1# Copyright (c) 2012-2013 ARM Limited 2# All rights reserved 3# 4# The license below extends only to copyright in the software and shall 5# not be construed as granting a license to any other intellectual 6# property including but not limited to intellectual property relating 7# to a hardware implementation of the functionality of the software 8# licensed hereunder. You may use the software subject to the license 9# terms below provided that you ensure that this notice is replicated 10# unmodified and in its entirety in all distributions of the software, 11# modified or unmodified, in source code or in binary form. 12# 13# Copyright (c) 2006-2008 The Regents of The University of Michigan 14# Copyright (c) 2010 Advanced Micro Devices, Inc. 15# All rights reserved. 16# 17# Redistribution and use in source and binary forms, with or without 18# modification, are permitted provided that the following conditions are 19# met: redistributions of source code must retain the above copyright 20# notice, this list of conditions and the following disclaimer; 21# redistributions in binary form must reproduce the above copyright 22# notice, this list of conditions and the following disclaimer in the 23# documentation and/or other materials provided with the distribution; 24# neither the name of the copyright holders nor the names of its 25# contributors may be used to endorse or promote products derived from 26# this software without specific prior written permission. 27# 28# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 29# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 30# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 31# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 32# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 33# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 34# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 35# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 36# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 37# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 38# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 39# 40# Authors: Lisa Hsu 41 42import sys 43from os import getcwd 44from os.path import join as joinpath 45 46import CpuConfig 47import MemConfig 48 49import m5 50from m5.defines import buildEnv 51from m5.objects import * 52from m5.util import * 53 54addToPath('../common') 55 56def getCPUClass(cpu_type): 57 """Returns the required cpu class and the mode of operation.""" 58 cls = CpuConfig.get(cpu_type) 59 return cls, cls.memory_mode() 60 61def setCPUClass(options): 62 """Returns two cpu classes and the initial mode of operation. 63 64 Restoring from a checkpoint or fast forwarding through a benchmark 65 can be done using one type of cpu, and then the actual 66 simulation can be carried out using another type. This function 67 returns these two types of cpus and the initial mode of operation 68 depending on the options provided. 69 """ 70 71 TmpClass, test_mem_mode = getCPUClass(options.cpu_type) 72 CPUClass = None 73 if TmpClass.require_caches() and \ 74 not options.caches and not options.ruby: 75 fatal("%s must be used with caches" % options.cpu_type) 76 77 if options.checkpoint_restore != None: 78 if options.restore_with_cpu != options.cpu_type: 79 CPUClass = TmpClass 80 TmpClass, test_mem_mode = getCPUClass(options.restore_with_cpu) 81 elif options.fast_forward: 82 CPUClass = TmpClass 83 TmpClass = AtomicSimpleCPU 84 test_mem_mode = 'atomic' 85 86 return (TmpClass, test_mem_mode, CPUClass) 87 88def setMemClass(options): 89 """Returns a memory controller class.""" 90 91 return MemConfig.get(options.mem_type) 92 93def setWorkCountOptions(system, options): 94 if options.work_item_id != None: 95 system.work_item_id = options.work_item_id 96 if options.num_work_ids != None: 97 system.num_work_ids = options.num_work_ids 98 if options.work_begin_cpu_id_exit != None: 99 system.work_begin_cpu_id_exit = options.work_begin_cpu_id_exit 100 if options.work_end_exit_count != None: 101 system.work_end_exit_count = options.work_end_exit_count 102 if options.work_end_checkpoint_count != None: 103 system.work_end_ckpt_count = options.work_end_checkpoint_count 104 if options.work_begin_exit_count != None: 105 system.work_begin_exit_count = options.work_begin_exit_count 106 if options.work_begin_checkpoint_count != None: 107 system.work_begin_ckpt_count = options.work_begin_checkpoint_count 108 if options.work_cpus_checkpoint_count != None: 109 system.work_cpus_ckpt_count = options.work_cpus_checkpoint_count 110 111def findCptDir(options, cptdir, testsys): 112 """Figures out the directory from which the checkpointed state is read. 113 114 There are two different ways in which the directories holding checkpoints 115 can be named -- 116 1. cpt.<benchmark name>.<instruction count when the checkpoint was taken> 117 2. cpt.<some number, usually the tick value when the checkpoint was taken> 118 119 This function parses through the options to figure out which one of the 120 above should be used for selecting the checkpoint, and then figures out 121 the appropriate directory. 122 """ 123 124 from os.path import isdir, exists 125 from os import listdir 126 import re 127 128 if not isdir(cptdir): 129 fatal("checkpoint dir %s does not exist!", cptdir) 130 131 cpt_starttick = 0 132 if options.at_instruction or options.simpoint: 133 inst = options.checkpoint_restore 134 if options.simpoint: 135 # assume workload 0 has the simpoint 136 if testsys.cpu[0].workload[0].simpoint == 0: 137 fatal('Unable to find simpoint') 138 inst += int(testsys.cpu[0].workload[0].simpoint) 139 140 checkpoint_dir = joinpath(cptdir, "cpt.%s.%s" % (options.bench, inst)) 141 if not exists(checkpoint_dir): 142 fatal("Unable to find checkpoint directory %s", checkpoint_dir)
