and return the one selected and its full path. If default is specified, find that one only and error otherwise. """ debug.info(2, "Finding {} tool...".format(tool_type)) if default_name: exe_name = find_exe(default_name) if exe_name == None: debug.error("{0} not found. Cannot find {1} tool.".format(default_name, tool_type) + "Disable DRC/LVS with check_lvsdrc=False to ignore.", 2) else: debug.info(1, "Using {0}: {1}".format(tool_type, exe_name)) return(default_name, exe_name) else: for name in preferences: exe_name = find_exe(name) if exe_name != None: debug.info(1, "Using {0}: {1}".format(tool_type, exe_name)) return(name, exe_name) else: debug.info(1, "Could not find {0}, trying next {1} tool.".format(name, tool_type)) else: return(None, "") def read_config(config_file, is_unit_test=True): """ Read the configuration file that defines a few parameters. The config file is just a Python file that defines some config options. This will only actually get read the first time. Subsequent reads will just restore the previous copy (ask mrg) """ global OPTS # it is already not an abs path, make it one if not os.path.isabs(config_file): config_file = os.getcwd() + "/" + config_file # Make it a python file if the base name was only given config_file = re.sub(r'\.py$', "", config_file) # Expand the user if it is used config_file = os.path.expanduser(config_file) OPTS.config_file = config_file + ".py" # Add the path to the system path # so we can import things in the other directory dir_name = os.path.dirname(config_file) module_name = os.path.basename(config_file) # Check that the module name adheres to Python's module naming conventions. # This will assist the user in interpreting subsequent errors in loading # the module. Valid Python module naming is described here: # https://docs.python.org/3/reference/simple_stmts.html#the-import-statement if not module_name.isidentifier(): debug.error("Configuration file name is not a valid Python module name: " "{0}. It should be a valid identifier.".format(module_name)) # Prepend the path to avoid if we are using the example config sys.path.insert(0, dir_name) # Import the configuration file of which modules to use debug.info(1, "Configuration file is " + config_file + ".py") try: config = importlib.import_module(module_name) except ImportError: debug.error("Unable to read configuration file: {0}".format(config_file), 2) OPTS.overridden = {} for k, v in config.__dict__.items(): # The command line will over-ride the config file # except in the case of the tech name! This is because the tech name # is sometimes used to specify the config file itself (e.g. unit tests) # Note that if we re-read a config file, nothing will get read again! if k not in OPTS.__dict__ or k == "tech_name": OPTS.__dict__[k] = v OPTS.overridden[k] = True # Massage the output path to be an absolute one if not OPTS.output_path.endswith('/'): OPTS.output_path += "/" if not OPTS.output_path.startswith('/'): OPTS.output_path = os.getcwd() + "/" + OPTS.output_path debug.info(1, "Output saved in " + OPTS.output_path) # Remember if we are running unit tests to reduce output OPTS.is_unit_test = is_unit_test # If we are only generating a netlist, we can't do DRC/LVS if OPTS.netlist_only: OPTS.check_lvsdrc = False # If config didn't set output name, make a reasonable default. if (OPTS.output_name == ""): ports = "" if OPTS.num_rw_ports > 0: ports += "{}rw_".format(OPTS.num_rw_ports) if OPTS.num_w_ports > 0: ports += "{}w_".format(OPTS.num_w_ports) if OPTS.num_r_ports > 0: ports += "{}r_".format(OPTS.num_r_ports) OPTS.output_name = "sram_{0}b_{1}_{2}{3}".format(OPTS.word_size, OPTS.num_words, ports, OPTS.tech_name) def end_openram(): """ Clean up openram for a proper exit """ cleanup_paths() if OPTS.check_lvsdrc: import verify verify.print_drc_stats() verify.print_lvs_stats() verify.print_pex_stats() def purge_temp(): """ Remove the temp directory. """ debug.info(1, "Purging temp directory: {}".format(OPTS.openram_temp)) #import inspect #s = inspect.stack() #print("Purge {0} in dir {1}".format(s[3].filename, OPTS.openram_temp)) # This annoyingly means you have to re-cd into # the directory each debug iteration # shutil.rmtree(OPTS.openram_temp, ignore_errors=True) contents = [os.path.join(OPTS.openram_temp, i) for i in os.listdir(OPTS.openram_temp)] for i in contents: if os.path.isfile(i) or os.path.islink(i): os.remove(i) else: shutil.rmtree(i) def cleanup_paths(): """ We should clean up the temp directory after execution. """ global OPTS if OPTS.keep_temp: debug.info(0, "Preserving temp directory: {}".format(OPTS.openram_temp)) return elif os.path.exists(OPTS.openram_temp): purge_temp() def setup_paths(): """ Set up the non-tech related paths. """ debug.info(2, "Setting up paths...") global OPTS try: OPENRAM_HOME = os.path.abspath(os.environ.get("OPENRAM_HOME")) except: debug.error("$OPENRAM_HOME is not properly defined.", 1) debug.check(os.path.isdir(OPENRAM_HOME), "$OPENRAM_HOME does not exist: {0}".format(OPENRAM_HOME)) # Add all of the subdirs to the python path # These subdirs are modules and don't need # to be added: characterizer, verify subdirlist = [item for item in os.listdir(OPENRAM_HOME) if os.path.isdir(os.path.join(OPENRAM_HOME, item))] for subdir in subdirlist: full_path = "{0}/{1}".format(OPENRAM_HOME, subdir) debug.check(os.path.isdir(full_path), "$OPENRAM_HOME/{0} does not exist: {1}".format(subdir, full_path)) if "__pycache__" not in full_path: sys.path.append("{0}".format(full_path)) # Use a unique temp subdirectory if multithreaded if OPTS.num_threads > 1 or OPTS.openram_temp == "/tmp": # Make a unique subdir tempdir = "/openram_{0}_{1}_temp".format(getpass.getuser(), os.getpid()) # Only add the unique subdir one time if tempdir not in OPTS.openram_temp: OPTS.openram_temp += tempdir if not OPTS.openram_temp.endswith('/'): OPTS.openram_temp += "/" debug.info(1, "Temporary files saved in " + OPTS.openram_temp) def is_exe(fpath): """ Return true if the given is an executable file that exists. """ return os.path.exists(fpath) and os.access(fpath, os.X_OK) def find_exe(check_exe): """ Check if the binary exists in any path dir and return the full path. """ # Check if the preferred spice option exists in the path for path in os.environ["PATH"].split(os.pathsep): exe = os.path.join(path, check_exe) # if it is found, then break and use first version if is_exe(exe): return exe return None def init_paths(): """ Create the temp and output directory if it doesn't exist """ if os.path.exists(OPTS.openram_temp): purge_temp() else: # make the directory if it doesn't exist try: debug.info(1, "Creating temp directory: {}".format(OPTS.openram_temp)) os.makedirs(OPTS.openram_temp, 0o750) except OSError as e: if e.errno == 17: # errno.EEXIST os.chmod(OPTS.openram_temp, 0o750) #import inspect #s = inspect.stack() #from pprint import pprint #pprint(s) #print("Test {0} in dir {1}".format(s[2].filename, OPTS.openram_temp)) # Don't delete the output dir, it may have other files! # make the directory if it doesn't exist try: os.makedirs(OPTS.output_path, 0o750) except OSError as e: if e.errno == 17: # errno.EEXIST os.chmod(OPTS.output_path, 0o750) except: debug.error("Unable to make output directory.", -1) def set_default_corner(): """ Set the default corner. """ import tech # Set some default options now based on the technology... if (OPTS.process_corners == ""): if OPTS.nominal_corner_only: OPTS.process_corners = ["TT"] else: OPTS.process_corners = list(tech.spice["fet_models"].keys()) if (OPTS.supply_voltages == ""): if OPTS.nominal_corner_only: OPTS.supply_voltages = [tech.spice["supply_voltages"][1]] else: OPTS.supply_voltages = tech.spice["supply_voltages"] if (OPTS.temperatures == ""): if OPTS.nominal_corner_only: OPTS.temperatures = [tech.spice["temperatures"][1]] else: OPTS.temperatures = tech.spice["temperatures"] # Load scales are fanout multiples of the DFF input cap if (OPTS.load_scales == ""): OPTS.load_scales = [0.25, 1, 4] # Load scales are fanout multiples of the default spice input slew if (OPTS.slew_scales == ""): OPTS.slew_scales = [0.25, 1, 8] def import_tech(): """ Dynamically adds the tech directory to the path and imports it. """ global OPTS debug.info(2, "Importing technology: " + OPTS.tech_name) # environment variable should point to the technology dir try: OPENRAM_TECH = os.path.abspath(os.environ.get("OPENRAM_TECH")) except: debug.error("$OPENRAM_TECH environment variable is not defined.", 1) # Add all of the paths for tech_path in OPENRAM_TECH.split(":"): debug.check(os.path.isdir(tech_path), "$OPENRAM_TECH does not exist: {0}".format(tech_path)) sys.path.append(tech_path) debug.info(1, "Adding technology path: {}".format(tech_path)) # Import the tech try: tech_mod = __import__(OPTS.tech_name) except ImportError: debug.error("Nonexistent technology module: {0}".format(OPTS.tech_name), -1) OPTS.openram_tech = os.path.dirname(tech_mod.