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authorLisa Hsu <hsul@eecs.umich.edu>2008-12-05 12:09:29 -0500
committerLisa Hsu <hsul@eecs.umich.edu>2008-12-05 12:09:29 -0500
commitf1430941cf17fc15a8b86eba41f9c856ad9347d8 (patch)
tree336c094db8d31c3af51477b5b81f1293a426dc30 /tests/quick/00.hello/ref/alpha
parente2c7618e508c6e5c0cbbd091eabb336f3e259465 (diff)
downloadgem5-f1430941cf17fc15a8b86eba41f9c856ad9347d8.tar.xz
This brings M5 closer to modernity - the kernel being advertised is newer so it won't die on binaries compiled with newer glibc's, and enables use of TLS-toolchain built binaries for ALPHA_SE by putting auxiliary vectors on the stack. There are some comments in the code to help. Finally, stats changes for ALPHA are from slight perturbations to the initial stack frame, all minimal diffs.
Diffstat (limited to 'tests/quick/00.hello/ref/alpha')
-rw-r--r--tests/quick/00.hello/ref/alpha/linux/o3-timing/m5stats.txt536
-rwxr-xr-xtests/quick/00.hello/ref/alpha/linux/o3-timing/stdout10
-rw-r--r--tests/quick/00.hello/ref/alpha/linux/simple-atomic/m5stats.txt34
-rwxr-xr-xtests/quick/00.hello/ref/alpha/linux/simple-atomic/stdout10
-rw-r--r--tests/quick/00.hello/ref/alpha/linux/simple-timing/m5stats.txt176
-rwxr-xr-xtests/quick/00.hello/ref/alpha/linux/simple-timing/stdout10
-rw-r--r--tests/quick/00.hello/ref/alpha/tru64/o3-timing/m5stats.txt8
-rwxr-xr-xtests/quick/00.hello/ref/alpha/tru64/o3-timing/stdout8
-rw-r--r--tests/quick/00.hello/ref/alpha/tru64/simple-atomic/m5stats.txt6
-rwxr-xr-xtests/quick/00.hello/ref/alpha/tru64/simple-atomic/stdout8
-rw-r--r--tests/quick/00.hello/ref/alpha/tru64/simple-timing/m5stats.txt8
-rwxr-xr-xtests/quick/00.hello/ref/alpha/tru64/simple-timing/stdout8
12 files changed, 411 insertions, 411 deletions
diff --git a/tests/quick/00.hello/ref/alpha/linux/o3-timing/m5stats.txt b/tests/quick/00.hello/ref/alpha/linux/o3-timing/m5stats.txt
index cbad9353d..93747295c 100644
--- a/tests/quick/00.hello/ref/alpha/linux/o3-timing/m5stats.txt
+++ b/tests/quick/00.hello/ref/alpha/linux/o3-timing/m5stats.txt
@@ -1,112 +1,112 @@
---------- Begin Simulation Statistics ----------
global.BPredUnit.BTBCorrect 0 # Number of correct BTB predictions (this stat may not work properly.
-global.BPredUnit.BTBHits 649 # Number of BTB hits
-global.BPredUnit.BTBLookups 1748 # Number of BTB lookups
+global.BPredUnit.BTBHits 806 # Number of BTB hits
+global.BPredUnit.BTBLookups 1937 # Number of BTB lookups
global.BPredUnit.RASInCorrect 67 # Number of incorrect RAS predictions.
-global.BPredUnit.condIncorrect 420 # Number of conditional branches incorrect
-global.BPredUnit.condPredicted 1246 # Number of conditional branches predicted
-global.BPredUnit.lookups 2108 # Number of BP lookups
-global.BPredUnit.usedRAS 301 # Number of times the RAS was used to get a target.
-host_inst_rate 86240 # Simulator instruction rate (inst/s)
-host_mem_usage 198988 # Number of bytes of host memory used
-host_seconds 0.07 # Real time elapsed on the host
-host_tick_rate 169229614 # Simulator tick rate (ticks/s)
+global.BPredUnit.condIncorrect 440 # Number of conditional branches incorrect
+global.BPredUnit.condPredicted 1370 # Number of conditional branches predicted
+global.BPredUnit.lookups 2263 # Number of BP lookups
+global.BPredUnit.usedRAS 304 # Number of times the RAS was used to get a target.
+host_inst_rate 7058 # Simulator instruction rate (inst/s)
+host_mem_usage 199016 # Number of bytes of host memory used
+host_seconds 0.90 # Real time elapsed on the host
+host_tick_rate 13784618 # Simulator tick rate (ticks/s)
memdepunit.memDep.conflictingLoads 36 # Number of conflicting loads.
-memdepunit.memDep.conflictingStores 28 # Number of conflicting stores.
-memdepunit.memDep.insertedLoads 2214 # Number of loads inserted to the mem dependence unit.
-memdepunit.memDep.insertedStores 1262 # Number of stores inserted to the mem dependence unit.
+memdepunit.memDep.conflictingStores 29 # Number of conflicting stores.
+memdepunit.memDep.insertedLoads 2287 # Number of loads inserted to the mem dependence unit.
+memdepunit.memDep.insertedStores 1266 # Number of stores inserted to the mem dependence unit.
sim_freq 1000000000000 # Frequency of simulated ticks
-sim_insts 6297 # Number of instructions simulated
+sim_insts 6386 # Number of instructions simulated
sim_seconds 0.000012 # Number of seconds simulated
-sim_ticks 12391500 # Number of ticks simulated
-system.cpu.commit.COM:branches 1012 # Number of branches committed
-system.cpu.commit.COM:bw_lim_events 120 # number cycles where commit BW limit reached
+sim_ticks 12474500 # Number of ticks simulated
+system.cpu.commit.COM:branches 1051 # Number of branches committed
+system.cpu.commit.COM:bw_lim_events 115 # number cycles where commit BW limit reached
system.cpu.commit.COM:bw_limited 0 # number of insts not committed due to BW limits
system.cpu.commit.COM:committed_per_cycle.start_dist # Number of insts commited each cycle
-system.cpu.commit.COM:committed_per_cycle.samples 12114
+system.cpu.commit.COM:committed_per_cycle.samples 12416
system.cpu.commit.COM:committed_per_cycle.min_value 0
- 0 9249 7634.97%
- 1 1607 1326.56%
- 2 479 395.41%
- 3 271 223.71%
- 4 137 113.09%
- 5 121 99.88%
- 6 87 71.82%
- 7 43 35.50%
- 8 120 99.06%
+ 0 9513 7661.89%
+ 1 1627 1310.41%
+ 2 488 393.04%
+ 3 267 215.05%
+ 4 153 123.23%
+ 5 104 83.76%
+ 6 96 77.32%
+ 7 53 42.69%
+ 8 115 92.62%
system.cpu.commit.COM:committed_per_cycle.max_value 8
system.cpu.commit.COM:committed_per_cycle.end_dist
-system.cpu.commit.COM:count 6314 # Number of instructions committed
-system.cpu.commit.COM:loads 1168 # Number of loads committed
+system.cpu.commit.COM:count 6403 # Number of instructions committed
+system.cpu.commit.COM:loads 1185 # Number of loads committed
system.cpu.commit.COM:membars 0 # Number of memory barriers committed
-system.cpu.commit.COM:refs 2030 # Number of memory references committed
+system.cpu.commit.COM:refs 2050 # Number of memory references committed
system.cpu.commit.COM:swp_count 0 # Number of s/w prefetches committed
-system.cpu.commit.branchMispredicts 350 # The number of times a branch was mispredicted
-system.cpu.commit.commitCommittedInsts 6314 # The number of committed instructions
+system.cpu.commit.branchMispredicts 367 # The number of times a branch was mispredicted
+system.cpu.commit.commitCommittedInsts 6403 # The number of committed instructions
system.cpu.commit.commitNonSpecStalls 17 # The number of times commit has been forced to stall to communicate backwards
-system.cpu.commit.commitSquashedInsts 4365 # The number of squashed insts skipped by commit
-system.cpu.committedInsts 6297 # Number of Instructions Simulated
-system.cpu.committedInsts_total 6297 # Number of Instructions Simulated
-system.cpu.cpi 3.935842 # CPI: Cycles Per Instruction
-system.cpu.cpi_total 3.935842 # CPI: Total CPI of All Threads
-system.cpu.dcache.ReadReq_accesses 1738 # number of ReadReq accesses(hits+misses)
-system.cpu.dcache.ReadReq_avg_miss_latency 34857.142857 # average ReadReq miss latency
-system.cpu.dcache.ReadReq_avg_mshr_miss_latency 36237.373737 # average ReadReq mshr miss latency
-system.cpu.dcache.ReadReq_hits 1577 # number of ReadReq hits
-system.cpu.dcache.ReadReq_miss_latency 5612000 # number of ReadReq miss cycles
-system.cpu.dcache.ReadReq_miss_rate 0.092635 # miss rate for ReadReq accesses
-system.cpu.dcache.ReadReq_misses 161 # number of ReadReq misses
-system.cpu.dcache.ReadReq_mshr_hits 62 # number of ReadReq MSHR hits
-system.cpu.dcache.ReadReq_mshr_miss_latency 3587500 # number of ReadReq MSHR miss cycles
-system.cpu.dcache.ReadReq_mshr_miss_rate 0.056962 # mshr miss rate for ReadReq accesses
-system.cpu.dcache.ReadReq_mshr_misses 99 # number of ReadReq MSHR misses
-system.cpu.dcache.WriteReq_accesses 862 # number of WriteReq accesses(hits+misses)
-system.cpu.dcache.WriteReq_avg_miss_latency 35059.055118 # average WriteReq miss latency
-system.cpu.dcache.WriteReq_avg_mshr_miss_latency 35660.919540 # average WriteReq mshr miss latency
-system.cpu.dcache.WriteReq_hits 481 # number of WriteReq hits
-system.cpu.dcache.WriteReq_miss_latency 13357500 # number of WriteReq miss cycles
-system.cpu.dcache.WriteReq_miss_rate 0.441995 # miss rate for WriteReq accesses
-system.cpu.dcache.WriteReq_misses 381 # number of WriteReq misses
-system.cpu.dcache.WriteReq_mshr_hits 294 # number of WriteReq MSHR hits
-system.cpu.dcache.WriteReq_mshr_miss_latency 3102500 # number of WriteReq MSHR miss cycles
-system.cpu.dcache.WriteReq_mshr_miss_rate 0.100928 # mshr miss rate for WriteReq accesses
+system.cpu.commit.commitSquashedInsts 4640 # The number of squashed insts skipped by commit
+system.cpu.committedInsts 6386 # Number of Instructions Simulated
+system.cpu.committedInsts_total 6386 # Number of Instructions Simulated
+system.cpu.cpi 3.906984 # CPI: Cycles Per Instruction
+system.cpu.cpi_total 3.906984 # CPI: Total CPI of All Threads
+system.cpu.dcache.ReadReq_accesses 1793 # number of ReadReq accesses(hits+misses)
+system.cpu.dcache.ReadReq_avg_miss_latency 34316.091954 # average ReadReq miss latency
+system.cpu.dcache.ReadReq_avg_mshr_miss_latency 36237.623762 # average ReadReq mshr miss latency
+system.cpu.dcache.ReadReq_hits 1619 # number of ReadReq hits
+system.cpu.dcache.ReadReq_miss_latency 5971000 # number of ReadReq miss cycles
+system.cpu.dcache.ReadReq_miss_rate 0.097044 # miss rate for ReadReq accesses
+system.cpu.dcache.ReadReq_misses 174 # number of ReadReq misses
+system.cpu.dcache.ReadReq_mshr_hits 73 # number of ReadReq MSHR hits
+system.cpu.dcache.ReadReq_mshr_miss_latency 3660000 # number of ReadReq MSHR miss cycles
+system.cpu.dcache.ReadReq_mshr_miss_rate 0.056330 # mshr miss rate for ReadReq accesses
+system.cpu.dcache.ReadReq_mshr_misses 101 # number of ReadReq MSHR misses
+system.cpu.dcache.WriteReq_accesses 865 # number of WriteReq accesses(hits+misses)
+system.cpu.dcache.WriteReq_avg_miss_latency 35168.421053 # average WriteReq miss latency
+system.cpu.dcache.WriteReq_avg_mshr_miss_latency 35747.126437 # average WriteReq mshr miss latency
+system.cpu.dcache.WriteReq_hits 485 # number of WriteReq hits
+system.cpu.dcache.WriteReq_miss_latency 13364000 # number of WriteReq miss cycles
+system.cpu.dcache.WriteReq_miss_rate 0.439306 # miss rate for WriteReq accesses
+system.cpu.dcache.WriteReq_misses 380 # number of WriteReq misses
+system.cpu.dcache.WriteReq_mshr_hits 293 # number of WriteReq MSHR hits
+system.cpu.dcache.WriteReq_mshr_miss_latency 3110000 # number of WriteReq MSHR miss cycles
+system.cpu.dcache.WriteReq_mshr_miss_rate 0.100578 # mshr miss rate for WriteReq accesses
system.cpu.dcache.WriteReq_mshr_misses 87 # number of WriteReq MSHR misses
system.cpu.dcache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked
system.cpu.dcache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked
-system.cpu.dcache.avg_refs 12.156977 # Average number of references to valid blocks.