| 1# Copyright (c) 2012-2013 ARM Limited 2# All rights reserved 3# 4# The license below extends only to copyright in the software and shall 5# not be construed as granting a license to any other intellectual 6# property including but not limited to intellectual property relating 7# to a hardware implementation of the functionality of the software 8# licensed hereunder. You may use the software subject to the license 9# terms below provided that you ensure that this notice is replicated 10# unmodified and in its entirety in all distributions of the software, 11# modified or unmodified, in source code or in binary form. 12# 13# Copyright (c) 2006-2008 The Regents of The University of Michigan 14# Copyright (c) 2010 Advanced Micro Devices, Inc. 15# All rights reserved. 16# 17# Redistribution and use in source and binary forms, with or without 18# modification, are permitted provided that the following conditions are 19# met: redistributions of source code must retain the above copyright 20# notice, this list of conditions and the following disclaimer; 21# redistributions in binary form must reproduce the above copyright 22# notice, this list of conditions and the following disclaimer in the 23# documentation and/or other materials provided with the distribution; 24# neither the name of the copyright holders nor the names of its 25# contributors may be used to endorse or promote products derived from 26# this software without specific prior written permission. 27# 28# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 29# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 30# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 31# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 32# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 33# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 34# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 35# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 36# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 37# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 38# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 39# 40# Authors: Lisa Hsu 41 42import sys 43from os import getcwd 44from os.path import join as joinpath 45 46import CpuConfig 47import MemConfig 48 49import m5 50from m5.defines import buildEnv 51from m5.objects import * 52from m5.util import * 53 54addToPath('../common') 55 56def getCPUClass(cpu_type): 57 """Returns the required cpu class and the mode of operation.""" 58 cls = CpuConfig.get(cpu_type) 59 return cls, cls.memory_mode() 60 61def setCPUClass(options): 62 """Returns two cpu classes and the initial mode of operation. 63 64 Restoring from a checkpoint or fast forwarding through a benchmark 65 can be done using one type of cpu, and then the actual 66 simulation can be carried out using another type. This function 67 returns these two types of cpus and the initial mode of operation 68 depending on the options provided. 69 """ 70 71 TmpClass, test_mem_mode = getCPUClass(options.cpu_type) 72 CPUClass = None 73 if TmpClass.require_caches() and \ 74 not options.caches and not options.ruby: 75 fatal("%s must be used with caches" % options.cpu_type) 76 77 if options.checkpoint_restore != None: 78 if options.restore_with_cpu != options.cpu_type: 79 CPUClass = TmpClass 80 TmpClass, test_mem_mode = getCPUClass(options.restore_with_cpu) 81 elif options.fast_forward: 82 CPUClass = TmpClass 83 TmpClass = AtomicSimpleCPU 84 test_mem_mode = 'atomic' 85 86 return (TmpClass, test_mem_mode, CPUClass) 87 88def setMemClass(options): 89 """Returns a memory controller class.""" 90 91 return MemConfig.get(options.mem_type) 92 93def setWorkCountOptions(system, options): 94 if options.work_item_id != None: 95 system.work_item_id = options.work_item_id 96 if options.num_work_ids != None: 97 system.num_work_ids = options.num_work_ids 98 if options.work_begin_cpu_id_exit != None: 99 system.work_begin_cpu_id_exit = options.work_begin_cpu_id_exit 100 if options.work_end_exit_count != None: 101 system.work_end_exit_count = options.work_end_exit_count 102 if options.work_end_checkpoint_count != None: 103 system.work_end_ckpt_count = options.work_end_checkpoint_count 104 if options.work_begin_exit_count != None: 105 system.work_begin_exit_count = options.work_begin_exit_count 106 if options.work_begin_checkpoint_count != None: 107 system.work_begin_ckpt_count = options.work_begin_checkpoint_count 108 if options.work_cpus_checkpoint_count != None: 109 system.work_cpus_ckpt_count = options.work_cpus_checkpoint_count 110 111def findCptDir(options, cptdir, testsys): 112 """Figures out the directory from which the checkpointed state is read. 113 114 There are two different ways in which the directories holding checkpoints 115 can be named -- 116 1. cpt.<benchmark name>.<instruction count when the checkpoint was taken> 117 2. cpt.<some number, usually the tick value when the checkpoint was taken> 118 119 This function parses through the options to figure out which one of the 120 above should be used for selecting the checkpoint, and then figures out 121 the appropriate directory. 122 """ 123 124 from os.path import isdir, exists 125 from os import listdir 126 import re 127 128 if not isdir(cptdir): 129 fatal("checkpoint dir %s does not exist!", cptdir) 130 131 cpt_starttick = 0 132 if options.at_instruction or options.simpoint: 133 inst = options.checkpoint_restore 134 if options.simpoint: 135 # assume workload 0 has the simpoint 136 if testsys.cpu[0].workload[0].simpoint == 0: 137 fatal('Unable to find simpoint') 138 inst += int(testsys.cpu[0].workload[0].simpoint) 139 140 checkpoint_dir = joinpath(cptdir, "cpt.%s.%s" % (options.bench, inst)) 141 if not exists(checkpoint_dir): 142 fatal("Unable to find checkpoint directory %s", checkpoint_dir)
