826f69b470
This patch ensures that the CPU progress Event is triggered for the new set of switched_cpus that get scheduled (e.g. during fast-forwarding). it also avoids printing the interval state if the cpu is currently switched out. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
702 lines
28 KiB
Python
702 lines
28 KiB
Python
# Copyright (c) 2012-2013 ARM Limited
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# All rights reserved
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#
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# The license below extends only to copyright in the software and shall
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# not be construed as granting a license to any other intellectual
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# property including but not limited to intellectual property relating
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# to a hardware implementation of the functionality of the software
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# licensed hereunder. You may use the software subject to the license
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# terms below provided that you ensure that this notice is replicated
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# unmodified and in its entirety in all distributions of the software,
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# modified or unmodified, in source code or in binary form.
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#
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# Copyright (c) 2006-2008 The Regents of The University of Michigan
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# Copyright (c) 2010 Advanced Micro Devices, Inc.
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met: redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer;
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# redistributions in binary form must reproduce the above copyright
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# notice, this list of conditions and the following disclaimer in the
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# documentation and/or other materials provided with the distribution;
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# neither the name of the copyright holders nor the names of its
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# contributors may be used to endorse or promote products derived from
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# this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#
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# Authors: Lisa Hsu
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import sys
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from os import getcwd
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from os.path import join as joinpath
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import CpuConfig
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import MemConfig
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import m5
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from m5.defines import buildEnv
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from m5.objects import *
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from m5.util import *
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addToPath('../common')
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def getCPUClass(cpu_type):
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"""Returns the required cpu class and the mode of operation."""
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cls = CpuConfig.get(cpu_type)
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return cls, cls.memory_mode()
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def setCPUClass(options):
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"""Returns two cpu classes and the initial mode of operation.
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Restoring from a checkpoint or fast forwarding through a benchmark
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can be done using one type of cpu, and then the actual
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simulation can be carried out using another type. This function
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returns these two types of cpus and the initial mode of operation
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depending on the options provided.
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"""
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TmpClass, test_mem_mode = getCPUClass(options.cpu_type)
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CPUClass = None
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if TmpClass.require_caches() and \
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not options.caches and not options.ruby:
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fatal("%s must be used with caches" % options.cpu_type)
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if options.checkpoint_restore != None:
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if options.restore_with_cpu != options.cpu_type:
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CPUClass = TmpClass
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TmpClass, test_mem_mode = getCPUClass(options.restore_with_cpu)
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elif options.fast_forward:
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CPUClass = TmpClass
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TmpClass = AtomicSimpleCPU
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test_mem_mode = 'atomic'
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return (TmpClass, test_mem_mode, CPUClass)
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def setMemClass(options):
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"""Returns a memory controller class."""
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return MemConfig.get(options.mem_type)
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def setWorkCountOptions(system, options):
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if options.work_item_id != None:
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system.work_item_id = options.work_item_id
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if options.num_work_ids != None:
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system.num_work_ids = options.num_work_ids
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if options.work_begin_cpu_id_exit != None:
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system.work_begin_cpu_id_exit = options.work_begin_cpu_id_exit
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if options.work_end_exit_count != None:
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system.work_end_exit_count = options.work_end_exit_count
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if options.work_end_checkpoint_count != None:
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system.work_end_ckpt_count = options.work_end_checkpoint_count
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if options.work_begin_exit_count != None:
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system.work_begin_exit_count = options.work_begin_exit_count
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if options.work_begin_checkpoint_count != None:
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system.work_begin_ckpt_count = options.work_begin_checkpoint_count
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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, 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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"""
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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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cpt_starttick = 0
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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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elif options.restore_simpoint_checkpoint:
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# Restore from SimPoint checkpoints
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# Assumes that the checkpoint dir names are formatted as follows:
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dirs = listdir(cptdir)
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expr = re.compile('cpt\.simpoint_(\d+)_inst_(\d+)' +
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'_weight_([\d\.e\-]+)_interval_(\d+)_warmup_(\d+)')
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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(dir)
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cpts.sort()
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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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checkpoint_dir = joinpath(cptdir, cpts[cpt_num - 1])
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match = expr.match(cpts[cpt_num - 1])