__file__) + "/" # Add the tech directory tech_path = OPTS.openram_tech sys.path.append(tech_path) try: import tech except ImportError: debug.error("Could not load tech module.", -1) # Add custom modules of the technology to the path, if they exist custom_mod_path = os.path.join(tech_path, "modules/") if os.path.exists(custom_mod_path): sys.path.append(custom_mod_path) def print_time(name, now_time, last_time=None, indentation=2): """ Print a statement about the time delta. """ global OPTS # Don't print during testing if not OPTS.is_unit_test or OPTS.verbose_level > 0: if last_time: time = str(round((now_time - last_time).total_seconds(), 1)) + " seconds" else: time = now_time.strftime('%m/%d/%Y %H:%M:%S') debug.print_raw("{0} {1}: {2}".format("*" * indentation, name, time)) def report_status(): """ Check for valid arguments and report the info about the SRAM being generated """ global OPTS # Check if all arguments are integers for bits, size, banks if type(OPTS.word_size) != int: debug.error("{0} is not an integer in config file.".format(OPTS.word_size)) if type(OPTS.num_words) != int: debug.error("{0} is not an integer in config file.".format(OPTS.sram_size)) if type(OPTS.write_size) is not int and OPTS.write_size is not None: debug.error("{0} is not an integer in config file.".format(OPTS.write_size)) # If a write mask is specified by the user, the mask write size should be the same as # the word size so that an entire word is written at once. if OPTS.write_size is not None and OPTS.write_size != OPTS.word_size: if (OPTS.word_size % OPTS.write_size != 0): debug.error("Write size needs to be an integer multiple of word size.") # If write size is more than half of the word size, # then it doesn't need a write mask. It would be writing # the whole word. if (OPTS.write_size < 1 or OPTS.write_size > OPTS.word_size / 2): debug.error("Write size needs to be between 1 bit and {0} bits.".format(int(OPTS.word_size / 2))) if not OPTS.tech_name: debug.error("Tech name must be specified in config file.") debug.print_raw("Technology: {0}".format(OPTS.tech_name)) total_size = OPTS.word_size*OPTS.num_words*OPTS.num_banks debug.print_raw("Total size: {} bits".format(total_size)) if total_size >= 2**14 and not OPTS.analytical_delay: debug.warning("Characterizing large memories ({0}) will have a large run-time. ".format(total_size)) debug.print_raw("Word size: {0}\nWords: {1}\nBanks: {2}".format(OPTS.word_size, OPTS.num_words, OPTS.num_banks)) if (OPTS.write_size != OPTS.word_size): debug.print_raw("Write size: {}".format(OPTS.write_size)) debug.print_raw("RW ports: {0}\nR-only ports: {1}\nW-only ports: {2}".format(OPTS.num_rw_ports, OPTS.num_r_ports, OPTS.num_w_ports)) if OPTS.netlist_only: debug.print_raw("Netlist only mode (no physical design is being done, netlist_only=False to disable).") if not OPTS.route_supplies: debug.print_raw("Design supply routing skipped. Supplies will have multiple must-connect pins. (route_supplies=True to enable supply routing).") if not OPTS.inline_lvsdrc: debug.print_raw("DRC/LVS/PEX is only run on the top-level design to save run-time (inline_lvsdrc=True to do inline checking).") if not OPTS.check_lvsdrc: debug.print_raw("DRC/LVS/PEX is disabled (check_lvsdrc=True to enable).") if OPTS.analytical_delay: debug.print_raw("Characterization is disabled (using analytical delay models) (analytical_delay=False to simulate).") else: if OPTS.spice_name != "": debug.print_raw("Performing simulation-based characterization with {}".format(OPTS.spice_name)) if OPTS.trim_netlist: debug.print_raw("Trimming netlist to speed up characterization (trim_netlist=False to disable).") if OPTS.nominal_corner_only: debug.print_raw("Only generating nominal corner timing.")