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| 143 144 elif options.restore_simpoint_checkpoint: 145 # Restore from SimPoint checkpoints 146 # Assumes that the checkpoint dir names are formatted as follows: 147 dirs = listdir(cptdir) 148 expr = re.compile('cpt\.simpoint_(\d+)_inst_(\d+)' + 149 '_weight_([\d\.e\-]+)_interval_(\d+)_warmup_(\d+)') 150 cpts = [] 151 for dir in dirs: 152 match = expr.match(dir) 153 if match: 154 cpts.append(dir) 155 cpts.sort() 156 157 cpt_num = options.checkpoint_restore 158 if cpt_num > len(cpts): 159 fatal('Checkpoint %d not found', cpt_num) 160 checkpoint_dir = joinpath(cptdir, cpts[cpt_num - 1]) 161 match = expr.match(cpts[cpt_num - 1]) 162 if match: 163 index = int(match.group(1)) 164 start_inst = int(match.group(2)) 165 weight_inst = float(match.group(3)) 166 interval_length = int(match.group(4)) 167 warmup_length = int(match.group(5)) 168 print "Resuming from", checkpoint_dir 169 simpoint_start_insts = [] 170 simpoint_start_insts.append(warmup_length) 171 simpoint_start_insts.append(warmup_length + interval_length) 172 testsys.cpu[0].simpoint_start_insts = simpoint_start_insts 173 if testsys.switch_cpus != None: 174 testsys.switch_cpus[0].simpoint_start_insts = simpoint_start_insts 175 176 print "Resuming from SimPoint", 177 print "#%d, start_inst:%d, weight:%f, interval:%d, warmup:%d" % \ 178 (index, start_inst, weight_inst, interval_length, warmup_length) 179
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143 else: 144 dirs = listdir(cptdir)
| 180 else: 181 dirs = listdir(cptdir)
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145 expr = re.compile('cpt\.([0-9]*)')
| 182 expr = re.compile('cpt\.([0-9]+)')
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146 cpts = [] 147 for dir in dirs: 148 match = expr.match(dir) 149 if match: 150 cpts.append(match.group(1)) 151 152 cpts.sort(lambda a,b: cmp(long(a), long(b))) 153 154 cpt_num = options.checkpoint_restore 155 if cpt_num > len(cpts): 156 fatal('Checkpoint %d not found', cpt_num) 157 158 cpt_starttick = int(cpts[cpt_num - 1]) 159 checkpoint_dir = joinpath(cptdir, "cpt.%s" % cpts[cpt_num - 1]) 160 161 return cpt_starttick, checkpoint_dir 162 163def scriptCheckpoints(options, maxtick, cptdir): 164 if options.at_instruction or options.simpoint: 165 checkpoint_inst = int(options.take_checkpoints) 166 167 # maintain correct offset if we restored from some instruction 168 if options.checkpoint_restore != None: 169 checkpoint_inst += options.checkpoint_restore 170 171 print "Creating checkpoint at inst:%d" % (checkpoint_inst) 172 exit_event = m5.simulate() 173 exit_cause = exit_event.getCause() 174 print "exit cause = %s" % exit_cause 175 176 # skip checkpoint instructions should they exist 177 while exit_cause == "checkpoint": 178 exit_event = m5.simulate() 179 exit_cause = exit_event.getCause() 180 181 if exit_cause == "a thread reached the max instruction count": 182 m5.checkpoint(joinpath(cptdir, "cpt.%s.%d" % \ 183 (options.bench, checkpoint_inst))) 184 print "Checkpoint written." 185 186 else: 187 when, period = options.take_checkpoints.split(",", 1) 188 when = int(when) 189 period = int(period) 190 num_checkpoints = 0 191 192 exit_event = m5.simulate(when - m5.curTick()) 193 exit_cause = exit_event.getCause() 194 while exit_cause == "checkpoint": 195 exit_event = m5.simulate(when - m5.curTick()) 196 exit_cause = exit_event.getCause() 197 198 if exit_cause == "simulate() limit reached": 199 m5.checkpoint(joinpath(cptdir, "cpt.%d")) 200 num_checkpoints += 1 201 202 sim_ticks = when 203 max_checkpoints = options.max_checkpoints 204 205 while num_checkpoints < max_checkpoints and \ 206 exit_cause == "simulate() limit reached": 207 if (sim_ticks + period) > maxtick: 208 exit_event = m5.simulate(maxtick - sim_ticks) 209 exit_cause = exit_event.getCause() 210 break 211 else: 212 exit_event = m5.simulate(period) 213 exit_cause = exit_event.getCause() 214 sim_ticks += period 215 while exit_event.getCause() == "checkpoint": 216 exit_event = m5.simulate(sim_ticks - m5.curTick()) 217 if exit_event.getCause() == "simulate() limit reached": 218 m5.checkpoint(joinpath(cptdir, "cpt.%d")) 219 num_checkpoints += 1 220 221 return exit_event 222 223def benchCheckpoints(options, maxtick, cptdir): 224 exit_event = m5.simulate(maxtick - m5.curTick()) 225 exit_cause = exit_event.getCause() 226 227 num_checkpoints = 0 228 max_checkpoints = options.max_checkpoints 229 230 while exit_cause == "checkpoint": 231 m5.checkpoint(joinpath(cptdir, "cpt.%d")) 232 num_checkpoints += 1 233 if num_checkpoints == max_checkpoints: 234 exit_cause = "maximum %d checkpoints dropped" % max_checkpoints 235 break 236 237 exit_event = m5.simulate(maxtick - m5.curTick()) 238 exit_cause = exit_event.getCause() 239 240 return exit_event 241