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if match:
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index = int(match.group(1))
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start_inst = int(match.group(2))
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weight_inst = float(match.group(3))
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interval_length = int(match.group(4))
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warmup_length = int(match.group(5))
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print "Resuming from", checkpoint_dir
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simpoint_start_insts = []
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simpoint_start_insts.append(warmup_length)
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simpoint_start_insts.append(warmup_length + interval_length)
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testsys.cpu[0].simpoint_start_insts = simpoint_start_insts
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if testsys.switch_cpus != None:
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testsys.switch_cpus[0].simpoint_start_insts = simpoint_start_insts
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print "Resuming from SimPoint",
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print "#%d, start_inst:%d, weight:%f, interval:%d, warmup:%d" % \
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(index, start_inst, weight_inst, interval_length, warmup_length)
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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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cpt_starttick = int(cpts[cpt_num - 1])
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checkpoint_dir = joinpath(cptdir, "cpt.%s" % cpts[cpt_num - 1])
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return cpt_starttick, checkpoint_dir
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def scriptCheckpoints(options, maxtick, cptdir):
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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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num_checkpoints = 0
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exit_event = m5.simulate(when - m5.curTick())
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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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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_event
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def benchCheckpoints(options, maxtick, cptdir):
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exit_event = m5.simulate(maxtick - m5.curTick())
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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_event
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# Set up environment for taking SimPoint checkpoints
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# Expecting SimPoint files generated by SimPoint 3.2
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def parseSimpointAnalysisFile(options, testsys):
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import re
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simpoint_filename, weight_filename, interval_length, warmup_length = \
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options.take_simpoint_checkpoints.split(",", 3)
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print "simpoint analysis file:", simpoint_filename
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print "simpoint weight file:", weight_filename
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print "interval length:", interval_length
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print "warmup length:", warmup_length
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interval_length = int(interval_length)
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warmup_length = int(warmup_length)
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# Simpoint analysis output starts interval counts with 0.
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simpoints = []
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simpoint_start_insts = []
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# Read in SimPoint analysis files
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simpoint_file = open(simpoint_filename)
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weight_file = open(weight_filename)
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while True:
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line = simpoint_file.readline()
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if not line:
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break
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m = re.match("(\d+)\s+(\d+)", line)
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if m:
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interval = int(m.group(1))
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else:
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fatal('unrecognized line in simpoint file!')
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line = weight_file.readline()
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if not line:
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fatal('not enough lines in simpoint weight file!')
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m = re.match("([0-9\.e\-]+)\s+(\d+)", line)
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if m:
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weight = float(m.group(1))
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else:
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fatal('unrecognized line in simpoint weight file!')
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if (interval * interval_length - warmup_length > 0):
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starting_inst_count = \
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interval * interval_length - warmup_length
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actual_warmup_length = warmup_length
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else:
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# Not enough room for proper warmup
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# Just starting from the beginning
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starting_inst_count = 0
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actual_warmup_length = interval * interval_length
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simpoints.append((interval, weight, starting_inst_count,
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actual_warmup_length))
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# Sort SimPoints by starting inst count
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simpoints.sort(key=lambda obj: obj[2])
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for s in simpoints:
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interval, weight, starting_inst_count, actual_warmup_length = s
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print str(interval), str(weight), starting_inst_count, \
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actual_warmup_length
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simpoint_start_insts.append(starting_inst_count)
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print "Total # of simpoints:", len(simpoints)
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testsys.cpu[0].simpoint_start_insts = simpoint_start_insts
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return (simpoints, interval_length)
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def takeSimpointCheckpoints(simpoints, interval_length, cptdir):
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num_checkpoints = 0
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index = 0
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last_chkpnt_inst_count = -1
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for simpoint in simpoints:
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interval, weight, starting_inst_count, actual_warmup_length = simpoint
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if starting_inst_count == last_chkpnt_inst_count:
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# checkpoint starting point same as last time
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# (when warmup period longer than starting point)
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exit_cause = "simpoint starting point found"
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code = 0
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else:
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exit_event = m5.simulate()
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# skip checkpoint instructions should they exist
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while exit_event.getCause() == "checkpoint":
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print "Found 'checkpoint' exit event...ignoring..."