+system.cpu.dcache.avg_refs 12.281609 # Average number of references to valid blocks.
system.cpu.dcache.blocked_no_mshrs 0 # number of cycles access was blocked
system.cpu.dcache.blocked_no_targets 0 # number of cycles access was blocked
system.cpu.dcache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked
system.cpu.dcache.blocked_cycles_no_targets 0 # number of cycles access was blocked
system.cpu.dcache.cache_copies 0 # number of cache copies performed
-system.cpu.dcache.demand_accesses 2600 # number of demand (read+write) accesses
-system.cpu.dcache.demand_avg_miss_latency 34999.077491 # average overall miss latency
-system.cpu.dcache.demand_avg_mshr_miss_latency 35967.741935 # average overall mshr miss latency
-system.cpu.dcache.demand_hits 2058 # number of demand (read+write) hits
-system.cpu.dcache.demand_miss_latency 18969500 # number of demand (read+write) miss cycles
-system.cpu.dcache.demand_miss_rate 0.208462 # miss rate for demand accesses
-system.cpu.dcache.demand_misses 542 # number of demand (read+write) misses
-system.cpu.dcache.demand_mshr_hits 356 # number of demand (read+write) MSHR hits
-system.cpu.dcache.demand_mshr_miss_latency 6690000 # number of demand (read+write) MSHR miss cycles
-system.cpu.dcache.demand_mshr_miss_rate 0.071538 # mshr miss rate for demand accesses
-system.cpu.dcache.demand_mshr_misses 186 # number of demand (read+write) MSHR misses
+system.cpu.dcache.demand_accesses 2658 # number of demand (read+write) accesses
+system.cpu.dcache.demand_avg_miss_latency 34900.722022 # average overall miss latency
+system.cpu.dcache.demand_avg_mshr_miss_latency 36010.638298 # average overall mshr miss latency
+system.cpu.dcache.demand_hits 2104 # number of demand (read+write) hits
+system.cpu.dcache.demand_miss_latency 19335000 # number of demand (read+write) miss cycles
+system.cpu.dcache.demand_miss_rate 0.208427 # miss rate for demand accesses
+system.cpu.dcache.demand_misses 554 # number of demand (read+write) misses
+system.cpu.dcache.demand_mshr_hits 366 # number of demand (read+write) MSHR hits
+system.cpu.dcache.demand_mshr_miss_latency 6770000 # number of demand (read+write) MSHR miss cycles
+system.cpu.dcache.demand_mshr_miss_rate 0.070730 # mshr miss rate for demand accesses
+system.cpu.dcache.demand_mshr_misses 188 # number of demand (read+write) MSHR misses
system.cpu.dcache.fast_writes 0 # number of fast writes performed
system.cpu.dcache.mshr_cap_events 0 # number of times MSHR cap was activated
system.cpu.dcache.no_allocate_misses 0 # Number of misses that were no-allocate
-system.cpu.dcache.overall_accesses 2600 # number of overall (read+write) accesses
-system.cpu.dcache.overall_avg_miss_latency 34999.077491 # average overall miss latency
-system.cpu.dcache.overall_avg_mshr_miss_latency 35967.741935 # average overall mshr miss latency
+system.cpu.dcache.overall_accesses 2658 # number of overall (read+write) accesses
+system.cpu.dcache.overall_avg_miss_latency 34900.722022 # average overall miss latency
+system.cpu.dcache.overall_avg_mshr_miss_latency 36010.638298 # average overall mshr miss latency
system.cpu.dcache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency
-system.cpu.dcache.overall_hits 2058 # number of overall hits
-system.cpu.dcache.overall_miss_latency 18969500 # number of overall miss cycles
-system.cpu.dcache.overall_miss_rate 0.208462 # miss rate for overall accesses
-system.cpu.dcache.overall_misses 542 # number of overall misses
-system.cpu.dcache.overall_mshr_hits 356 # number of overall MSHR hits
-system.cpu.dcache.overall_mshr_miss_latency 6690000 # number of overall MSHR miss cycles
-system.cpu.dcache.overall_mshr_miss_rate 0.071538 # mshr miss rate for overall accesses
-system.cpu.dcache.overall_mshr_misses 186 # number of overall MSHR misses
+system.cpu.dcache.overall_hits 2104 # number of overall hits
+system.cpu.dcache.overall_miss_latency 19335000 # number of overall miss cycles
+system.cpu.dcache.overall_miss_rate 0.208427 # miss rate for overall accesses
+system.cpu.dcache.overall_misses 554 # number of overall misses
+system.cpu.dcache.overall_mshr_hits 366 # number of overall MSHR hits
+system.cpu.dcache.overall_mshr_miss_latency 6770000 # number of overall MSHR miss cycles
+system.cpu.dcache.overall_mshr_miss_rate 0.070730 # mshr miss rate for overall accesses
+system.cpu.dcache.overall_mshr_misses 188 # number of overall MSHR misses
system.cpu.dcache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles
system.cpu.dcache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses
system.cpu.dcache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache
@@ -119,103 +119,103 @@ system.cpu.dcache.prefetcher.num_hwpf_removed_MSHR_hit 0
system.cpu.dcache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page
system.cpu.dcache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time
system.cpu.dcache.replacements 0 # number of replacements
-system.cpu.dcache.sampled_refs 172 # Sample count of references to valid blocks.
+system.cpu.dcache.sampled_refs 174 # Sample count of references to valid blocks.
system.cpu.dcache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions
-system.cpu.dcache.tagsinuse 109.051613 # Cycle average of tags in use
-system.cpu.dcache.total_refs 2091 # Total number of references to valid blocks.
+system.cpu.dcache.tagsinuse 110.270477 # Cycle average of tags in use
+system.cpu.dcache.total_refs 2137 # Total number of references to valid blocks.
system.cpu.dcache.warmup_cycle 0 # Cycle when the warmup percentage was hit.
system.cpu.dcache.writebacks 0 # number of writebacks
-system.cpu.decode.DECODE:BlockedCycles 1043 # Number of cycles decode is blocked
-system.cpu.decode.DECODE:BranchMispred 71 # Number of times decode detected a branch misprediction
-system.cpu.decode.DECODE:BranchResolved 168 # Number of times decode resolved a branch
-system.cpu.decode.DECODE:DecodedInsts 11945 # Number of instructions handled by decode
-system.cpu.decode.DECODE:IdleCycles 8815 # Number of cycles decode is idle
-system.cpu.decode.DECODE:RunCycles 2203 # Number of cycles decode is running
-system.cpu.decode.DECODE:SquashCycles 855 # Number of cycles decode is squashing
-system.cpu.decode.DECODE:SquashedInsts 208 # Number of squashed instructions handled by decode
+system.cpu.decode.DECODE:BlockedCycles 1058 # Number of cycles decode is blocked
+system.cpu.decode.DECODE:BranchMispred 74 # Number of times decode detected a branch misprediction
+system.cpu.decode.DECODE:BranchResolved 192 # Number of times decode resolved a branch
+system.cpu.decode.DECODE:DecodedInsts 12405 # Number of instructions handled by decode
+system.cpu.decode.DECODE:IdleCycles 8939 # Number of cycles decode is idle
+system.cpu.decode.DECODE:RunCycles 2366 # Number of cycles decode is running
+system.cpu.decode.DECODE:SquashCycles 897 # Number of cycles decode is squashing
+system.cpu.decode.DECODE:SquashedInsts 209 # Number of squashed instructions handled by decode
system.cpu.decode.DECODE:UnblockCycles 54 # Number of cycles decode is unblocking
-system.cpu.dtb.accesses 2892 # DTB accesses
+system.cpu.dtb.accesses 2951 # DTB accesses
system.cpu.dtb.acv 0 # DTB access violations
-system.cpu.dtb.hits 2831 # DTB hits
+system.cpu.dtb.hits 2890 # DTB hits
system.cpu.dtb.misses 61 # DTB misses
-system.cpu.dtb.read_accesses 1821 # DTB read accesses
+system.cpu.dtb.read_accesses 1876 # DTB read accesses
system.cpu.dtb.read_acv 0 # DTB read access violations
-system.cpu.dtb.read_hits 1785 # DTB read hits
+system.cpu.dtb.read_hits 1840 # DTB read hits
system.cpu.dtb.read_misses 36 # DTB read misses
-system.cpu.dtb.write_accesses 1071 # DTB write accesses
+system.cpu.dtb.write_accesses 1075 # DTB write accesses
system.cpu.dtb.write_acv 0 # DTB write access violations
-system.cpu.dtb.write_hits 1046 # DTB write hits
+system.cpu.dtb.write_hits 1050 # DTB write hits
system.cpu.dtb.write_misses 25 # DTB write misses
-system.cpu.fetch.Branches 2108 # Number of branches that fetch encountered
-system.cpu.fetch.CacheLines 1704 # Number of cache lines fetched
-system.cpu.fetch.Cycles 4044 # Number of cycles fetch has run and was not squashing or blocked
-system.cpu.fetch.IcacheSquashes 264 # Number of outstanding Icache misses that were squashed
-system.cpu.fetch.Insts 12761 # Number of instructions fetch has processed
-system.cpu.fetch.SquashCycles 482 # Number of cycles fetch has spent squashing
-system.cpu.fetch.branchRate 0.085055 # Number of branch fetches per cycle
-system.cpu.fetch.icacheStallCycles 1704 # Number of cycles fetch is stalled on an Icache miss
-system.cpu.fetch.predictedBranches 950 # Number of branches that fetch has predicted taken
-system.cpu.fetch.rate 0.514889 # Number of inst fetches per cycle
+system.cpu.fetch.Branches 2263 # Number of branches that fetch encountered