| 183 cpts = [] 184 for dir in dirs: 185 match = expr.match(dir) 186 if match: 187 cpts.append(match.group(1)) 188 189 cpts.sort(lambda a,b: cmp(long(a), long(b))) 190 191 cpt_num = options.checkpoint_restore 192 if cpt_num > len(cpts): 193 fatal('Checkpoint %d not found', cpt_num) 194 195 cpt_starttick = int(cpts[cpt_num - 1]) 196 checkpoint_dir = joinpath(cptdir, "cpt.%s" % cpts[cpt_num - 1]) 197 198 return cpt_starttick, checkpoint_dir 199 200def scriptCheckpoints(options, maxtick, cptdir): 201 if options.at_instruction or options.simpoint: 202 checkpoint_inst = int(options.take_checkpoints) 203 204 # maintain correct offset if we restored from some instruction 205 if options.checkpoint_restore != None: 206 checkpoint_inst += options.checkpoint_restore 207 208 print "Creating checkpoint at inst:%d" % (checkpoint_inst) 209 exit_event = m5.simulate() 210 exit_cause = exit_event.getCause() 211 print "exit cause = %s" % exit_cause 212 213 # skip checkpoint instructions should they exist 214 while exit_cause == "checkpoint": 215 exit_event = m5.simulate() 216 exit_cause = exit_event.getCause() 217 218 if exit_cause == "a thread reached the max instruction count": 219 m5.checkpoint(joinpath(cptdir, "cpt.%s.%d" % \ 220 (options.bench, checkpoint_inst))) 221 print "Checkpoint written." 222 223 else: 224 when, period = options.take_checkpoints.split(",", 1) 225 when = int(when) 226 period = int(period) 227 num_checkpoints = 0 228 229 exit_event = m5.simulate(when - m5.curTick()) 230 exit_cause = exit_event.getCause() 231 while exit_cause == "checkpoint": 232 exit_event = m5.simulate(when - m5.curTick()) 233 exit_cause = exit_event.getCause() 234 235 if exit_cause == "simulate() limit reached": 236 m5.checkpoint(joinpath(cptdir, "cpt.%d")) 237 num_checkpoints += 1 238 239 sim_ticks = when 240 max_checkpoints = options.max_checkpoints 241 242 while num_checkpoints < max_checkpoints and \ 243 exit_cause == "simulate() limit reached": 244 if (sim_ticks + period) > maxtick: 245 exit_event = m5.simulate(maxtick - sim_ticks) 246 exit_cause = exit_event.getCause() 247 break 248 else: 249 exit_event = m5.simulate(period) 250 exit_cause = exit_event.getCause() 251 sim_ticks += period 252 while exit_event.getCause() == "checkpoint": 253 exit_event = m5.simulate(sim_ticks - m5.curTick()) 254 if exit_event.getCause() == "simulate() limit reached": 255 m5.checkpoint(joinpath(cptdir, "cpt.%d")) 256 num_checkpoints += 1 257 258 return exit_event 259 260def benchCheckpoints(options, maxtick, cptdir): 261 exit_event = m5.simulate(maxtick - m5.curTick()) 262 exit_cause = exit_event.getCause() 263 264 num_checkpoints = 0 265 max_checkpoints = options.max_checkpoints 266 267 while exit_cause == "checkpoint": 268 m5.checkpoint(joinpath(cptdir, "cpt.%d")) 269 num_checkpoints += 1 270 if num_checkpoints == max_checkpoints: 271 exit_cause = "maximum %d checkpoints dropped" % max_checkpoints 272 break 273 274 exit_event = m5.simulate(maxtick - m5.curTick()) 275 exit_cause = exit_event.getCause() 276 277 return exit_event 278
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| 279# Set up environment for taking SimPoint checkpoints 280# Expecting SimPoint files generated by SimPoint 3.2 281def parseSimpointAnalysisFile(options, testsys): 282 import re 283 284 simpoint_filename, weight_filename, interval_length, warmup_length = \ 285 options.take_simpoint_checkpoints.split(",", 3) 286 print "simpoint analysis file:", simpoint_filename 287 print "simpoint weight file:", weight_filename 288 print "interval length:", interval_length 289 print "warmup length:", warmup_length 290 291 interval_length = int(interval_length) 292 warmup_length = int(warmup_length) 293 294 # Simpoint analysis output starts interval counts with 0. 295 simpoints = [] 296 simpoint_start_insts = [] 297 298 # Read in SimPoint analysis files 299 simpoint_file = open(simpoint_filename) 300 weight_file = open(weight_filename) 301 while True: 302 line = simpoint_file.readline() 303 if not line: 304 break 305 m = re.match("(\d+)\s+(\d+)", line) 306 if m: 307 interval = int(m.group(1)) 308 else: 309 fatal('unrecognized line in simpoint file!') 310 311 line = weight_file.readline() 312 if not line: 313 fatal('not enough lines in simpoint weight file!') 314 m = re.match("([0-9\.e\-]+)\s+(\d+)", line) 315 if m: 316 weight = float(m.group(1)) 317 else: 318 fatal('unrecognized line in simpoint weight file!') 319 320 if (interval * interval_length - warmup_length > 0): 321 starting_inst_count = \ 322 interval * interval_length - warmup_length 323 actual_warmup_length = warmup_length 324 else: 325 # Not enough room for proper warmup 326 # Just starting from the beginning 327 starting_inst_count = 0 328 actual_warmup_length = interval * interval_length 329 330 simpoints.append((interval, weight, starting_inst_count, 331 actual_warmup_length)) 332 333 # Sort SimPoints by starting inst count 334 simpoints.sort(key=lambda obj: obj[2]) 335 for s in simpoints: 336 interval, weight, starting_inst_count, actual_warmup_length = s 337 print str(interval), str(weight), starting_inst_count, \ 338 actual_warmup_length 339 simpoint_start_insts.append(starting_inst_count) 340 341 print "Total # of simpoints:", len(simpoints) 342 testsys.cpu[0].simpoint_start_insts = simpoint_start_insts 343 344 return (simpoints, interval_length) 345 346def takeSimpointCheckpoints(simpoints, interval_length, cptdir): 347 num_checkpoints = 0 348 index = 0 349 last_chkpnt_inst_count = -1 350 for simpoint in simpoints: 351 interval, weight, starting_inst_count, actual_warmup_length = simpoint 352 if starting_inst_count == last_chkpnt_inst_count: 353 # checkpoint starting point same as last time 354 # (when warmup period longer than starting point) 355 exit_cause = "simpoint starting point found" 356 code = 0 357 else: 358 exit_event = m5.simulate() 359 360 # skip checkpoint instructions should they exist 361 while exit_event.getCause() == "checkpoint": 362 print "Found 'checkpoint' exit event...ignoring..." 