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exit_event = m5.simulate()
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exit_cause = exit_event.getCause()
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code = exit_event.getCode()
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if exit_cause == "simpoint starting point found":
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m5.checkpoint(joinpath(cptdir,
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"cpt.simpoint_%02d_inst_%d_weight_%f_interval_%d_warmup_%d"
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% (index, starting_inst_count, weight, interval_length,
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actual_warmup_length)))
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print "Checkpoint #%d written. start inst:%d weight:%f" % \
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(num_checkpoints, starting_inst_count, weight)
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num_checkpoints += 1
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last_chkpnt_inst_count = starting_inst_count
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else:
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break
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index += 1
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print 'Exiting @ tick %i because %s' % (m5.curTick(), exit_cause)
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print "%d checkpoints taken" % num_checkpoints
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sys.exit(code)
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def restoreSimpointCheckpoint():
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exit_event = m5.simulate()
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exit_cause = exit_event.getCause()
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if exit_cause == "simpoint starting point found":
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print "Warmed up! Dumping and resetting stats!"
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m5.stats.dump()
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m5.stats.reset()
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exit_event = m5.simulate()
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exit_cause = exit_event.getCause()
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if exit_cause == "simpoint starting point found":
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print "Done running SimPoint!"
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sys.exit(exit_event.getCode())
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print 'Exiting @ tick %i because %s' % (m5.curTick(), exit_cause)
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sys.exit(exit_event.getCode())
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def repeatSwitch(testsys, repeat_switch_cpu_list, maxtick, switch_freq):
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print "starting switch loop"
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while True:
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exit_event = m5.simulate(switch_freq)
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exit_cause = exit_event.getCause()
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if exit_cause != "simulate() limit reached":
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return exit_event
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m5.switchCpus(testsys, repeat_switch_cpu_list)
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tmp_cpu_list = []
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for old_cpu, new_cpu in repeat_switch_cpu_list:
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tmp_cpu_list.append((new_cpu, old_cpu))
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repeat_switch_cpu_list = tmp_cpu_list
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if (maxtick - m5.curTick()) <= switch_freq:
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exit_event = m5.simulate(maxtick - m5.curTick())
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return exit_event