+system.cpu.fetch.CacheLines 1802 # Number of cache lines fetched
+system.cpu.fetch.Cycles 4308 # Number of cycles fetch has run and was not squashing or blocked
+system.cpu.fetch.IcacheSquashes 270 # Number of outstanding Icache misses that were squashed
+system.cpu.fetch.Insts 13251 # Number of instructions fetch has processed
+system.cpu.fetch.SquashCycles 502 # Number of cycles fetch has spent squashing
+system.cpu.fetch.branchRate 0.090701 # Number of branch fetches per cycle
+system.cpu.fetch.icacheStallCycles 1802 # Number of cycles fetch is stalled on an Icache miss
+system.cpu.fetch.predictedBranches 1110 # Number of branches that fetch has predicted taken
+system.cpu.fetch.rate 0.531102 # Number of inst fetches per cycle
system.cpu.fetch.rateDist.start_dist # Number of instructions fetched each cycle (Total)
-system.cpu.fetch.rateDist.samples 12970
+system.cpu.fetch.rateDist.samples 13314
system.cpu.fetch.rateDist.min_value 0
- 0 10663 8221.28%
- 1 241 185.81%
- 2 214 165.00%
- 3 169 130.30%
- 4 208 160.37%
- 5 163 125.67%
- 6 215 165.77%
- 7 128 98.69%
- 8 969 747.11%
+ 0 10844 8144.81%
+ 1 252 189.27%
+ 2 238 178.76%
+ 3 230 172.75%
+ 4 272 204.30%
+ 5 162 121.68%
+ 6 232 174.25%
+ 7 129 96.89%
+ 8 955 717.29%
system.cpu.fetch.rateDist.max_value 8
system.cpu.fetch.rateDist.end_dist
-system.cpu.icache.ReadReq_accesses 1704 # number of ReadReq accesses(hits+misses)
-system.cpu.icache.ReadReq_avg_miss_latency 35319.248826 # average ReadReq miss latency
-system.cpu.icache.ReadReq_avg_mshr_miss_latency 35254.870130 # average ReadReq mshr miss latency
-system.cpu.icache.ReadReq_hits 1278 # number of ReadReq hits
-system.cpu.icache.ReadReq_miss_latency 15046000 # number of ReadReq miss cycles
-system.cpu.icache.ReadReq_miss_rate 0.250000 # miss rate for ReadReq accesses
-system.cpu.icache.ReadReq_misses 426 # number of ReadReq misses
-system.cpu.icache.ReadReq_mshr_hits 118 # number of ReadReq MSHR hits
-system.cpu.icache.ReadReq_mshr_miss_latency 10858500 # number of ReadReq MSHR miss cycles
-system.cpu.icache.ReadReq_mshr_miss_rate 0.180751 # mshr miss rate for ReadReq accesses
-system.cpu.icache.ReadReq_mshr_misses 308 # number of ReadReq MSHR misses
+system.cpu.icache.ReadReq_accesses 1802 # number of ReadReq accesses(hits+misses)
+system.cpu.icache.ReadReq_avg_miss_latency 35400.943396 # average ReadReq miss latency
+system.cpu.icache.ReadReq_avg_mshr_miss_latency 35286.644951 # average ReadReq mshr miss latency
+system.cpu.icache.ReadReq_hits 1378 # number of ReadReq hits
+system.cpu.icache.ReadReq_miss_latency 15010000 # number of ReadReq miss cycles
+system.cpu.icache.ReadReq_miss_rate 0.235294 # miss rate for ReadReq accesses
+system.cpu.icache.ReadReq_misses 424 # number of ReadReq misses
+system.cpu.icache.ReadReq_mshr_hits 117 # number of ReadReq MSHR hits
+system.cpu.icache.ReadReq_mshr_miss_latency 10833000 # number of ReadReq MSHR miss cycles
+system.cpu.icache.ReadReq_mshr_miss_rate 0.170366 # mshr miss rate for ReadReq accesses
+system.cpu.icache.ReadReq_mshr_misses 307 # number of ReadReq MSHR misses
system.cpu.icache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked
system.cpu.icache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked
-system.cpu.icache.avg_refs 4.149351 # Average number of references to valid blocks.
+system.cpu.icache.avg_refs 4.488599 # Average number of references to valid blocks.
system.cpu.icache.blocked_no_mshrs 0 # number of cycles access was blocked
system.cpu.icache.blocked_no_targets 0 # number of cycles access was blocked
system.cpu.icache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked
system.cpu.icache.blocked_cycles_no_targets 0 # number of cycles access was blocked
system.cpu.icache.cache_copies 0 # number of cache copies performed
-system.cpu.icache.demand_accesses 1704 # number of demand (read+write) accesses
-system.cpu.icache.demand_avg_miss_latency 35319.248826 # average overall miss latency
-system.cpu.icache.demand_avg_mshr_miss_latency 35254.870130 # average overall mshr miss latency
-system.cpu.icache.demand_hits 1278 # number of demand (read+write) hits
-system.cpu.icache.demand_miss_latency 15046000 # number of demand (read+write) miss cycles
-system.cpu.icache.demand_miss_rate 0.250000 # miss rate for demand accesses
-system.cpu.icache.demand_misses 426 # number of demand (read+write) misses
-system.cpu.icache.demand_mshr_hits 118 # number of demand (read+write) MSHR hits
-system.cpu.icache.demand_mshr_miss_latency 10858500 # number of demand (read+write) MSHR miss cycles
-system.cpu.icache.demand_mshr_miss_rate 0.180751 # mshr miss rate for demand accesses
-system.cpu.icache.demand_mshr_misses 308 # number of demand (read+write) MSHR misses
+system.cpu.icache.demand_accesses 1802 # number of demand (read+write) accesses
+system.cpu.icache.demand_avg_miss_latency 35400.943396 # average overall miss latency
+system.cpu.icache.demand_avg_mshr_miss_latency 35286.644951 # average overall mshr miss latency
+system.cpu.icache.demand_hits 1378 # number of demand (read+write) hits
+system.cpu.icache.demand_miss_latency 15010000 # number of demand (read+write) miss cycles
+system.cpu.icache.demand_miss_rate 0.235294 # miss rate for demand accesses
+system.cpu.icache.demand_misses 424 # number of demand (read+write) misses
+system.cpu.icache.demand_mshr_hits 117 # number of demand (read+write) MSHR hits
+system.cpu.icache.demand_mshr_miss_latency 10833000 # number of demand (read+write) MSHR miss cycles
+system.cpu.icache.demand_mshr_miss_rate 0.170366 # mshr miss rate for demand accesses
+system.cpu.icache.demand_mshr_misses 307 # number of demand (read+write) MSHR misses
system.cpu.icache.fast_writes 0 # number of fast writes performed
system.cpu.icache.mshr_cap_events 0 # number of times MSHR cap was activated
system.cpu.icache.no_allocate_misses 0 # Number of misses that were no-allocate
-system.cpu.icache.overall_accesses 1704 # number of overall (read+write) accesses
-system.cpu.icache.overall_avg_miss_latency 35319.248826 # average overall miss latency
-system.cpu.icache.overall_avg_mshr_miss_latency 35254.870130 # average overall mshr miss latency
+system.cpu.icache.overall_accesses 1802 # number of overall (read+write) accesses
+system.cpu.icache.overall_avg_miss_latency 35400.943396 # average overall miss latency
+system.cpu.icache.overall_avg_mshr_miss_latency 35286.644951 # average overall mshr miss latency
system.cpu.icache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency
-system.cpu.icache.overall_hits 1278 # number of overall hits
-system.cpu.icache.overall_miss_latency 15046000 # number of overall miss cycles
-system.cpu.icache.overall_miss_rate 0.250000 # miss rate for overall accesses
-system.cpu.icache.overall_misses 426 # number of overall misses
-system.cpu.icache.overall_mshr_hits 118 # number of overall MSHR hits
-system.cpu.icache.overall_mshr_miss_latency 10858500 # number of overall MSHR miss cycles
-system.cpu.icache.overall_mshr_miss_rate 0.180751 # mshr miss rate for overall accesses
-system.cpu.icache.overall_mshr_misses 308 # number of overall MSHR misses
+system.cpu.icache.overall_hits 1378 # number of overall hits
+system.cpu.icache.overall_miss_latency 15010000 # number of overall miss cycles
+system.cpu.icache.overall_miss_rate 0.235294 # miss rate for overall accesses
+system.cpu.icache.overall_misses 424 # number of overall misses
+system.cpu.icache.overall_mshr_hits 117 # number of overall MSHR hits
+system.cpu.icache.overall_mshr_miss_latency 10833000 # number of overall MSHR miss cycles
+system.cpu.icache.overall_mshr_miss_rate 0.170366 # mshr miss rate for overall accesses
+system.cpu.icache.overall_mshr_misses 307 # number of overall MSHR misses
system.cpu.icache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles
system.cpu.icache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses
system.cpu.icache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache
@@ -228,42 +228,42 @@ system.cpu.icache.prefetcher.num_hwpf_removed_MSHR_hit 0
system.cpu.icache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page
system.cpu.icache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time
system.cpu.icache.replacements 0 # number of replacements
-system.cpu.icache.sampled_refs 308 # Sample count of references to valid blocks.
+system.cpu.icache.sampled_refs 307 # Sample count of references to valid blocks.
system.cpu.icache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions
-system.cpu.icache.tagsinuse 160.409405 # Cycle average of tags in use
-system.cpu.icache.total_refs 1278 # Total number of references to valid blocks.
+system.cpu.icache.tagsinuse 158.550695 # Cycle average of tags in use
+system.cpu.icache.total_refs 1378 # Total number of references to valid blocks.
system.cpu.icache.warmup_cycle 0 # Cycle when the warmup percentage was hit.