363 exit_event = m5.simulate() 364 365 exit_cause = exit_event.getCause() 366 code = exit_event.getCode() 367 368 if exit_cause == "simpoint starting point found": 369 m5.checkpoint(joinpath(cptdir, 370 "cpt.simpoint_%02d_inst_%d_weight_%f_interval_%d_warmup_%d" 371 % (index, starting_inst_count, weight, interval_length, 372 actual_warmup_length))) 373 print "Checkpoint #%d written. start inst:%d weight:%f" % \ 374 (num_checkpoints, starting_inst_count, weight) 375 num_checkpoints += 1 376 last_chkpnt_inst_count = starting_inst_count 377 else: 378 break 379 index += 1 380 381 print 'Exiting @ tick %i because %s' % (m5.curTick(), exit_cause) 382 print "%d checkpoints taken" % num_checkpoints 383 sys.exit(code) 384 385def restoreSimpointCheckpoint(): 386 exit_event = m5.simulate() 387 exit_cause = exit_event.getCause() 388 389 if exit_cause == "simpoint starting point found": 390 print "Warmed up! Dumping and resetting stats!" 391 m5.stats.dump() 392 m5.stats.reset() 393 394 exit_event = m5.simulate() 395 exit_cause = exit_event.getCause() 396 397 if exit_cause == "simpoint starting point found": 398 print "Done running SimPoint!" 399 sys.exit(exit_event.getCode()) 400 401 print 'Exiting @ tick %i because %s' % (m5.curTick(), exit_cause) 402 sys.exit(exit_event.getCode()) 403
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242def repeatSwitch(testsys, repeat_switch_cpu_list, maxtick, switch_freq): 243 print "starting switch loop" 244 while True: 245 exit_event = m5.simulate(switch_freq) 246 exit_cause = exit_event.getCause() 247 248 if exit_cause != "simulate() limit reached": 249 return exit_event 250 251 m5.switchCpus(testsys, repeat_switch_cpu_list) 252 253 tmp_cpu_list = [] 254 for old_cpu, new_cpu in repeat_switch_cpu_list: 255 tmp_cpu_list.append((new_cpu, old_cpu)) 256 repeat_switch_cpu_list = tmp_cpu_list 257 258 if (maxtick - m5.curTick()) <= switch_freq: 259 exit_event = m5.simulate(maxtick - m5.curTick()) 260 return exit_event 261 262def run(options, root, testsys, cpu_class): 263 if options.checkpoint_dir: 264 cptdir = options.checkpoint_dir 265 elif m5.options.outdir: 266 cptdir = m5.options.outdir 267 else: 268 cptdir = getcwd() 269 270 if options.fast_forward and options.checkpoint_restore != None: 271 fatal("Can't specify both --fast-forward and --checkpoint-restore") 272 273 if options.standard_switch and not options.caches: 274 fatal("Must specify --caches when using --standard-switch") 275 276 if options.standard_switch and options.repeat_switch: 277 fatal("Can't specify both --standard-switch and --repeat-switch") 278 279 if options.repeat_switch and options.take_checkpoints: 280 fatal("Can't specify both --repeat-switch and --take-checkpoints") 281 282 np = options.num_cpus 283 switch_cpus = None 284 285 if options.prog_interval: 286 for i in xrange(np): 287 testsys.cpu[i].progress_interval = options.prog_interval 288 289 if options.maxinsts: 290 for i in xrange(np): 291 testsys.cpu[i].max_insts_any_thread = options.maxinsts 292 293 if cpu_class: 294 switch_cpus = [cpu_class(switched_out=True, cpu_id=(i)) 295 for i in xrange(np)] 296 297 for i in xrange(np): 298 if options.fast_forward: 299 testsys.cpu[i].max_insts_any_thread = int(options.fast_forward) 300 switch_cpus[i].system = testsys 301 switch_cpus[i].workload = testsys.cpu[i].workload 302 switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain 303 # simulation period 304 if options.maxinsts: 305 switch_cpus[i].max_insts_any_thread = options.maxinsts 306 # Add checker cpu if selected 307 if options.checker: 308 switch_cpus[i].addCheckerCpu() 309 310 testsys.switch_cpus = switch_cpus 311 switch_cpu_list = [(testsys.cpu[i], switch_cpus[i]) for i in xrange(np)] 312 313 if options.repeat_switch: 314 switch_class = getCPUClass(options.cpu_type)[0] 315 if switch_class.require_caches() and \ 316 not options.caches: 317 print "%s: Must be used with caches" % str(switch_class) 318 sys.exit(1) 319 if not switch_class.support_take_over(): 320 print "%s: CPU switching not supported" % str(switch_class) 321 sys.exit(1) 322 323 repeat_switch_cpus = [switch_class(switched_out=True, \ 324 cpu_id=(i)) for i in xrange(np)] 325 326 for i in xrange(np): 327 repeat_switch_cpus[i].system = testsys 328 repeat_switch_cpus[i].workload = testsys.cpu[i].workload 329 repeat_switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain 330 331 if options.maxinsts: 332 repeat_switch_cpus[i].max_insts_any_thread = options.maxinsts 333 334 if options.checker: 335 repeat_switch_cpus[i].addCheckerCpu() 336 337 testsys.repeat_switch_cpus = repeat_switch_cpus 338 339 if cpu_class: 340 repeat_switch_cpu_list = [(switch_cpus[i], repeat_switch_cpus[i]) 341 for i in xrange(np)] 342 else: 343 repeat_switch_cpu_list = [(testsys.cpu[i], repeat_switch_cpus[i]) 344 for i in xrange(np)] 345 346 if options.standard_switch: 347 switch_cpus = [TimingSimpleCPU(switched_out=True, cpu_id=(i)) 348 for i in xrange(np)] 349 switch_cpus_1 = [DerivO3CPU(switched_out=True, cpu_id=(i)) 350 for i in xrange(np)] 351 352 for i in xrange(np): 353 switch_cpus[i].system = testsys 354 switch_cpus_1[i].system = testsys 355 switch_cpus[i].workload = testsys.cpu[i].workload 356 switch_cpus_1[i].workload = testsys.cpu[i].workload 357 switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain 358 switch_cpus_1[i].clk_domain = testsys.cpu[i].clk_domain 359 360 # if restoring, make atomic cpu simulate only a few instructions 361 if options.checkpoint_restore != None: 362 testsys.cpu[i].max_insts_any_thread = 1 363 # Fast forward to specified location if we are not restoring 364 elif options.fast_forward: 365 testsys.cpu[i].max_insts_any_thread = int(options.fast_forward) 366 # Fast forward to a simpoint (warning: time consuming) 367 elif options.simpoint: 368 if testsys.cpu[i].workload[0].simpoint == 0: 369 fatal('simpoint not found') 370 testsys.cpu[i].max_insts_any_thread = \ 371 testsys.cpu[i].workload[0].simpoint 372 # No distance specified, just switch 373 else: 374 testsys.cpu[i].max_insts_any_thread = 1 375 376 # warmup period 377 if options.warmup_insts: 378 switch_cpus[i].max_insts_any_thread = options.warmup_insts 379 380 # simulation period 381 if options.maxinsts: 382 switch_cpus_1[i].max_insts_any_thread = options.maxinsts 383 384 # attach the checker cpu if selected 385 if options.checker: 386 switch_cpus[i].addCheckerCpu() 387 switch_cpus_1[i].addCheckerCpu() 388 389 testsys.switch_cpus = switch_cpus 390 testsys.switch_cpus_1 = switch_cpus_1 391 switch_cpu_list = [(testsys.cpu[i], switch_cpus[i]) for i in xrange(np)] 392 switch_cpu_list1 = [(switch_cpus[i], switch_cpus_1[i]) for i in xrange(np)] 393 394 # set the checkpoint in the cpu before m5.instantiate is called 395 if options.take_checkpoints != None and \ 396 (options.simpoint or options.at_instruction): 397 offset = int(options.take_checkpoints) 398 # Set an instruction break point 399 if options.simpoint: 400 for i in xrange(np): 401 if testsys.cpu[i].workload[0].simpoint == 0: 402 fatal('no simpoint for testsys.cpu[%d].workload[0]', i) 403 checkpoint_inst = int(testsys.cpu[i].workload[0].simpoint) + offset 404 testsys.cpu[i].max_insts_any_thread = checkpoint_inst 405 # used for output below 406 options.take_checkpoints = checkpoint_inst 407 else: 408 options.take_checkpoints = offset 409 # Set all test cpus with the right number of instructions 410 # for the upcoming simulation 411 for i in xrange(np): 412 testsys.cpu[i].max_insts_any_thread = offset 413
| 404def repeatSwitch(testsys, repeat_switch_cpu_list, maxtick, switch_freq): 405 print "starting switch loop" 406 while True: 407 exit_event = m5.simulate(switch_freq) 408 exit_cause = exit_event.getCause() 409 410 if exit_cause != "simulate() limit reached": 411 return exit_event 412 413 m5.switchCpus(testsys, repeat_switch_cpu_list) 414 415 tmp_cpu_list = [] 416 for old_cpu, new_cpu in repeat_switch_cpu_list: 417 tmp_cpu_list.append((new_cpu, old_cpu)) 418 repeat_switch_cpu_list = tmp_cpu_list 419 420 if (maxtick - m5.curTick()) <= switch_freq: 421 exit_event = m5.simulate(maxtick - m5.curTick()) 422 return exit_event 423 424def run(options, root, testsys, cpu_class): 425 if options.checkpoint_dir: 426 cptdir = options.checkpoint_dir 427 elif m5.options.outdir: 428 cptdir = m5.options.outdir 429 else: 430 cptdir = getcwd() 431 432 if options.fast_forward and options.checkpoint_restore != None: 433 fatal("Can't specify both --fast-forward and --checkpoint-restore") 434 435 if options.standard_switch and not options.caches: 436 fatal("Must specify --caches when using --standard-switch") 437 438 if options.standard_switch and options.repeat_switch: 439 fatal("Can't specify both --standard-switch and --repeat-switch") 440 441 if options.repeat_switch and options.take_checkpoints: 442 fatal("Can't specify both --repeat-switch and --take-checkpoints") 443 444 np = options.num_cpus 445 switch_cpus = None 446 447 if options.prog_interval: 448 for i in xrange(np): 449 testsys.cpu[i].progress_interval = options.prog_interval 450 451 if options.maxinsts: 452 for i in xrange(np): 453 testsys.cpu[i].max_insts_any_thread = options.maxinsts 454 455 if cpu_class: 456 switch_cpus = [cpu_class(switched_out=True, cpu_id=(i)) 457 for i in xrange(np)] 458 459 for i in xrange(np): 460 if options.fast_forward: 461 testsys.cpu[i].max_insts_any_thread = int(options.fast_forward) 462 switch_cpus[i].system = testsys 463 switch_cpus[i].workload = testsys.cpu[i].workload 464 switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain 465 # simulation period 466 if options.maxinsts: 467 switch_cpus[i].max_insts_any_thread = options.maxinsts 468 # Add checker cpu if selected 469 if options.checker: 470 switch_cpus[i].addCheckerCpu() 471 472 testsys.switch_cpus = switch_cpus 473 switch_cpu_list = [(testsys.cpu[i], switch_cpus[i]) for i in xrange(np)] 474 475 if options.repeat_switch: 476 switch_class = getCPUClass(options.cpu_type)[0] 477 if switch_class.require_caches() and \ 478 not options.caches: 479 print "%s: Must be used with caches" % str(switch_class) 480 sys.exit(1) 481 if not switch_class.support_take_over(): 482 print "%s: CPU switching not supported" % str(switch_class) 483 sys.exit(1) 484 485 repeat_switch_cpus = [switch_class(switched_out=True, \ 486 cpu_id=(i)) for i in xrange(np)] 487 488 for i in xrange(np): 489 repeat_switch_cpus[i].system = testsys 490 repeat_switch_cpus[i].workload = testsys.cpu[i].workload 491 repeat_switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain 492 493 if options.maxinsts: 494 repeat_switch_cpus[i].max_insts_any_thread = options.maxinsts 495 496 if options.checker: 497 repeat_switch_cpus[i].addCheckerCpu() 498 499 testsys.repeat_switch_cpus = repeat_switch_cpus 500 501 if cpu_class: 502 repeat_switch_cpu_list = [(switch_cpus[i], repeat_switch_cpus[i]) 503 for i in xrange(np)] 504 else: 505 repeat_switch_cpu_list = [(testsys.cpu[i], repeat_switch_cpus[i]) 506 for i in xrange(np)] 507 508 if options.standard_switch: 509 switch_cpus = [TimingSimpleCPU(switched_out=True, cpu_id=(i)) 510 for i in xrange(np)] 511 switch_cpus_1 = [DerivO3CPU(switched_out=True, cpu_id=(i)) 512 for i in xrange(np)] 513 514 for i in xrange(np): 515 switch_cpus[i].system = testsys 516 switch_cpus_1[i].system = testsys 517 