Simulation.py: move code related to checkpointing to functions
This patch moves the code related to checkpointing from the run() function to several different functions. The aim is to make the code more manageable. No functionality changes are expected, but since the code is kind of unruly, it is possible that some change might have creeped in.
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1 changed files with 147 additions and 123 deletions
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@ -99,6 +99,143 @@ def setWorkCountOptions(system, options):
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if options.work_cpus_checkpoint_count != None:
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system.work_cpus_ckpt_count = options.work_cpus_checkpoint_count
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def findCptDir(options, maxtick, cptdir, testsys):
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"""Figures out the directory from which the checkpointed state is read.
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There are two different ways in which the directories holding checkpoints
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can be named --
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1. cpt.<benchmark name>.<instruction count when the checkpoint was taken>
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2. cpt.<some number, usually the tick value when the checkpoint was taken>
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This function parses through the options to figure out which one of the
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above should be used for selecting the checkpoint, and then figures out
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the appropriate directory.
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It also sets the value of the maximum tick value till which the simulation
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will run.
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"""
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from os.path import isdir, exists
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from os import listdir
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import re
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if not isdir(cptdir):
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fatal("checkpoint dir %s does not exist!", cptdir)
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if options.at_instruction or options.simpoint:
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inst = options.checkpoint_restore
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if options.simpoint:
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# assume workload 0 has the simpoint
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if testsys.cpu[0].workload[0].simpoint == 0:
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fatal('Unable to find simpoint')
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inst += int(testsys.cpu[0].workload[0].simpoint)
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checkpoint_dir = joinpath(cptdir, "cpt.%s.%s" % (options.bench, inst))
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if not exists(checkpoint_dir):
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fatal("Unable to find checkpoint directory %s", checkpoint_dir)
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else:
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dirs = listdir(cptdir)
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expr = re.compile('cpt\.([0-9]*)')
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cpts = []
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for dir in dirs:
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match = expr.match(dir)
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if match:
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cpts.append(match.group(1))
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cpts.sort(lambda a,b: cmp(long(a), long(b)))
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cpt_num = options.checkpoint_restore
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if cpt_num > len(cpts):
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fatal('Checkpoint %d not found', cpt_num)
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maxtick = maxtick - int(cpts[cpt_num - 1])
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checkpoint_dir = joinpath(cptdir, "cpt.%s" % cpts[cpt_num - 1])
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return maxtick, checkpoint_dir
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def scriptCheckpoints(options):
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if options.at_instruction or options.simpoint:
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checkpoint_inst = int(options.take_checkpoints)
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# maintain correct offset if we restored from some instruction
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if options.checkpoint_restore != None:
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checkpoint_inst += options.checkpoint_restore
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print "Creating checkpoint at inst:%d" % (checkpoint_inst)
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exit_event = m5.simulate()
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exit_cause = exit_event.getCause()
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print "exit cause = %s" % exit_cause
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# skip checkpoint instructions should they exist
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while exit_cause == "checkpoint":
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exit_event = m5.simulate()
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exit_cause = exit_event.getCause()
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if exit_cause == "a thread reached the max instruction count":
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m5.checkpoint(joinpath(cptdir, "cpt.%s.%d" % \
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(options.bench, checkpoint_inst)))
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print "Checkpoint written."
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else:
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when, period = options.take_checkpoints.split(",", 1)
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when = int(when)
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period = int(period)
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exit_event = m5.simulate(when)
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exit_cause = exit_event.getCause()
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while exit_cause == "checkpoint":
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exit_event = m5.simulate(when - m5.curTick())
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exit_cause = exit_event.getCause()
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if exit_cause == "simulate() limit reached":
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m5.checkpoint(joinpath(cptdir, "cpt.%d"))
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num_checkpoints += 1
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sim_ticks = when
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num_checkpoints = 0
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max_checkpoints = options.max_checkpoints
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while num_checkpoints < max_checkpoints and \
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exit_cause == "simulate() limit reached":
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if (sim_ticks + period) > maxtick:
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exit_event = m5.simulate(maxtick - sim_ticks)
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exit_cause = exit_event.getCause()
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break
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else:
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exit_event = m5.simulate(period)
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exit_cause = exit_event.getCause()
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sim_ticks += period
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while exit_event.getCause() == "checkpoint":
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exit_event = m5.simulate(sim_ticks - m5.curTick())
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if exit_event.getCause() == "simulate() limit reached":
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m5.checkpoint(joinpath(cptdir, "cpt.%d"))
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num_checkpoints += 1
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return exit_cause
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def benchCheckpoints(options, maxtick, cptdir):
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if options.fast_forward:
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m5.stats.reset()
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print "**** REAL SIMULATION ****"
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exit_event = m5.simulate(maxtick)
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exit_cause = exit_event.getCause()
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num_checkpoints = 0
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max_checkpoints = options.max_checkpoints
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while exit_cause == "checkpoint":
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m5.checkpoint(joinpath(cptdir, "cpt.%d"))
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num_checkpoints += 1
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if num_checkpoints == max_checkpoints:
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exit_cause = "maximum %d checkpoints dropped" % max_checkpoints
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break
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exit_event = m5.simulate(maxtick - m5.curTick())
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exit_cause = exit_event.getCause()
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return exit_cause
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def run(options, root, testsys, cpu_class):
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if options.maxtick:
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maxtick = options.maxtick
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@ -123,7 +260,6 @@ def run(options, root, testsys, cpu_class):
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fatal("Must specify --caches when using --standard-switch")
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np = options.num_cpus
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max_checkpoints = options.max_checkpoints
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switch_cpus = None
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if options.prog_interval:
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@ -229,45 +365,7 @@ def run(options, root, testsys, cpu_class):
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checkpoint_dir = None
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if options.checkpoint_restore != None:
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from os.path import isdir, exists
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from os import listdir
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import re
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if not isdir(cptdir):
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fatal("checkpoint dir %s does not exist!", cptdir)
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if options.at_instruction or options.simpoint:
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inst = options.checkpoint_restore
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if options.simpoint:
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# assume workload 0 has the simpoint
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if testsys.cpu[0].workload[0].simpoint == 0:
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fatal('Unable to find simpoint')
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inst += int(testsys.cpu[0].workload[0].simpoint)
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checkpoint_dir = joinpath(cptdir,
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"cpt.%s.%s" % (options.bench, inst))
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if not exists(checkpoint_dir):
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fatal("Unable to find checkpoint directory %s", checkpoint_dir)
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else:
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dirs = listdir(cptdir)
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expr = re.compile('cpt\.([0-9]*)')
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cpts = []
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for dir in dirs:
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match = expr.match(dir)
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if match:
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cpts.append(match.group(1))
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cpts.sort(lambda a,b: cmp(long(a), long(b)))
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cpt_num = options.checkpoint_restore
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if cpt_num > len(cpts):
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fatal('Checkpoint %d not found', cpt_num)
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## Adjust max tick based on our starting tick
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maxtick = maxtick - int(cpts[cpt_num - 1])
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checkpoint_dir = joinpath(cptdir, "cpt.%s" % cpts[cpt_num - 1])
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maxtick, checkpoint_dir = findCptDir(options, maxtick, cptdir, testsys)
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m5.instantiate(checkpoint_dir)
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if options.standard_switch or cpu_class:
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@ -310,9 +408,6 @@ def run(options, root, testsys, cpu_class):
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m5.switchCpus(switch_cpu_list1)
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m5.resume(testsys)
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num_checkpoints = 0
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exit_cause = ''
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# If we're taking and restoring checkpoints, use checkpoint_dir
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# option only for finding the checkpoints to restore from. This
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# lets us test checkpointing by restoring from one set of
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@ -323,88 +418,17 @@ def run(options, root, testsys, cpu_class):
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else:
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cptdir = getcwd()
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if options.take_checkpoints != None :
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# Checkpoints being taken via the command line at <when> and at
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# subsequent periods of <period>. Checkpoint instructions
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# received from the benchmark running are ignored and skipped in
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# favor of command line checkpoint instructions.
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if options.take_checkpoints != None :
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if options.at_instruction or options.simpoint:
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checkpoint_inst = int(options.take_checkpoints)
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# maintain correct offset if we restored from some instruction
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if options.checkpoint_restore != None:
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checkpoint_inst += options.checkpoint_restore
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print "Creating checkpoint at inst:%d" % (checkpoint_inst)
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exit_event = m5.simulate()
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print "exit cause = %s" % (exit_event.getCause())
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# skip checkpoint instructions should they exist
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while exit_event.getCause() == "checkpoint":
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exit_event = m5.simulate()
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if exit_event.getCause() == \
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"a thread reached the max instruction count":
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m5.checkpoint(joinpath(cptdir, "cpt.%s.%d" % \
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(options.bench, checkpoint_inst)))
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print "Checkpoint written."
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num_checkpoints += 1
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if exit_event.getCause() == "user interrupt received":
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exit_cause = exit_event.getCause();
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exit_cause = scriptCheckpoints(options)
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else:
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when, period = options.take_checkpoints.split(",", 1)
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when = int(when)
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period = int(period)
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# If checkpoints are being taken, then the checkpoint instruction
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# will occur in the benchmark code it self.
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exit_cause = benchCheckpoints(options, maxtick, cptdir)
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exit_event = m5.simulate(when)
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while exit_event.getCause() == "checkpoint":
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exit_event = m5.simulate(when - m5.curTick())
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if exit_event.getCause() == "simulate() limit reached":
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m5.checkpoint(joinpath(cptdir, "cpt.%d"))
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num_checkpoints += 1
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sim_ticks = when
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exit_cause = "maximum %d checkpoints dropped" % max_checkpoints
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while num_checkpoints < max_checkpoints and \
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exit_event.getCause() == "simulate() limit reached":
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if (sim_ticks + period) > maxtick:
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exit_event = m5.simulate(maxtick - sim_ticks)
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exit_cause = exit_event.getCause()
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break
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else:
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exit_event = m5.simulate(period)
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sim_ticks += period
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while exit_event.getCause() == "checkpoint":
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exit_event = m5.simulate(sim_ticks - m5.curTick())
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if exit_event.getCause() == "simulate() limit reached":
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m5.checkpoint(joinpath(cptdir, "cpt.%d"))
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num_checkpoints += 1
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if exit_event.getCause() != "simulate() limit reached":
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exit_cause = exit_event.getCause();
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else: # no checkpoints being taken via this script
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if options.fast_forward:
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m5.stats.reset()
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print "**** REAL SIMULATION ****"
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exit_event = m5.simulate(maxtick)
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while exit_event.getCause() == "checkpoint":
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m5.checkpoint(joinpath(cptdir, "cpt.%d"))
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num_checkpoints += 1
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if num_checkpoints == max_checkpoints:
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exit_cause = "maximum %d checkpoints dropped" % max_checkpoints
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break
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exit_event = m5.simulate(maxtick - m5.curTick())
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exit_cause = exit_event.getCause()
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if exit_cause == '':
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exit_cause = exit_event.getCause()
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print 'Exiting @ tick %i because %s' % (m5.curTick(), exit_cause)
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if options.checkpoint_at_end:
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m5.checkpoint(joinpath(cptdir, "cpt.%d"))
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