system.cpu.icache.writebacks 0 # number of writebacks
-system.cpu.idleCycles 11814 # Total number of cycles that the CPU has spent unscheduled due to idling
-system.cpu.iew.EXEC:branches 1375 # Number of branches executed
-system.cpu.iew.EXEC:nop 76 # number of nop insts executed
-system.cpu.iew.EXEC:rate 0.355148 # Inst execution rate
-system.cpu.iew.EXEC:refs 2900 # number of memory reference insts executed
-system.cpu.iew.EXEC:stores 1073 # Number of stores executed
+system.cpu.idleCycles 11636 # Total number of cycles that the CPU has spent unscheduled due to idling
+system.cpu.iew.EXEC:branches 1450 # Number of branches executed
+system.cpu.iew.EXEC:nop 82 # number of nop insts executed
+system.cpu.iew.EXEC:rate 0.362325 # Inst execution rate
+system.cpu.iew.EXEC:refs 2959 # number of memory reference insts executed
+system.cpu.iew.EXEC:stores 1077 # Number of stores executed
system.cpu.iew.EXEC:swp 0 # number of swp insts executed
-system.cpu.iew.WB:consumers 5878 # num instructions consuming a value
-system.cpu.iew.WB:count 8512 # cumulative count of insts written-back
-system.cpu.iew.WB:fanout 0.747873 # average fanout of values written-back
+system.cpu.iew.WB:consumers 6020 # num instructions consuming a value
+system.cpu.iew.WB:count 8734 # cumulative count of insts written-back
+system.cpu.iew.WB:fanout 0.746013 # average fanout of values written-back
system.cpu.iew.WB:penalized 0 # number of instrctions required to write to 'other' IQ
system.cpu.iew.WB:penalized_rate 0 # fraction of instructions written-back that wrote to 'other' IQ
-system.cpu.iew.WB:producers 4396 # num instructions producing a value
-system.cpu.iew.WB:rate 0.343447 # insts written-back per cycle
-system.cpu.iew.WB:sent 8611 # cumulative count of insts sent to commit
-system.cpu.iew.branchMispredicts 406 # Number of branch mispredicts detected at execute
-system.cpu.iew.iewBlockCycles 66 # Number of cycles IEW is blocking
-system.cpu.iew.iewDispLoadInsts 2214 # Number of dispatched load instructions
-system.cpu.iew.iewDispNonSpecInsts 23 # Number of dispatched non-speculative instructions
-system.cpu.iew.iewDispSquashedInsts 181 # Number of squashed instructions skipped by dispatch
-system.cpu.iew.iewDispStoreInsts 1262 # Number of dispatched store instructions
-system.cpu.iew.iewDispatchedInsts 10713 # Number of instructions dispatched to IQ
-system.cpu.iew.iewExecLoadInsts 1827 # Number of load instructions executed
-system.cpu.iew.iewExecSquashedInsts 299 # Number of squashed instructions skipped in execute
-system.cpu.iew.iewExecutedInsts 8802 # Number of executed instructions
-system.cpu.iew.iewIQFullEvents 7 # Number of times the IQ has become full, causing a stall
+system.cpu.iew.WB:producers 4491 # num instructions producing a value
+system.cpu.iew.WB:rate 0.350060 # insts written-back per cycle
+system.cpu.iew.WB:sent 8835 # cumulative count of insts sent to commit
+system.cpu.iew.branchMispredicts 428 # Number of branch mispredicts detected at execute
+system.cpu.iew.iewBlockCycles 102 # Number of cycles IEW is blocking
+system.cpu.iew.iewDispLoadInsts 2287 # Number of dispatched load instructions
+system.cpu.iew.iewDispNonSpecInsts 24 # Number of dispatched non-speculative instructions
+system.cpu.iew.iewDispSquashedInsts 201 # Number of squashed instructions skipped by dispatch
+system.cpu.iew.iewDispStoreInsts 1266 # Number of dispatched store instructions
+system.cpu.iew.iewDispatchedInsts 11078 # Number of instructions dispatched to IQ
+system.cpu.iew.iewExecLoadInsts 1882 # Number of load instructions executed
+system.cpu.iew.iewExecSquashedInsts 305 # Number of squashed instructions skipped in execute
+system.cpu.iew.iewExecutedInsts 9040 # Number of executed instructions
+system.cpu.iew.iewIQFullEvents 8 # Number of times the IQ has become full, causing a stall
system.cpu.iew.iewIdleCycles 0 # Number of cycles IEW is idle
system.cpu.iew.iewLSQFullEvents 0 # Number of times the LSQ has become full, causing a stall
-system.cpu.iew.iewSquashCycles 855 # Number of cycles IEW is squashing
-system.cpu.iew.iewUnblockCycles 9 # Number of cycles IEW is unblocking
+system.cpu.iew.iewSquashCycles 897 # Number of cycles IEW is squashing
+system.cpu.iew.iewUnblockCycles 15 # Number of cycles IEW is unblocking
system.cpu.iew.lsq.thread.0.blockedLoads 0 # Number of blocked loads due to partial load-store forwarding
system.cpu.iew.lsq.thread.0.cacheBlocked 0 # Number of times an access to memory failed due to the cache being blocked
system.cpu.iew.lsq.thread.0.forwLoads 46 # Number of loads that had data forwarded from stores
@@ -272,17 +272,17 @@ system.cpu.iew.lsq.thread.0.invAddrLoads 0 # Nu
system.cpu.iew.lsq.thread.0.invAddrSwpfs 0 # Number of software prefetches ignored due to an invalid address
system.cpu.iew.lsq.thread.0.memOrderViolation 64 # Number of memory ordering violations
system.cpu.iew.lsq.thread.0.rescheduledLoads 1 # Number of loads that were rescheduled
-system.cpu.iew.lsq.thread.0.squashedLoads 1046 # Number of loads squashed
-system.cpu.iew.lsq.thread.0.squashedStores 400 # Number of stores squashed
+system.cpu.iew.lsq.thread.0.squashedLoads 1102 # Number of loads squashed
+system.cpu.iew.lsq.thread.0.squashedStores 401 # Number of stores squashed
system.cpu.iew.memOrderViolationEvents 64 # Number of memory order violations
system.cpu.iew.predictedNotTakenIncorrect 290 # Number of branches that were predicted not taken incorrectly
-system.cpu.iew.predictedTakenIncorrect 116 # Number of branches that were predicted taken incorrectly
-system.cpu.ipc 0.254075 # IPC: Instructions Per Cycle
-system.cpu.ipc_total 0.254075 # IPC: Total IPC of All Threads
-system.cpu.iq.ISSUE:FU_type_0 9101 # Type of FU issued
+system.cpu.iew.predictedTakenIncorrect 138 # Number of branches that were predicted taken incorrectly
+system.cpu.ipc 0.255952 # IPC: Instructions Per Cycle
+system.cpu.ipc_total 0.255952 # IPC: Total IPC of All Threads
+system.cpu.iq.ISSUE:FU_type_0 9345 # Type of FU issued
system.cpu.iq.ISSUE:FU_type_0.start_dist
No_OpClass 2 0.02% # Type of FU issued
- IntAlu 6072 66.72% # Type of FU issued
+ IntAlu 6254 66.92% # Type of FU issued
IntMult 1 0.01% # Type of FU issued
IntDiv 0 0.00% # Type of FU issued
FloatAdd 2 0.02% # Type of FU issued
@@ -291,16 +291,16 @@ system.cpu.iq.ISSUE:FU_type_0.start_dist
FloatMult 0 0.00% # Type of FU issued
FloatDiv 0 0.00% # Type of FU issued
FloatSqrt 0 0.00% # Type of FU issued
- MemRead 1928 21.18% # Type of FU issued
- MemWrite 1096 12.04% # Type of FU issued
+ MemRead 1986 21.25% # Type of FU issued
+ MemWrite 1100 11.77% # Type of FU issued
IprAccess 0 0.00% # Type of FU issued
InstPrefetch 0 0.00% # Type of FU issued
system.cpu.iq.ISSUE:FU_type_0.end_dist
-system.cpu.iq.ISSUE:fu_busy_cnt 93 # FU busy when requested
-system.cpu.iq.ISSUE:fu_busy_rate 0.010219 # FU busy rate (busy events/executed inst)
+system.cpu.iq.ISSUE:fu_busy_cnt 105 # FU busy when requested
+system.cpu.iq.ISSUE:fu_busy_rate 0.011236 # FU busy rate (busy events/executed inst)
system.cpu.iq.ISSUE:fu_full.start_dist
No_OpClass 0 0.00% # attempts to use FU when none available
- IntAlu 2 2.15% # attempts to use FU when none available
+ IntAlu 14 13.33% # attempts to use FU when none available
IntMult 0 0.00% # attempts to use FU when none available
IntDiv 0 0.00% # attempts to use FU when none available
FloatAdd 0 0.00% # attempts to use FU when none available
@@ -309,100 +309,100 @@ system.cpu.iq.ISSUE:fu_full.start_dist
FloatMult 0 0.00% # attempts to use FU when none available
FloatDiv 0 0.00% # attempts to use FU when none available
FloatSqrt 0 0.00% # attempts to use FU when none available
- MemRead 56 60.22% # attempts to use FU when none available
- MemWrite 35 37.63% # attempts to use FU when none available
+ MemRead 56 53.33% # attempts to use FU when none available
+ MemWrite 35 33.33% # attempts to use FU when none available
IprAccess 0 0.00% # attempts to use FU when none available
InstPrefetch 0 0.00% # attempts to use FU when none available
system.cpu.iq.ISSUE:fu_full.end_dist
system.cpu.iq.ISSUE:issued_per_cycle.start_dist # Number of insts issued each cycle
-system.cpu.iq.ISSUE:issued_per_cycle.samples 12970
+system.cpu.iq.ISSUE:issued_per_cycle.samples 13314
system.cpu.iq.ISSUE:issued_per_cycle.min_value 0
- 0 8890 6854.28%
- 1 1667 1285.27%
- 2 1037 799.54%
- 3 696 536.62%
- 4 340 262.14%
- 5 189 145.72%
- 6 103 79.41%
- 7 35 26.99%
- 8 13 10.02%
+ 0 9113 6844.67%
+ 1 1716 1288.87%
+ 2 1071 804.42%
+ 3 725 544.54%
+ 4 355 266.64%
+ 5 172 129.19%
+ 6 115 86.38%
+ 7 34 25.54%
+ 8 13 9.76%
system.cpu.iq.ISSUE:issued_per_cycle.max_value 8
system.cpu.iq.ISSUE:issued_per_cycle.end_dist
-system.cpu.iq.ISSUE:rate 0.367213 # Inst issue rate
-system.cpu.iq.iqInstsAdded 10614 # Number of instructions added to the IQ (excludes non-spec)
-system.cpu.iq.iqInstsIssued 9101 # Number of instructions issued
-system.cpu.iq.iqNonSpecInstsAdded 23 # Number of non-speculative instructions added to the IQ
-system.cpu.iq.iqSquashedInstsExamined 3909 # Number of squashed instructions iterated over during squash; mainly for profiling
-system.cpu.iq.iqSquashedInstsIssued 43 # Number of squashed instructions issued
-system.cpu.iq.iqSquashedNonSpecRemoved 6 # Number of squashed non-spec instructions that were removed
-system.cpu.iq.iqSquashedOperandsExamined 2399 # Number of squashed operands that are examined and possibly removed from graph
-system.cpu.itb.accesses 1737 # ITB accesses
+system.cpu.iq.ISSUE:rate 0.374549 # Inst issue rate
+system.cpu.iq.iqInstsAdded 10972 # Number of instructions added to the IQ (excludes non-spec)
+system.cpu.iq.iqInstsIssued 9345 # Number of instructions issued
+system.cpu.iq.iqNonSpecInstsAdded 24 # Number of non-speculative instructions added to the IQ
+system.cpu.iq.iqSquashedInstsExamined 4189 # Number of squashed instructions iterated over during squash; mainly for profiling