switch_cpus[i].workload = testsys.cpu[i].workload 518 switch_cpus_1[i].workload = testsys.cpu[i].workload 519 switch_cpus[i].clk_domain = testsys.cpu[i].clk_domain 520 switch_cpus_1[i].clk_domain = testsys.cpu[i].clk_domain 521 522 # if restoring, make atomic cpu simulate only a few instructions 523 if options.checkpoint_restore != None: 524 testsys.cpu[i].max_insts_any_thread = 1 525 # Fast forward to specified location if we are not restoring 526 elif options.fast_forward: 527 testsys.cpu[i].max_insts_any_thread = int(options.fast_forward) 528 # Fast forward to a simpoint (warning: time consuming) 529 elif options.simpoint: 530 if testsys.cpu[i].workload[0].simpoint == 0: 531 fatal('simpoint not found') 532 testsys.cpu[i].max_insts_any_thread = \ 533 testsys.cpu[i].workload[0].simpoint 534 # No distance specified, just switch 535 else: 536 testsys.cpu[i].max_insts_any_thread = 1 537 538 # warmup period 539 if options.warmup_insts: 540 switch_cpus[i].max_insts_any_thread = options.warmup_insts 541 542 # simulation period 543 if options.maxinsts: 544 switch_cpus_1[i].max_insts_any_thread = options.maxinsts 545 546 # attach the checker cpu if selected 547 if options.checker: 548 switch_cpus[i].addCheckerCpu() 549 switch_cpus_1[i].addCheckerCpu() 550 551 testsys.switch_cpus = switch_cpus 552 testsys.switch_cpus_1 = switch_cpus_1 553 switch_cpu_list = [(testsys.cpu[i], switch_cpus[i]) for i in xrange(np)] 554 switch_cpu_list1 = [(switch_cpus[i], switch_cpus_1[i]) for i in xrange(np)] 555 556 # set the checkpoint in the cpu before m5.instantiate is called 557 if options.take_checkpoints != None and \ 558 (options.simpoint or options.at_instruction): 559 offset = int(options.take_checkpoints) 560 # Set an instruction break point 561 if options.simpoint: 562 for i in xrange(np): 563 if testsys.cpu[i].workload[0].simpoint == 0: 564 fatal('no simpoint for testsys.cpu[%d].workload[0]', i) 565 checkpoint_inst = int(testsys.cpu[i].workload[0].simpoint) + offset 566 testsys.cpu[i].max_insts_any_thread = checkpoint_inst 567 # used for output below 568 options.take_checkpoints = checkpoint_inst 569 else: 570 options.take_checkpoints = offset 571 # Set all test cpus with the right number of instructions 572 # for the upcoming simulation 573 for i in xrange(np): 574 testsys.cpu[i].max_insts_any_thread = offset 575
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| 576 if options.take_simpoint_checkpoints != None: 577 simpoints, interval_length = parseSimpointAnalysisFile(options, testsys) 578
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414 checkpoint_dir = None 415 if options.checkpoint_restore: 416 cpt_starttick, checkpoint_dir = findCptDir(options, cptdir, testsys) 417 m5.instantiate(checkpoint_dir) 418 419 # Handle the max tick settings now that tick frequency was resolved 420 # during system instantiation 421 # NOTE: the maxtick variable here is in absolute ticks, so it must 422 # include any simulated ticks before a checkpoint 423 explicit_maxticks = 0 424 maxtick_from_abs = m5.MaxTick 425 maxtick_from_rel = m5.MaxTick 426 maxtick_from_maxtime = m5.MaxTick 427 if options.abs_max_tick: 428 maxtick_from_abs = options.abs_max_tick 429 explicit_maxticks += 1 430 if options.rel_max_tick: 431 maxtick_from_rel = options.rel_max_tick 432 if options.checkpoint_restore: 433 # NOTE: this may need to be updated if checkpoints ever store 434 # the ticks per simulated second 435 maxtick_from_rel += cpt_starttick 436 if options.at_instruction or options.simpoint: 437 warn("Relative max tick specified with --at-instruction or" \ 438 " --simpoint\n These options don't specify the " \ 439 "checkpoint start tick, so assuming\n you mean " \ 440 "absolute max tick") 441 explicit_maxticks += 1 442 if options.maxtime: 443 maxtick_from_maxtime = m5.ticks.fromSeconds(options.maxtime) 444 explicit_maxticks += 1 445 if explicit_maxticks > 1: 446 warn("Specified multiple of --abs-max-tick, --rel-max-tick, --maxtime."\ 447 " Using least") 448 maxtick = min([maxtick_from_abs, maxtick_from_rel, maxtick_from_maxtime]) 449 450 if options.checkpoint_restore != None and maxtick < cpt_starttick: 451 fatal("Bad maxtick (%d) specified: " \ 452 "Checkpoint starts starts from tick: %d", maxtick, cpt_starttick) 453 454 if options.standard_switch or cpu_class: 455 if options.standard_switch: 456 print "Switch at instruction count:%s" % \ 457 str(testsys.cpu[0].max_insts_any_thread) 458 exit_event = m5.simulate() 459 elif cpu_class and options.fast_forward: 460 print "Switch at instruction count:%s" % \ 461 str(testsys.cpu[0].max_insts_any_thread) 462 exit_event = m5.simulate() 463 else: 464 print "Switch at curTick count:%s" % str(10000) 465 exit_event = m5.simulate(10000) 466 print "Switched CPUS @ tick %s" % (m5.curTick()) 467 468 m5.switchCpus(testsys, switch_cpu_list) 469 470 if options.standard_switch: 471 print "Switch at instruction count:%d" % \ 472 (testsys.switch_cpus[0].max_insts_any_thread) 473 474 #warmup instruction count may have already been set 475 if options.warmup_insts: 476 exit_event = m5.simulate() 477 else: 478 exit_event = m5.simulate(options.standard_switch) 479 print "Switching CPUS @ tick %s" % (m5.curTick()) 480 print "Simulation ends instruction count:%d" % \ 481 (testsys.switch_cpus_1[0].max_insts_any_thread) 482 m5.switchCpus(testsys, switch_cpu_list1) 483 484 # If we're taking and restoring checkpoints, use checkpoint_dir 485 # option only for finding the checkpoints to restore from. This 486 # lets us test checkpointing by restoring from one set of 487 # checkpoints, generating a second set, and then comparing them.