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def run(options, root, testsys, cpu_class):
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if options.checkpoint_dir:
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cptdir = options.checkpoint_dir
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elif m5.options.outdir:
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cptdir = m5.options.outdir
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else:
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cptdir = getcwd()
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if options.fast_forward and options.checkpoint_restore != None:
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fatal("Can't specify both --fast-forward and --checkpoint-restore")
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if options.standard_switch and not options.caches:
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fatal("Must specify --caches when using --standard-switch")
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if options.standard_switch and options.repeat_switch:
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fatal("Can't specify both --standard-switch and --repeat-switch")
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if options.repeat_switch and options.take_checkpoints:
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fatal("Can't specify both --repeat-switch and --take-checkpoints")
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np = options.num_cpus
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switch_cpus = None
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if options.prog_interval:
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for i in xrange(np):
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testsys.cpu[i].progress_interval = options.prog_interval
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if options.maxinsts:
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for i in xrange(np):
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testsys.cpu[i].max_insts_any_thread = options.maxinsts
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if cpu_class:
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switch_cpus = [cpu_class(switched_out=True, cpu_id=(i))
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for i in xrange(np)]
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for i in xrange(np):
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if options.fast_forward:
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testsys.cpu[i].max_insts_any_thread = int(options.fast_forward)
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switch_cpus[i].system = testsys
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switch_cpus[i].workload = testsys.cpu[i].workload
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switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain
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switch_cpus[i].progress_interval = testsys.cpu[i].progress_interval
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# simulation period
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if options.maxinsts:
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switch_cpus[i].max_insts_any_thread = options.maxinsts
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# Add checker cpu if selected
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if options.checker:
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switch_cpus[i].addCheckerCpu()
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testsys.switch_cpus = switch_cpus
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switch_cpu_list = [(testsys.cpu[i], switch_cpus[i]) for i in xrange(np)]
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if options.repeat_switch:
|
|
switch_class = getCPUClass(options.cpu_type)[0]
|
|
if switch_class.require_caches() and \
|
|
not options.caches:
|
|
print "%s: Must be used with caches" % str(switch_class)
|
|
sys.exit(1)
|
|
if not switch_class.support_take_over():
|
|
print "%s: CPU switching not supported" % str(switch_class)
|
|
sys.exit(1)
|
|
|
|
repeat_switch_cpus = [switch_class(switched_out=True, \