+system.cpu.iq.iqSquashedInstsIssued 53 # Number of squashed instructions issued
+system.cpu.iq.iqSquashedNonSpecRemoved 7 # Number of squashed non-spec instructions that were removed
+system.cpu.iq.iqSquashedOperandsExamined 2547 # Number of squashed operands that are examined and possibly removed from graph
+system.cpu.itb.accesses 1838 # ITB accesses
system.cpu.itb.acv 0 # ITB acv
-system.cpu.itb.hits 1704 # ITB hits
-system.cpu.itb.misses 33 # ITB misses
+system.cpu.itb.hits 1802 # ITB hits
+system.cpu.itb.misses 36 # ITB misses
system.cpu.l2cache.ReadExReq_accesses 73 # number of ReadExReq accesses(hits+misses)
-system.cpu.l2cache.ReadExReq_avg_miss_latency 34404.109589 # average ReadExReq miss latency
-system.cpu.l2cache.ReadExReq_avg_mshr_miss_latency 31294.520548 # average ReadExReq mshr miss latency
-system.cpu.l2cache.ReadExReq_miss_latency 2511500 # number of ReadExReq miss cycles
+system.cpu.l2cache.ReadExReq_avg_miss_latency 34547.945205 # average ReadExReq miss latency
+system.cpu.l2cache.ReadExReq_avg_mshr_miss_latency 31465.753425 # average ReadExReq mshr miss latency
+system.cpu.l2cache.ReadExReq_miss_latency 2522000 # number of ReadExReq miss cycles
system.cpu.l2cache.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses
system.cpu.l2cache.ReadExReq_misses 73 # number of ReadExReq misses
-system.cpu.l2cache.ReadExReq_mshr_miss_latency 2284500 # number of ReadExReq MSHR miss cycles
+system.cpu.l2cache.ReadExReq_mshr_miss_latency 2297000 # number of ReadExReq MSHR miss cycles
system.cpu.l2cache.ReadExReq_mshr_miss_rate 1 # mshr miss rate for ReadExReq accesses
system.cpu.l2cache.ReadExReq_mshr_misses 73 # number of ReadExReq MSHR misses
-system.cpu.l2cache.ReadReq_accesses 407 # number of ReadReq accesses(hits+misses)
-system.cpu.l2cache.ReadReq_avg_miss_latency 34399.014778 # average ReadReq miss latency
-system.cpu.l2cache.ReadReq_avg_mshr_miss_latency 31224.137931 # average ReadReq mshr miss latency
+system.cpu.l2cache.ReadReq_accesses 408 # number of ReadReq accesses(hits+misses)
+system.cpu.l2cache.ReadReq_avg_miss_latency 34421.375921 # average ReadReq miss latency
+system.cpu.l2cache.ReadReq_avg_mshr_miss_latency 31240.786241 # average ReadReq mshr miss latency
system.cpu.l2cache.ReadReq_hits 1 # number of ReadReq hits
-system.cpu.l2cache.ReadReq_miss_latency 13966000 # number of ReadReq miss cycles
-system.cpu.l2cache.ReadReq_miss_rate 0.997543 # miss rate for ReadReq accesses
-system.cpu.l2cache.ReadReq_misses 406 # number of ReadReq misses
-system.cpu.l2cache.ReadReq_mshr_miss_latency 12677000 # number of ReadReq MSHR miss cycles
-system.cpu.l2cache.ReadReq_mshr_miss_rate 0.997543 # mshr miss rate for ReadReq accesses
-system.cpu.l2cache.ReadReq_mshr_misses 406 # number of ReadReq MSHR misses
+system.cpu.l2cache.ReadReq_miss_latency 14009500 # number of ReadReq miss cycles
+system.cpu.l2cache.ReadReq_miss_rate 0.997549 # miss rate for ReadReq accesses
+system.cpu.l2cache.ReadReq_misses 407 # number of ReadReq misses
+system.cpu.l2cache.ReadReq_mshr_miss_latency 12715000 # number of ReadReq MSHR miss cycles
+system.cpu.l2cache.ReadReq_mshr_miss_rate 0.997549 # mshr miss rate for ReadReq accesses
+system.cpu.l2cache.ReadReq_mshr_misses 407 # number of ReadReq MSHR misses
system.cpu.l2cache.UpgradeReq_accesses 14 # number of UpgradeReq accesses(hits+misses)
-system.cpu.l2cache.UpgradeReq_avg_miss_latency 34250 # average UpgradeReq miss latency
-system.cpu.l2cache.UpgradeReq_avg_mshr_miss_latency 31035.714286 # average UpgradeReq mshr miss latency
-system.cpu.l2cache.UpgradeReq_miss_latency 479500 # number of UpgradeReq miss cycles
+system.cpu.l2cache.UpgradeReq_avg_miss_latency 34357.142857 # average UpgradeReq miss latency
+system.cpu.l2cache.UpgradeReq_avg_mshr_miss_latency 31142.857143 # average UpgradeReq mshr miss latency
+system.cpu.l2cache.UpgradeReq_miss_latency 481000 # number of UpgradeReq miss cycles
system.cpu.l2cache.UpgradeReq_miss_rate 1 # miss rate for UpgradeReq accesses
system.cpu.l2cache.UpgradeReq_misses 14 # number of UpgradeReq misses
-system.cpu.l2cache.UpgradeReq_mshr_miss_latency 434500 # number of UpgradeReq MSHR miss cycles
+system.cpu.l2cache.UpgradeReq_mshr_miss_latency 436000 # number of UpgradeReq MSHR miss cycles
system.cpu.l2cache.UpgradeReq_mshr_miss_rate 1 # mshr miss rate for UpgradeReq accesses
system.cpu.l2cache.UpgradeReq_mshr_misses 14 # number of UpgradeReq MSHR misses
system.cpu.l2cache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked
system.cpu.l2cache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked
-system.cpu.l2cache.avg_refs 0.002551 # Average number of references to valid blocks.
+system.cpu.l2cache.avg_refs 0.002545 # Average number of references to valid blocks.
system.cpu.l2cache.blocked_no_mshrs 0 # number of cycles access was blocked
system.cpu.l2cache.blocked_no_targets 0 # number of cycles access was blocked
system.cpu.l2cache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked
system.cpu.l2cache.blocked_cycles_no_targets 0 # number of cycles access was blocked
system.cpu.l2cache.cache_copies 0 # number of cache copies performed
-system.cpu.l2cache.demand_accesses 480 # number of demand (read+write) accesses
-system.cpu.l2cache.demand_avg_miss_latency 34399.791232 # average overall miss latency
-system.cpu.l2cache.demand_avg_mshr_miss_latency 31234.864301 # average overall mshr miss latency
+system.cpu.l2cache.demand_accesses 481 # number of demand (read+write) accesses
+system.cpu.l2cache.demand_avg_miss_latency 34440.625000 # average overall miss latency
+system.cpu.l2cache.demand_avg_mshr_miss_latency 31275 # average overall mshr miss latency
system.cpu.l2cache.demand_hits 1 # number of demand (read+write) hits
-system.cpu.l2cache.demand_miss_latency 16477500 # number of demand (read+write) miss cycles
-system.cpu.l2cache.demand_miss_rate 0.997917 # miss rate for demand accesses
-system.cpu.l2cache.demand_misses 479 # number of demand (read+write) misses
+system.cpu.l2cache.demand_miss_latency 16531500 # number of demand (read+write) miss cycles
+system.cpu.l2cache.demand_miss_rate 0.997921 # miss rate for demand accesses
+system.cpu.l2cache.demand_misses 480 # number of demand (read+write) misses
system.cpu.l2cache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits
-system.cpu.l2cache.demand_mshr_miss_latency 14961500 # number of demand (read+write) MSHR miss cycles
-system.cpu.l2cache.demand_mshr_miss_rate 0.997917 # mshr miss rate for demand accesses
-system.cpu.l2cache.demand_mshr_misses 479 # number of demand (read+write) MSHR misses
+system.cpu.l2cache.demand_mshr_miss_latency 15012000 # number of demand (read+write) MSHR miss cycles
+system.cpu.l2cache.demand_mshr_miss_rate 0.997921 # mshr miss rate for demand accesses
+system.cpu.l2cache.demand_mshr_misses 480 # number of demand (read+write) MSHR misses
system.cpu.l2cache.fast_writes 0 # number of fast writes performed
system.cpu.l2cache.mshr_cap_events 0 # number of times MSHR cap was activated
system.cpu.l2cache.no_allocate_misses 0 # Number of misses that were no-allocate
-system.cpu.l2cache.overall_accesses 480 # number of overall (read+write) accesses
-system.cpu.l2cache.overall_avg_miss_latency 34399.791232 # average overall miss latency
-system.cpu.l2cache.overall_avg_mshr_miss_latency 31234.864301 # average overall mshr miss latency
+system.cpu.l2cache.overall_accesses 481 # number of overall (read+write) accesses
+system.cpu.l2cache.overall_avg_miss_latency 34440.625000 # average overall miss latency
+system.cpu.l2cache.overall_avg_mshr_miss_latency 31275 # average overall mshr miss latency
system.cpu.l2cache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency
system.cpu.l2cache.overall_hits 1 # number of overall hits
-system.cpu.l2cache.overall_miss_latency 16477500 # number of overall miss cycles
-system.cpu.l2cache.overall_miss_rate 0.997917 # miss rate for overall accesses
-system.cpu.l2cache.overall_misses 479 # number of overall misses
+system.cpu.l2cache.overall_miss_latency 16531500 # number of overall miss cycles
+system.cpu.l2cache.overall_miss_rate 0.997921 # miss rate for overall accesses
+system.cpu.l2cache.overall_misses 480 # number of overall misses
system.cpu.l2cache.overall_mshr_hits 0 # number of overall MSHR hits
-system.cpu.l2cache.overall_mshr_miss_latency 14961500 # number of overall MSHR miss cycles
-system.cpu.l2cache.overall_mshr_miss_rate 0.997917 # mshr miss rate for overall accesses
-system.cpu.l2cache.overall_mshr_misses 479 # number of overall MSHR misses
+system.cpu.l2cache.overall_mshr_miss_latency 15012000 # number of overall MSHR miss cycles
+system.cpu.l2cache.overall_mshr_miss_rate 0.997921 # mshr miss rate for overall accesses
+system.cpu.l2cache.overall_mshr_misses 480 # number of overall MSHR misses
system.cpu.l2cache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles
system.cpu.l2cache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses
system.cpu.l2cache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache
@@ -415,30 +415,30 @@ system.cpu.l2cache.prefetcher.num_hwpf_removed_MSHR_hit 0
system.cpu.l2cache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page
system.cpu.l2cache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time
system.cpu.l2cache.replacements 0 # number of replacements
-system.cpu.l2cache.sampled_refs 392 # Sample count of references to valid blocks.
+system.cpu.l2cache.sampled_refs 393 # Sample count of references to valid blocks.
system.cpu.l2cache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions
-system.cpu.l2cache.tagsinuse 215.607487 # Cycle average of tags in use
+system.cpu.l2cache.tagsinuse 214.901533 # Cycle average of tags in use
system.cpu.l2cache.total_refs 1 # Total number of references to valid blocks.
system.cpu.l2cache.warmup_cycle 0 # Cycle when the warmup percentage was hit.