| 579 checkpoint_dir = None 580 if options.checkpoint_restore: 581 cpt_starttick, checkpoint_dir = findCptDir(options, cptdir, testsys) 582 m5.instantiate(checkpoint_dir) 583 584 # Handle the max tick settings now that tick frequency was resolved 585 # during system instantiation 586 # NOTE: the maxtick variable here is in absolute ticks, so it must 587 # include any simulated ticks before a checkpoint 588 explicit_maxticks = 0 589 maxtick_from_abs = m5.MaxTick 590 maxtick_from_rel = m5.MaxTick 591 maxtick_from_maxtime = m5.MaxTick 592 if options.abs_max_tick: 593 maxtick_from_abs = options.abs_max_tick 594 explicit_maxticks += 1 595 if options.rel_max_tick: 596 maxtick_from_rel = options.rel_max_tick 597 if options.checkpoint_restore: 598 # NOTE: this may need to be updated if checkpoints ever store 599 # the ticks per simulated second 600 maxtick_from_rel += cpt_starttick 601 if options.at_instruction or options.simpoint: 602 warn("Relative max tick specified with --at-instruction or" \ 603 " --simpoint\n These options don't specify the " \ 604 "checkpoint start tick, so assuming\n you mean " \ 605 "absolute max tick") 606 explicit_maxticks += 1 607 if options.maxtime: 608 maxtick_from_maxtime = m5.ticks.fromSeconds(options.maxtime) 609 explicit_maxticks += 1 610 if explicit_maxticks > 1: 611 warn("Specified multiple of --abs-max-tick, --rel-max-tick, --maxtime."\ 612 " Using least") 613 maxtick = min([maxtick_from_abs, maxtick_from_rel, maxtick_from_maxtime]) 614 615 if options.checkpoint_restore != None and maxtick < cpt_starttick: 616 fatal("Bad maxtick (%d) specified: " \ 617 "Checkpoint starts starts from tick: %d", maxtick, cpt_starttick) 618 619 if options.standard_switch or cpu_class: 620 if options.standard_switch: 621 print "Switch at instruction count:%s" % \ 622 str(testsys.cpu[0].max_insts_any_thread) 623 exit_event = m5.simulate() 624 elif cpu_class and options.fast_forward: 625 print "Switch at instruction count:%s" % \ 626 str(testsys.cpu[0].max_insts_any_thread) 627 exit_event = m5.simulate() 628 else: 629 print "Switch at curTick count:%s" % str(10000) 630 exit_event = m5.simulate(10000) 631 print "Switched CPUS @ tick %s" % (m5.curTick()) 632 633 m5.switchCpus(testsys, switch_cpu_list) 634 635 if options.standard_switch: 636 print "Switch at instruction count:%d" % \ 637 (testsys.switch_cpus[0].max_insts_any_thread) 638 639 #warmup instruction count may have already been set 640 if options.warmup_insts: 641 exit_event = m5.simulate() 642 else: 643 exit_event = m5.simulate(options.standard_switch) 644 print "Switching CPUS @ tick %s" % (m5.curTick()) 645 print "Simulation ends instruction count:%d" % \ 646 (testsys.switch_cpus_1[0].max_insts_any_thread) 647 m5.switchCpus(testsys, switch_cpu_list1) 648 649 # If we're taking and restoring checkpoints, use checkpoint_dir 650 # option only for finding the checkpoints to restore from. This 651 # lets us test checkpointing by restoring from one set of 652 # checkpoints, generating a second set, and then comparing them.
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488 if options.take_checkpoints and options.checkpoint_restore:
| 653 if (options.take_checkpoints or options.take_simpoint_checkpoints) \ 654 and options.checkpoint_restore: 655
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489 if m5.options.outdir: 490 cptdir = m5.options.outdir 491 else: 492 cptdir = getcwd() 493 494 if options.take_checkpoints != None : 495 # Checkpoints being taken via the command line at <when> and at 496 # subsequent periods of <period>. Checkpoint instructions 497 # received from the benchmark running are ignored and skipped in 498 # favor of command line checkpoint instructions. 499 exit_event = scriptCheckpoints(options, maxtick, cptdir)
| 656 if m5.options.outdir: 657 cptdir = m5.options.outdir 658 else: 659 cptdir = getcwd() 660 661 if options.take_checkpoints != None : 662 # Checkpoints being taken via the command line at <when> and at 663 # subsequent periods of <period>. Checkpoint instructions 664 # received from the benchmark running are ignored and skipped in 665 # favor of command line checkpoint instructions. 666 exit_event = scriptCheckpoints(options, maxtick, cptdir)
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| 667 668 # Take SimPoint checkpoints 669 elif options.take_simpoint_checkpoints != None: 670 takeSimpointCheckpoints(simpoints, interval_length, cptdir) 671 672 # Restore from SimPoint checkpoints 673 elif options.restore_simpoint_checkpoint != None: 674 restoreSimpointCheckpoint() 675
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500 else: 501 if options.fast_forward: 502 m5.stats.reset() 503 print "**** REAL SIMULATION ****" 504 505 # If checkpoints are being taken, then the checkpoint instruction 506 # will occur in the benchmark code it self. 507 if options.repeat_switch and maxtick > options.repeat_switch: 508 exit_event = repeatSwitch(testsys, repeat_switch_cpu_list, 509 maxtick, options.repeat_switch) 510 else: 511 exit_event = benchCheckpoints(options, maxtick, cptdir) 512 513 print 'Exiting @ tick %i because %s' % (m5.curTick(), exit_event.getCause()) 514 if options.checkpoint_at_end: 515 m5.checkpoint(joinpath(cptdir, "cpt.%d")) 516 517 if not m5.options.interactive: 518 sys.exit(exit_event.getCode())
| 676 else: 677 if options.fast_forward: 678 m5.stats.reset() 679 print "**** REAL SIMULATION ****" 680 681 # If checkpoints are being taken, then the checkpoint instruction 682 # will occur in the benchmark code it self. 683 if options.repeat_switch and maxtick > options.repeat_switch: 684 exit_event = repeatSwitch(testsys, repeat_switch_cpu_list, 685 maxtick, options.repeat_switch) 686 else: 687 exit_event = benchCheckpoints(options, maxtick, cptdir) 688 689 print 'Exiting @ tick %i because %s' % (m5.curTick(), exit_event.getCause()) 690 if options.checkpoint_at_end: 691 m5.checkpoint(joinpath(cptdir, "cpt.%d")) 692 693 if not m5.options.interactive: 694 sys.exit(exit_event.getCode())
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