|
|
cpu_id=(i)) for i in xrange(np)]
|
|
|
|
for i in xrange(np):
|
|
repeat_switch_cpus[i].system = testsys
|
|
repeat_switch_cpus[i].workload = testsys.cpu[i].workload
|
|
repeat_switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain
|
|
|
|
if options.maxinsts:
|
|
repeat_switch_cpus[i].max_insts_any_thread = options.maxinsts
|
|
|
|
if options.checker:
|
|
repeat_switch_cpus[i].addCheckerCpu()
|
|
|
|
testsys.repeat_switch_cpus = repeat_switch_cpus
|
|
|
|
if cpu_class:
|
|
repeat_switch_cpu_list = [(switch_cpus[i], repeat_switch_cpus[i])
|
|
for i in xrange(np)]
|
|
else:
|
|
repeat_switch_cpu_list = [(testsys.cpu[i], repeat_switch_cpus[i])
|
|
for i in xrange(np)]
|
|
|
|
if options.standard_switch:
|
|
switch_cpus = [TimingSimpleCPU(switched_out=True, cpu_id=(i))
|
|
for i in xrange(np)]
|
|
switch_cpus_1 = [DerivO3CPU(switched_out=True, cpu_id=(i))
|
|
for i in xrange(np)]
|
|
|
|
for i in xrange(np):
|
|
switch_cpus[i].system = testsys
|
|
switch_cpus_1[i].system = testsys
|
|
switch_cpus[i].workload = testsys.cpu[i].workload
|
|
switch_cpus_1[i].workload = testsys.cpu[i].workload
|
|
switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain
|
|
switch_cpus_1[i].clk_domain = testsys.cpu[i].clk_domain
|
|
|
|
# if restoring, make atomic cpu simulate only a few instructions
|
|
if options.checkpoint_restore != None:
|
|
testsys.cpu[i].max_insts_any_thread = 1
|
|
# Fast forward to specified location if we are not restoring
|
|
elif options.fast_forward:
|
|
testsys.cpu[i].max_insts_any_thread = int(options.fast_forward)
|
|
# Fast forward to a simpoint (warning: time consuming)
|
|
elif options.simpoint:
|
|
if testsys.cpu[i].workload[0].simpoint == 0:
|
|
fatal('simpoint not found')
|
|
testsys.cpu[i].max_insts_any_thread = \
|
|
testsys.cpu[i].workload[0].simpoint
|
|
# No distance specified, just switch
|
|
else:
|
|
testsys.cpu[i].max_insts_any_thread = 1
|
|
|
|
# warmup period
|
|
if options.warmup_insts:
|
|
switch_cpus[i].max_insts_any_thread = options.warmup_insts
|
|
|
|
# simulation period
|
|
if options.maxinsts:
|
|
switch_cpus_1[i].max_insts_any_thread = options.maxinsts
|
|
|
|
# attach the checker cpu if selected
|
|
if options.checker:
|
|
switch_cpus[i].addCheckerCpu()
|
|
switch_cpus_1[i].addCheckerCpu()
|
|
|
|
testsys.switch_cpus = switch_cpus
|
|
testsys.switch_cpus_1 = switch_cpus_1
|
|
switch_cpu_list = [(testsys.cpu[i], switch_cpus[i]) for i in xrange(np)]
|
|
switch_cpu_list1 = [(switch_cpus[i], switch_cpus_1[i]) for i in xrange(np)]
|
|
|
|
# set the checkpoint in the cpu before m5.instantiate is called
|
|
if options.take_checkpoints != None and \
|
|
(options.simpoint or options.at_instruction):
|
|
offset = int(options.take_checkpoints)
|
|
# Set an instruction break point
|
|
if options.simpoint:
|
|
for i in xrange(np):
|
|
if testsys.cpu[i].workload[0].simpoint == 0:
|
|
fatal('no simpoint for testsys.cpu[%d].workload[0]', i)
|
|
checkpoint_inst = int(testsys.cpu[i].workload[0].simpoint) + offset
|
|
testsys.cpu[i].max_insts_any_thread = checkpoint_inst
|
|
# used for output below
|
|
options.take_checkpoints = checkpoint_inst
|
|
else:
|
|
options.take_checkpoints = offset
|
|
# Set all test cpus with the right number of instructions
|
|
# for the upcoming simulation
|
|
for i in xrange(np):
|
|
testsys.cpu[i].max_insts_any_thread = offset
|
|
|
|
if options.take_simpoint_checkpoints != None:
|
|
simpoints, interval_length = parseSimpointAnalysisFile(options, testsys)
|
|
|
|
checkpoint_dir = None
|
|
if options.checkpoint_restore:
|
|
cpt_starttick, checkpoint_dir = findCptDir(options, cptdir, testsys)
|
|
m5.instantiate(checkpoint_dir)
|
|
|
|
# Initialization is complete. If we're not in control of simulation
|
|
# (that is, if we're a slave simulator acting as a component in another
|
|
# 'master' simulator) then we're done here. The other simulator will
|
|
# call simulate() directly. --initialize-only is used to indicate this.
|
|
if options.initialize_only:
|
|
return
|
|
|
|
# Handle the max tick settings now that tick frequency was resolved
|
|
# during system instantiation
|
|
# NOTE: the maxtick variable here is in absolute ticks, so it must
|
|