system.cpu.l2cache.writebacks 0 # number of writebacks
-system.cpu.numCycles 24784 # number of cpu cycles simulated
-system.cpu.rename.RENAME:BlockCycles 319 # Number of cycles rename is blocking
-system.cpu.rename.RENAME:CommittedMaps 4537 # Number of HB maps that are committed
-system.cpu.rename.RENAME:IQFullEvents 8 # Number of times rename has blocked due to IQ full
-system.cpu.rename.RENAME:IdleCycles 8963 # Number of cycles rename is idle
-system.cpu.rename.RENAME:LSQFullEvents 264 # Number of times rename has blocked due to LSQ full
-system.cpu.rename.RENAME:RenameLookups 14577 # Number of register rename lookups that rename has made
-system.cpu.rename.RENAME:RenamedInsts 11538 # Number of instructions processed by rename
-system.cpu.rename.RENAME:RenamedOperands 8602 # Number of destination operands rename has renamed
-system.cpu.rename.RENAME:RunCycles 2108 # Number of cycles rename is running
-system.cpu.rename.RENAME:SquashCycles 855 # Number of cycles rename is squashing
-system.cpu.rename.RENAME:UnblockCycles 294 # Number of cycles rename is unblocking
-system.cpu.rename.RENAME:UndoneMaps 4065 # Number of HB maps that are undone due to squashing
+system.cpu.numCycles 24950 # number of cpu cycles simulated
+system.cpu.rename.RENAME:BlockCycles 371 # Number of cycles rename is blocking
+system.cpu.rename.RENAME:CommittedMaps 4583 # Number of HB maps that are committed
+system.cpu.rename.RENAME:IQFullEvents 6 # Number of times rename has blocked due to IQ full
+system.cpu.rename.RENAME:IdleCycles 9094 # Number of cycles rename is idle
+system.cpu.rename.RENAME:LSQFullEvents 226 # Number of times rename has blocked due to LSQ full
+system.cpu.rename.RENAME:RenameLookups 15058 # Number of register rename lookups that rename has made
+system.cpu.rename.RENAME:RenamedInsts 11988 # Number of instructions processed by rename
+system.cpu.rename.RENAME:RenamedOperands 8902 # Number of destination operands rename has renamed
+system.cpu.rename.RENAME:RunCycles 2263 # Number of cycles rename is running
+system.cpu.rename.RENAME:SquashCycles 897 # Number of cycles rename is squashing
+system.cpu.rename.RENAME:UnblockCycles 258 # Number of cycles rename is unblocking
+system.cpu.rename.RENAME:UndoneMaps 4319 # Number of HB maps that are undone due to squashing
system.cpu.rename.RENAME:serializeStallCycles 431 # count of cycles rename stalled for serializing inst
system.cpu.rename.RENAME:serializingInsts 26 # count of serializing insts renamed
-system.cpu.rename.RENAME:skidInsts 719 # count of insts added to the skid buffer
+system.cpu.rename.RENAME:skidInsts 663 # count of insts added to the skid buffer
system.cpu.rename.RENAME:tempSerializingInsts 20 # count of temporary serializing insts renamed
-system.cpu.timesIdled 242 # Number of times that the entire CPU went into an idle state and unscheduled itself
+system.cpu.timesIdled 237 # Number of times that the entire CPU went into an idle state and unscheduled itself
system.cpu.workload.PROG:num_syscalls 17 # Number of system calls
---------- End Simulation Statistics ----------
diff --git a/tests/quick/00.hello/ref/alpha/linux/o3-timing/stdout b/tests/quick/00.hello/ref/alpha/linux/o3-timing/stdout
index 2fe8c587c..b502697af 100755
--- a/tests/quick/00.hello/ref/alpha/linux/o3-timing/stdout
+++ b/tests/quick/00.hello/ref/alpha/linux/o3-timing/stdout
@@ -5,13 +5,13 @@ The Regents of The University of Michigan
All Rights Reserved
-M5 compiled Nov 5 2008 18:30:06
-M5 revision 5719:c9056088f1516d097f7e73673f990175ad238d69
-M5 commit date Wed Nov 05 16:19:17 2008 -0500
-M5 started Nov 5 2008 19:13:15
+M5 compiled Dec 4 2008 21:21:43
+M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652
+M5 commit date Thu Dec 04 18:04:32 2008 -0500
+M5 started Dec 4 2008 21:21:44
M5 executing on zizzer
command line: build/ALPHA_SE/m5.fast -d build/ALPHA_SE/tests/fast/quick/00.hello/alpha/linux/o3-timing -re --stdout-file stdout --stderr-file stderr tests/run.py quick/00.hello/alpha/linux/o3-timing
Global frequency set at 1000000000000 ticks per second
info: Entering event queue @ 0. Starting simulation...
Hello world!
-Exiting @ tick 12391500 because target called exit()
+Exiting @ tick 12474500 because target called exit()
diff --git a/tests/quick/00.hello/ref/alpha/linux/simple-atomic/m5stats.txt b/tests/quick/00.hello/ref/alpha/linux/simple-atomic/m5stats.txt
index 15e8bed82..712fc898c 100644
--- a/tests/quick/00.hello/ref/alpha/linux/simple-atomic/m5stats.txt
+++ b/tests/quick/00.hello/ref/alpha/linux/simple-atomic/m5stats.txt
@@ -1,34 +1,34 @@
---------- Begin Simulation Statistics ----------
-host_inst_rate 598748 # Simulator instruction rate (inst/s)
-host_mem_usage 190820 # Number of bytes of host memory used
-host_seconds 0.01 # Real time elapsed on the host
-host_tick_rate 294136747 # Simulator tick rate (ticks/s)
+host_inst_rate 6758 # Simulator instruction rate (inst/s)
+host_mem_usage 190848 # Number of bytes of host memory used
+host_seconds 0.95 # Real time elapsed on the host
+host_tick_rate 3391912 # Simulator tick rate (ticks/s)
sim_freq 1000000000000 # Frequency of simulated ticks
-sim_insts 6315 # Number of instructions simulated
+sim_insts 6404 # Number of instructions simulated
sim_seconds 0.000003 # Number of seconds simulated
-sim_ticks 3170500 # Number of ticks simulated
-system.cpu.dtb.accesses 2040 # DTB accesses
+sim_ticks 3215000 # Number of ticks simulated
+system.cpu.dtb.accesses 2060 # DTB accesses
system.cpu.dtb.acv 0 # DTB access violations
-system.cpu.dtb.hits 2030 # DTB hits
+system.cpu.dtb.hits 2050 # DTB hits
system.cpu.dtb.misses 10 # DTB misses
-system.cpu.dtb.read_accesses 1175 # DTB read accesses
+system.cpu.dtb.read_accesses 1192 # DTB read accesses
system.cpu.dtb.read_acv 0 # DTB read access violations
-system.cpu.dtb.read_hits 1168 # DTB read hits
+system.cpu.dtb.read_hits 1185 # DTB read hits
system.cpu.dtb.read_misses 7 # DTB read misses
-system.cpu.dtb.write_accesses 865 # DTB write accesses
+system.cpu.dtb.write_accesses 868 # DTB write accesses
system.cpu.dtb.write_acv 0 # DTB write access violations
-system.cpu.dtb.write_hits 862 # DTB write hits
+system.cpu.dtb.write_hits 865 # DTB write hits
system.cpu.dtb.write_misses 3 # DTB write misses
system.cpu.idle_fraction 0 # Percentage of idle cycles
-system.cpu.itb.accesses 6342 # ITB accesses
+system.cpu.itb.accesses 6431 # ITB accesses
system.cpu.itb.acv 0 # ITB acv
-system.cpu.itb.hits 6325 # ITB hits
+system.cpu.itb.hits 6414 # ITB hits
system.cpu.itb.misses 17 # ITB misses
system.cpu.not_idle_fraction 1 # Percentage of non-idle cycles
-system.cpu.numCycles 6342 # number of cpu cycles simulated
-system.cpu.num_insts 6315 # Number of instructions executed
-system.cpu.num_refs 2040 # Number of memory references
+system.cpu.numCycles 6431 # number of cpu cycles simulated
+system.cpu.num_insts 6404 # Number of instructions executed
+system.cpu.num_refs 2060 # Number of memory references
system.cpu.workload.PROG:num_syscalls 17 # Number of system calls
---------- End Simulation Statistics ----------
diff --git a/tests/quick/00.hello/ref/alpha/linux/simple-atomic/stdout b/tests/quick/00.hello/ref/alpha/linux/simple-atomic/stdout
index b3d91abb5..9a255c446 100755
--- a/tests/quick/00.hello/ref/alpha/linux/simple-atomic/stdout
+++ b/tests/quick/00.hello/ref/alpha/linux/simple-atomic/stdout
@@ -5,13 +5,13 @@ The Regents of The University of Michigan
All Rights Reserved
-M5 compiled Nov 5 2008 18:30:06
-M5 revision 5719:c9056088f1516d097f7e73673f990175ad238d69
-M5 commit date Wed Nov 05 16:19:17 2008 -0500
-M5 started Nov 5 2008 21:40:14
+M5 compiled Dec 4 2008 21:21:43
+M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652
+M5 commit date Thu Dec 04 18:04:32 2008 -0500
+M5 started Dec 4 2008 21:21:44
M5 executing on zizzer
command line: build/ALPHA_SE/m5.fast -d build/ALPHA_SE/tests/fast/quick/00.hello/alpha/linux/simple-atomic -re --stdout-file stdout --stderr-file stderr tests/run.py quick/00.hello/alpha/linux/simple-atomic
Global frequency set at 1000000000000 ticks per second
info: Entering event queue @ 0. Starting simulation...
Hello world!
-Exiting @ tick 3170500 because target called exit()
+Exiting @ tick 3215000 because target called exit()
diff --git a/tests/quick/00.hello/ref/alpha/linux/simple-timing/m5stats.txt b/tests/quick/00.hello/ref/alpha/linux/simple-timing/m5stats.txt
index a3039b303..f97f1c530 100644
--- a/tests/quick/00.hello/ref/alpha/linux/simple-timing/m5stats.txt
+++ b/tests/quick/00.hello/ref/alpha/linux/simple-timing/m5stats.txt
@@ -1,67 +1,67 @@
---------- Begin Simulation Statistics ----------
-host_inst_rate 472326 # Simulator instruction rate (inst/s)
-host_mem_usage 198180 # Number of bytes of host memory used
-host_seconds 0.01 # Real time elapsed on the host
-host_tick_rate 2462369543 # Simulator tick rate (ticks/s)
+host_inst_rate 68165 # Simulator instruction rate (inst/s)
+host_mem_usage 198212 # Number of bytes of host memory used
+host_seconds 0.09 # Real time elapsed on the host
+host_tick_rate 358563073 # Simulator tick rate (ticks/s)
sim_freq 1000000000000 # Frequency of simulated ticks
-sim_insts 6315 # Number of instructions simulated
+sim_insts 6404 # Number of instructions simulated
sim_seconds 0.000034 # Number of seconds simulated
-sim_ticks 33503000 # Number of ticks simulated
-system.cpu.dcache.ReadReq_accesses 1168 # number of ReadReq accesses(hits+misses)
+sim_ticks 33777000 # Number of ticks simulated
+system.cpu.dcache.ReadReq_accesses 1185 # number of ReadReq accesses(hits+misses)
system.cpu.dcache.ReadReq_avg_miss_latency 56000 # average ReadReq miss latency
system.cpu.dcache.ReadReq_avg_mshr_miss_latency 53000 # average ReadReq mshr miss latency
-system.cpu.dcache.ReadReq_hits 1076 # number of ReadReq hits
-system.cpu.dcache.ReadReq_miss_latency 5152000 # number of ReadReq miss cycles
-system.cpu.dcache.ReadReq_miss_rate 0.078767 # miss rate for ReadReq accesses
-system.cpu.dcache.ReadReq_misses 92 # number of ReadReq misses
-system.cpu.dcache.ReadReq_mshr_miss_latency 4876000 # number of ReadReq MSHR miss cycles
-system.cpu.dcache.ReadReq_mshr_miss_rate 0.078767 # mshr miss rate for ReadReq accesses
-system.cpu.dcache.ReadReq_mshr_misses 92 # number of ReadReq MSHR misses
-system.cpu.dcache.WriteReq_accesses 862 # number of WriteReq accesses(hits+misses)
+system.cpu.dcache.ReadReq_hits 1090 # number of ReadReq hits
+system.cpu.dcache.ReadReq_miss_latency 5320000 # number of ReadReq miss cycles
+system.cpu.dcache.ReadReq_miss_rate 0.080169 # miss rate for ReadReq accesses
+system.cpu.dcache.ReadReq_misses 95 # number of ReadReq misses
+system.cpu.dcache.ReadReq_mshr_miss_latency 5035000 # number of ReadReq MSHR miss cycles
+system.cpu.dcache.ReadReq_mshr_miss_rate 0.080169 # mshr miss rate for ReadReq accesses
+system.cpu.dcache.ReadReq_mshr_misses 95 # number of ReadReq MSHR misses
+system.cpu.dcache.WriteReq_accesses 865 # number of WriteReq accesses(hits+misses)
system.cpu.dcache.WriteReq_avg_miss_latency 56000 # average WriteReq miss latency
system.cpu.dcache.WriteReq_avg_mshr_miss_latency 53000 # average WriteReq mshr miss latency
-system.cpu.dcache.WriteReq_hits 775 # number of WriteReq hits
+system.cpu.dcache.WriteReq_hits 778 # number of WriteReq hits
system.cpu.dcache.WriteReq_miss_latency 4872000 # number of WriteReq miss cycles
-system.cpu.dcache.WriteReq_miss_rate 0.100928 # miss rate for WriteReq accesses
+system.cpu.dcache.WriteReq_miss_rate 0.100578 # miss rate for WriteReq accesses
system.cpu.dcache.WriteReq_misses 87 # number of WriteReq misses
system.cpu.dcache.WriteReq_mshr_miss_latency 4611000 # number of WriteReq MSHR miss cycles
-system.cpu.dcache.WriteReq_mshr_miss_rate 0.100928 # mshr miss rate for WriteReq accesses
+system.cpu.dcache.WriteReq_mshr_miss_rate 0.100578 # mshr miss rate for WriteReq accesses
system.cpu.dcache.WriteReq_mshr_misses 87 # number of WriteReq MSHR misses
system.cpu.dcache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked
system.cpu.dcache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked
-system.cpu.dcache.avg_refs 11.303030 # Average number of references to valid blocks.
+system.cpu.dcache.avg_refs 11.202381 # Average number of references to valid blocks.
system.cpu.dcache.blocked_no_mshrs 0 # number of cycles access was blocked
system.cpu.dcache.blocked_no_targets 0 # number of cycles access was blocked
system.cpu.dcache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked
system.cpu.dcache.blocked_cycles_no_targets 0 # number of cycles access was blocked
system.cpu.dcache.cache_copies 0 # number of cache copies performed
-system.cpu.dcache.demand_accesses 2030 # number of demand (read+write) accesses
+system.cpu.dcache.demand_accesses 2050 # number of demand (read+write) accesses
system.cpu.dcache.demand_avg_miss_latency 56000 # average overall miss latency
system.cpu.dcache.demand_avg_mshr_miss_latency 53000 # average overall mshr miss latency
-system.cpu.dcache.demand_hits 1851 # number of demand (read+write) hits
-system.cpu.dcache.demand_miss_latency 10024000 # number of demand (read+write) miss cycles
-system.cpu.dcache.demand_miss_rate 0.088177 # miss rate for demand accesses
-system.cpu.dcache.demand_misses 179 # number of demand (read+write) misses
+system.cpu.dcache.demand_hits 1868 # number of demand (read+write) hits
+system.cpu.dcache.demand_miss_latency 10192000 # number of demand (read+write) miss cycles
+system.cpu.dcache.demand_miss_rate 0.088780 # miss rate for demand accesses
+system.cpu.dcache.demand_misses 182 # number of demand (read+write) misses
system.cpu.dcache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits
-system.cpu.dcache.demand_mshr_miss_latency 9487000 # number of demand (read+write) MSHR miss cycles
-system.cpu.dcache.demand_mshr_miss_rate 0.088177 # mshr miss rate for demand accesses
-system.cpu.dcache.demand_mshr_misses 179 # number of demand (read+write) MSHR misses
+system.cpu.dcache.demand_mshr_miss_latency 9646000 # number of demand (read+write) MSHR miss cycles
+system.cpu.dcache.demand_mshr_miss_rate 0.088780 # mshr miss rate for demand accesses
+system.cpu.dcache.demand_mshr_misses 182 # number of demand (read+write) MSHR misses
system.cpu.dcache.fast_writes 0 # number of fast writes performed
system.cpu.dcache.mshr_cap_events 0 # number of times MSHR cap was activated
system.cpu.dcache.no_allocate_misses 0 # Number of misses that were no-allocate
-system.cpu.dcache.overall_accesses 2030 # number of overall (read+write) accesses
+system.cpu.dcache.overall_accesses 2050 # number of overall (read+write) accesses
system.cpu.dcache.overall_avg_miss_latency 56000 # average overall miss latency
system.cpu.dcache.overall_avg_mshr_miss_latency 53000 # average overall mshr miss latency
system.cpu.dcache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency
-system.cpu.dcache.overall_hits 1851 # number of overall hits
-system.cpu.dcache.overall_miss_latency 10024000 # number of overall miss cycles
-system.cpu.dcache.overall_miss_rate 0.088177 # miss rate for overall accesses
-system.cpu.dcache.overall_misses 179 # number of overall misses
+system.cpu.dcache.overall_hits 1868 # number of overall hits
+system.cpu.dcache.overall_miss_latency 10192000 # number of overall miss cycles
+system.cpu.dcache.overall_miss_rate 0.088780 # miss rate for overall accesses
+system.cpu.dcache.overall_misses 182 # number of overall misses
system.cpu.dcache.overall_mshr_hits 0 # number of overall MSHR hits
-system.cpu.dcache.overall_mshr_miss_latency 9487000 # number of overall MSHR miss cycles
-system.cpu.dcache.overall_mshr_miss_rate 0.088177 # mshr miss rate for overall accesses
-system.cpu.dcache.overall_mshr_misses 179 # number of overall MSHR misses
+system.cpu.dcache.overall_mshr_miss_latency 9646000 # number of overall MSHR miss cycles
+system.cpu.dcache.overall_mshr_miss_rate 0.088780 # mshr miss rate for overall accesses
+system.cpu.dcache.overall_mshr_misses 182 # number of overall MSHR misses
system.cpu.dcache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles
system.cpu.dcache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses
system.cpu.dcache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache
@@ -74,67 +74,67 @@ system.cpu.dcache.prefetcher.num_hwpf_removed_MSHR_hit 0
system.cpu.dcache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page
system.cpu.dcache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time
system.cpu.dcache.replacements 0 # number of replacements
-system.cpu.dcache.sampled_refs 165 # Sample count of references to valid blocks.
+system.cpu.dcache.sampled_refs 168 # Sample count of references to valid blocks.
system.cpu.dcache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions
-system.cpu.dcache.tagsinuse 102.087516 # Cycle average of tags in use
-system.cpu.dcache.total_refs 1865 # Total number of references to valid blocks.
+system.cpu.dcache.tagsinuse 104.111261 # Cycle average of tags in use
+system.cpu.dcache.total_refs 1882 # Total number of references to valid blocks.
system.cpu.dcache.warmup_cycle 0 # Cycle when the warmup percentage was hit.
system.cpu.dcache.writebacks 0 # number of writebacks
-system.cpu.dtb.accesses 2040 # DTB accesses
+system.cpu.dtb.accesses 2060 # DTB accesses
system.cpu.dtb.acv 0 # DTB access violations
-system.cpu.dtb.hits 2030 # DTB hits
+system.cpu.dtb.hits 2050 # DTB hits
system.cpu.dtb.misses 10 # DTB misses
-system.cpu.dtb.read_accesses 1175 # DTB read accesses
+system.cpu.dtb.read_accesses 1192 # DTB read accesses
system.cpu.dtb.read_acv 0 # DTB read access violations
-system.cpu.dtb.read_hits 1168 # DTB read hits
+system.cpu.dtb.read_hits 1185 # DTB read hits
system.cpu.dtb.read_misses 7 # DTB read misses
-system.cpu.dtb.write_accesses 865 # DTB write accesses
+system.cpu.dtb.write_accesses 868 # DTB write accesses
system.cpu.dtb.write_acv 0 # DTB write access violations
-system.cpu.dtb.write_hits 862 # DTB write hits
+system.cpu.dtb.write_hits 865 # DTB write hits
system.cpu.dtb.write_misses 3 # DTB write misses
-system.cpu.icache.ReadReq_accesses 6326 # number of ReadReq accesses(hits+misses)
+system.cpu.icache.ReadReq_accesses 6415 # number of ReadReq accesses(hits+misses)
system.cpu.icache.ReadReq_avg_miss_latency 55849.462366 # average ReadReq miss latency
system.cpu.icache.ReadReq_avg_mshr_miss_latency 52849.462366 # average ReadReq mshr miss latency
-system.cpu.icache.ReadReq_hits 6047 # number of ReadReq hits
+system.cpu.icache.ReadReq_hits 6136 # number of ReadReq hits
system.cpu.icache.ReadReq_miss_latency 15582000 # number of ReadReq miss cycles
-system.cpu.icache.ReadReq_miss_rate 0.044104 # miss rate for ReadReq accesses
+system.cpu.icache.ReadReq_miss_rate 0.043492 # miss rate for ReadReq accesses
system.cpu.icache.ReadReq_misses 279 # number of ReadReq misses
system.cpu.icache.ReadReq_mshr_miss_latency 14745000 # number of ReadReq MSHR miss cycles
-system.cpu.icache.ReadReq_mshr_miss_rate 0.044104 # mshr miss rate for ReadReq accesses
+system.cpu.icache.ReadReq_mshr_miss_rate 0.043492 # mshr miss rate for ReadReq accesses
system.cpu.icache.ReadReq_mshr_misses 279 # number of ReadReq MSHR misses
system.cpu.icache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked
system.cpu.icache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked
-system.cpu.icache.avg_refs 21.673835 # Average number of references to valid blocks.
+system.cpu.icache.avg_refs 21.992832 # Average number of references to valid blocks.
system.cpu.icache.blocked_no_mshrs 0 # number of cycles access was blocked
system.cpu.icache.blocked_no_targets 0 # number of cycles access was blocked
system.cpu.icache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked
system.cpu.icache.blocked_cycles_no_targets 0 # number of cycles access was blocked
system.cpu.icache.cache_copies 0 # number of cache copies performed
-system.cpu.icache.demand_accesses 6326 # number of demand (read+write) accesses
+system.cpu.icache.demand_accesses 6415 # number of demand (read+write) accesses
system.cpu.icache.demand_avg_miss_latency 55849.462366 # average overall miss latency
system.cpu.icache.demand_avg_mshr_miss_latency 52849.462366 # average overall mshr miss latency
-system.cpu.icache.demand_hits 6047 # number of demand (read+write) hits
+system.cpu.icache.demand_hits 6136 # number of demand (read+write) hits
system.cpu.icache.demand_miss_latency 15582000 # number of demand (read+write) miss cycles
-system.cpu.icache.demand_miss_rate 0.044104 # miss rate for demand accesses
+system.cpu.icache.demand_miss_rate 0.043492 # miss rate for demand accesses
system.cpu.icache.demand_misses 279 # number of demand (read+write) misses
system.cpu.icache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits
system.cpu.icache.demand_mshr_miss_latency 14745000 # number of demand (read+write) MSHR miss cycles
-system.cpu.icache.demand_mshr_miss_rate 0.044104 # mshr miss rate for demand accesses
+system.cpu.icache.demand_mshr_miss_rate 0.043492 # mshr miss rate for demand accesses
system.cpu.icache.demand_mshr_misses 279 # number of demand (read+write) MSHR misses
system.cpu.icache.fast_writes 0 # number of fast writes performed
system.cpu.icache.mshr_cap_events 0 # number of times MSHR cap was activated
system.cpu.icache.no_allocate_misses 0 # Number of misses that were no-allocate
-system.cpu.icache.overall_accesses 6326 # number of overall (read+write) accesses
+system.cpu.icache.overall_accesses 6415 # number of overall (read+write) accesses
system.cpu.icache.overall_avg_miss_latency 55849.462366 # average overall miss latency
system.cpu.icache.overall_avg_mshr_miss_latency 52849.462366 # average overall mshr miss latency
system.cpu.icache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency
-system.cpu.icache.overall_hits 6047 # number of overall hits
+system.cpu.icache.overall_hits 6136 # number of overall hits
system.cpu.icache.overall_miss_latency 15582000 # number of overall miss cycles
-system.cpu.icache.overall_miss_rate 0.044104 # miss rate for overall accesses
+system.cpu.icache.overall_miss_rate 0.043492 # miss rate for overall accesses
system.cpu.icache.overall_misses 279 # number of overall misses
system.cpu.icache.overall_mshr_hits 0 # number of overall MSHR hits
system.cpu.icache.overall_mshr_miss_latency 14745000 # number of overall MSHR miss cycles
-system.cpu.icache.overall_mshr_miss_rate 0.044104 # mshr miss rate for overall accesses
+system.cpu.icache.overall_mshr_miss_rate 0.043492 # mshr miss rate for overall accesses
system.cpu.icache.overall_mshr_misses 279 # number of overall MSHR misses
system.cpu.icache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles
system.cpu.icache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses
@@ -150,14 +150,14 @@ system.cpu.icache.prefetcher.num_hwpf_squashed_from_miss 0
system.cpu.icache.replacements 0 # number of replacements
system.cpu.icache.sampled_refs 279 # Sample count of references to valid blocks.
system.cpu.icache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions
-system.cpu.icache.tagsinuse 129.637082 # Cycle average of tags in use
-system.cpu.icache.total_refs 6047 # Total number of references to valid blocks.