# include any simulated ticks before a checkpoint
|
|
explicit_maxticks = 0
|
|
maxtick_from_abs = m5.MaxTick
|
|
maxtick_from_rel = m5.MaxTick
|
|
maxtick_from_maxtime = m5.MaxTick
|
|
if options.abs_max_tick:
|
|
maxtick_from_abs = options.abs_max_tick
|
|
explicit_maxticks += 1
|
|
if options.rel_max_tick:
|
|
maxtick_from_rel = options.rel_max_tick
|
|
if options.checkpoint_restore:
|
|
# NOTE: this may need to be updated if checkpoints ever store
|
|
# the ticks per simulated second
|
|
maxtick_from_rel += cpt_starttick
|
|
if options.at_instruction or options.simpoint:
|
|
warn("Relative max tick specified with --at-instruction or" \
|
|
" --simpoint\n These options don't specify the " \
|
|
"checkpoint start tick, so assuming\n you mean " \
|
|
"absolute max tick")
|
|
explicit_maxticks += 1
|
|
if options.maxtime:
|
|
maxtick_from_maxtime = m5.ticks.fromSeconds(options.maxtime)
|
|
explicit_maxticks += 1
|
|
if explicit_maxticks > 1:
|
|
warn("Specified multiple of --abs-max-tick, --rel-max-tick, --maxtime."\
|
|
" Using least")
|
|
maxtick = min([maxtick_from_abs, maxtick_from_rel, maxtick_from_maxtime])
|
|
|
|
if options.checkpoint_restore != None and maxtick < cpt_starttick:
|
|
fatal("Bad maxtick (%d) specified: " \
|
|
"Checkpoint starts starts from tick: %d", maxtick, cpt_starttick)
|
|
|
|
if options.standard_switch or cpu_class:
|
|
if options.standard_switch:
|
|
print "Switch at instruction count:%s" % \
|
|
str(testsys.cpu[0].max_insts_any_thread)
|
|
exit_event = m5.simulate()
|
|
elif cpu_class and options.fast_forward:
|
|
print "Switch at instruction count:%s" % \
|
|
str(testsys.cpu[0].max_insts_any_thread)
|
|
exit_event = m5.simulate()
|
|
else:
|
|
print "Switch at curTick count:%s" % str(10000)
|
|
exit_event = m5.simulate(10000)
|
|
print "Switched CPUS @ tick %s" % (m5.curTick())
|
|
|
|
m5.switchCpus(testsys, switch_cpu_list)
|
|
|
|
if options.standard_switch:
|
|
print "Switch at instruction count:%d" % \
|
|
(testsys.switch_cpus[0].max_insts_any_thread)
|
|
|
|
#warmup instruction count may have already been set
|
|
if options.warmup_insts:
|
|
exit_event = m5.simulate()
|
|
else:
|
|
exit_event = m5.simulate(options.standard_switch)
|
|
print "Switching CPUS @ tick %s" % (m5.curTick())
|
|
print "Simulation ends instruction count:%d" % \
|
|
(testsys.switch_cpus_1[0].max_insts_any_thread)
|
|
m5.switchCpus(testsys, switch_cpu_list1)
|
|
|
|
# If we're taking and restoring checkpoints, use checkpoint_dir
|
|
# option only for finding the checkpoints to restore from. This
|
|
# lets us test checkpointing by restoring from one set of
|
|
# checkpoints, generating a second set, and then comparing them.
|
|
if (options.take_checkpoints or options.take_simpoint_checkpoints) \
|
|
and options.checkpoint_restore:
|
|
|
|
if m5.options.outdir:
|
|
cptdir = m5.options.outdir
|
|
else:
|
|
cptdir = getcwd()
|
|
|
|
if options.take_checkpoints != None :
|
|
# Checkpoints being taken via the command line at <when> and at
|
|
# subsequent periods of <period>. Checkpoint instructions
|
|
# received from the benchmark running are ignored and skipped in
|
|
# favor of command line checkpoint instructions.
|
|
exit_event = scriptCheckpoints(options, maxtick, cptdir)
|
|
|
|
# Take SimPoint checkpoints
|
|
elif options.take_simpoint_checkpoints != None:
|
|
takeSimpointCheckpoints(simpoints, interval_length, cptdir)
|
|
|
|
# Restore from SimPoint checkpoints
|
|
elif options.restore_simpoint_checkpoint != None:
|
|
restoreSimpointCheckpoint()
|
|
|
|
else:
|
|
if options.fast_forward:
|
|
m5.stats.reset()
|
|
print "**** REAL SIMULATION ****"
|
|
|
|
# If checkpoints are being taken, then the checkpoint instruction
|
|
# will occur in the benchmark code it self.
|
|
if options.repeat_switch and maxtick > options.repeat_switch:
|
|
exit_event = repeatSwitch(testsys, repeat_switch_cpu_list,
|
|
maxtick, options.repeat_switch)
|
|
else:
|
|
exit_event = benchCheckpoints(options, maxtick, cptdir)
|
|
|
|
print 'Exiting @ tick %i because %s' % (m5.curTick(), exit_event.getCause())
|
|
if options.checkpoint_at_end:
|
|
m5.checkpoint(joinpath(cptdir, "cpt.%d"))
|
|
|
|
if not m5.options.interactive:
|
|
sys.exit(exit_event.getCode())
|