+system.cpu.icache.tagsinuse 128.649737 # Cycle average of tags in use
+system.cpu.icache.total_refs 6136 # Total number of references to valid blocks.
system.cpu.icache.warmup_cycle 0 # Cycle when the warmup percentage was hit.
system.cpu.icache.writebacks 0 # number of writebacks
system.cpu.idle_fraction 0 # Percentage of idle cycles
-system.cpu.itb.accesses 6343 # ITB accesses
+system.cpu.itb.accesses 6432 # ITB accesses
system.cpu.itb.acv 0 # ITB acv
-system.cpu.itb.hits 6326 # ITB hits
+system.cpu.itb.hits 6415 # ITB hits
system.cpu.itb.misses 17 # ITB misses
system.cpu.l2cache.ReadExReq_accesses 73 # number of ReadExReq accesses(hits+misses)
system.cpu.l2cache.ReadExReq_avg_miss_latency 52000 # average ReadExReq miss latency
@@ -168,16 +168,16 @@ system.cpu.l2cache.ReadExReq_misses 73 # nu
system.cpu.l2cache.ReadExReq_mshr_miss_latency 2920000 # number of ReadExReq MSHR miss cycles
system.cpu.l2cache.ReadExReq_mshr_miss_rate 1 # mshr miss rate for ReadExReq accesses
system.cpu.l2cache.ReadExReq_mshr_misses 73 # number of ReadExReq MSHR misses
-system.cpu.l2cache.ReadReq_accesses 371 # number of ReadReq accesses(hits+misses)
+system.cpu.l2cache.ReadReq_accesses 374 # number of ReadReq accesses(hits+misses)
system.cpu.l2cache.ReadReq_avg_miss_latency 52000 # average ReadReq miss latency
system.cpu.l2cache.ReadReq_avg_mshr_miss_latency 40000 # average ReadReq mshr miss latency
system.cpu.l2cache.ReadReq_hits 1 # number of ReadReq hits
-system.cpu.l2cache.ReadReq_miss_latency 19240000 # number of ReadReq miss cycles
-system.cpu.l2cache.ReadReq_miss_rate 0.997305 # miss rate for ReadReq accesses
-system.cpu.l2cache.ReadReq_misses 370 # number of ReadReq misses
-system.cpu.l2cache.ReadReq_mshr_miss_latency 14800000 # number of ReadReq MSHR miss cycles
-system.cpu.l2cache.ReadReq_mshr_miss_rate 0.997305 # mshr miss rate for ReadReq accesses
-system.cpu.l2cache.ReadReq_mshr_misses 370 # number of ReadReq MSHR misses
+system.cpu.l2cache.ReadReq_miss_latency 19396000 # number of ReadReq miss cycles
+system.cpu.l2cache.ReadReq_miss_rate 0.997326 # miss rate for ReadReq accesses
+system.cpu.l2cache.ReadReq_misses 373 # number of ReadReq misses
+system.cpu.l2cache.ReadReq_mshr_miss_latency 14920000 # number of ReadReq MSHR miss cycles
+system.cpu.l2cache.ReadReq_mshr_miss_rate 0.997326 # mshr miss rate for ReadReq accesses
+system.cpu.l2cache.ReadReq_mshr_misses 373 # number of ReadReq MSHR misses
system.cpu.l2cache.UpgradeReq_accesses 14 # number of UpgradeReq accesses(hits+misses)
system.cpu.l2cache.UpgradeReq_avg_miss_latency 52000 # average UpgradeReq miss latency
system.cpu.l2cache.UpgradeReq_avg_mshr_miss_latency 40000 # average UpgradeReq mshr miss latency
@@ -189,38 +189,38 @@ system.cpu.l2cache.UpgradeReq_mshr_miss_rate 1
system.cpu.l2cache.UpgradeReq_mshr_misses 14 # number of UpgradeReq MSHR misses
system.cpu.l2cache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked
system.cpu.l2cache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked
-system.cpu.l2cache.avg_refs 0.002809 # Average number of references to valid blocks.
+system.cpu.l2cache.avg_refs 0.002786 # Average number of references to valid blocks.
system.cpu.l2cache.blocked_no_mshrs 0 # number of cycles access was blocked
system.cpu.l2cache.blocked_no_targets 0 # number of cycles access was blocked
system.cpu.l2cache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked
system.cpu.l2cache.blocked_cycles_no_targets 0 # number of cycles access was blocked
system.cpu.l2cache.cache_copies 0 # number of cache copies performed
-system.cpu.l2cache.demand_accesses 444 # number of demand (read+write) accesses
+system.cpu.l2cache.demand_accesses 447 # number of demand (read+write) accesses
system.cpu.l2cache.demand_avg_miss_latency 52000 # average overall miss latency
system.cpu.l2cache.demand_avg_mshr_miss_latency 40000 # average overall mshr miss latency
system.cpu.l2cache.demand_hits 1 # number of demand (read+write) hits
-system.cpu.l2cache.demand_miss_latency 23036000 # number of demand (read+write) miss cycles
-system.cpu.l2cache.demand_miss_rate 0.997748 # miss rate for demand accesses
-system.cpu.l2cache.demand_misses 443 # number of demand (read+write) misses
+system.cpu.l2cache.demand_miss_latency 23192000 # number of demand (read+write) miss cycles
+system.cpu.l2cache.demand_miss_rate 0.997763 # miss rate for demand accesses
+system.cpu.l2cache.demand_misses 446 # number of demand (read+write) misses
system.cpu.l2cache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits
-system.cpu.l2cache.demand_mshr_miss_latency 17720000 # number of demand (read+write) MSHR miss cycles
-system.cpu.l2cache.demand_mshr_miss_rate 0.997748 # mshr miss rate for demand accesses
-system.cpu.l2cache.demand_mshr_misses 443 # number of demand (read+write) MSHR misses
+system.cpu.l2cache.demand_mshr_miss_latency 17840000 # number of demand (read+write) MSHR miss cycles
+system.cpu.l2cache.demand_mshr_miss_rate 0.997763 # mshr miss rate for demand accesses
+system.cpu.l2cache.demand_mshr_misses 446 # number of demand (read+write) MSHR misses
system.cpu.l2cache.fast_writes 0 # number of fast writes performed
system.cpu.l2cache.mshr_cap_events 0 # number of times MSHR cap was activated
system.cpu.l2cache.no_allocate_misses 0 # Number of misses that were no-allocate
-system.cpu.l2cache.overall_accesses 444 # number of overall (read+write) accesses
+system.cpu.l2cache.overall_accesses 447 # number of overall (read+write) accesses
system.cpu.l2cache.overall_avg_miss_latency 52000 # average overall miss latency
system.cpu.l2cache.overall_avg_mshr_miss_latency 40000 # average overall mshr miss latency
system.cpu.l2cache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency
system.cpu.l2cache.overall_hits 1 # number of overall hits
-system.cpu.l2cache.overall_miss_latency 23036000 # number of overall miss cycles
-system.cpu.l2cache.overall_miss_rate 0.997748 # miss rate for overall accesses
-system.cpu.l2cache.overall_misses 443 # number of overall misses
+system.cpu.l2cache.overall_miss_latency 23192000 # number of overall miss cycles
+system.cpu.l2cache.overall_miss_rate 0.997763 # miss rate for overall accesses
+system.cpu.l2cache.overall_misses 446 # number of overall misses
system.cpu.l2cache.overall_mshr_hits 0 # number of overall MSHR hits
-system.cpu.l2cache.overall_mshr_miss_latency 17720000 # number of overall MSHR miss cycles
-system.cpu.l2cache.overall_mshr_miss_rate 0.997748 # mshr miss rate for overall accesses
-system.cpu.l2cache.overall_mshr_misses 443 # number of overall MSHR misses
+system.cpu.l2cache.overall_mshr_miss_latency 17840000 # number of overall MSHR miss cycles
+system.cpu.l2cache.overall_mshr_miss_rate 0.997763 # mshr miss rate for overall accesses
+system.cpu.l2cache.overall_mshr_misses 446 # number of overall MSHR misses
system.cpu.l2cache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles
system.cpu.l2cache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses
system.cpu.l2cache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache
@@ -233,16 +233,16 @@ system.cpu.l2cache.prefetcher.num_hwpf_removed_MSHR_hit 0
system.cpu.l2cache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page
system.cpu.l2cache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time
system.cpu.l2cache.replacements 0 # number of replacements
-system.cpu.l2cache.sampled_refs 356 # Sample count of references to valid blocks.
+system.cpu.l2cache.sampled_refs 359 # Sample count of references to valid blocks.
system.cpu.l2cache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions
-system.cpu.l2cache.tagsinuse 178.910312 # Cycle average of tags in use
+system.cpu.l2cache.tagsinuse 179.928092 # Cycle average of tags in use
system.cpu.l2cache.total_refs 1 # Total number of references to valid blocks.
system.cpu.l2cache.warmup_cycle 0 # Cycle when the warmup percentage was hit.
system.cpu.l2cache.writebacks 0 # number of writebacks
system.cpu.not_idle_fraction 1 # Percentage of non-idle cycles
-system.cpu.numCycles 67006 # number of cpu cycles simulated
-system.cpu.num_insts 6315 # Number of instructions executed
-system.cpu.num_refs 2040 # Number of memory references
+system.cpu.numCycles 67554 # number of cpu cycles simulated
+system.cpu.num_insts 6404 # Number of instructions executed
+system.cpu.num_refs 2060 # Number of memory references
system.cpu.workload.PROG:num_syscalls 17 # Number of system calls
---------- End Simulation Statistics ----------
diff --git a/tests/quick/00.hello/ref/alpha/linux/simple-timing/stdout b/tests/quick/00.hello/ref/alpha/linux/simple-timing/stdout
index c97b9deb2..c3d847e3f 100755
--- a/tests/quick/00.hello/ref/alpha/linux/simple-timing/stdout
+++ b/tests/quick/00.hello/ref/alpha/linux/simple-timing/stdout
@@ -5,13 +5,13 @@ The Regents of The University of Michigan
All Rights Reserved
-M5 compiled Nov 5 2008 18:30:06
-M5 revision 5719:c9056088f1516d097f7e73673f990175ad238d69
-M5 commit date Wed Nov 05 16:19:17 2008 -0500
-M5 started Nov 5 2008 19:13:17
+M5 compiled Dec 4 2008 21:21:43
+M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652
+M5 commit date Thu Dec 04 18:04:32 2008 -0500
+M5 started Dec 4 2008 21:21:46
M5 executing on zizzer
command line: build/ALPHA_SE/m5.fast -d build/ALPHA_SE/tests/fast/quick/00.hello/alpha/linux/simple-timing -re --stdout-file stdout --stderr-file stderr tests/run.py quick/00.hello/alpha/linux/simple-timing
Global frequency set at 1000000000000 ticks per second
info: Entering event queue @ 0. Starting simulation...
Hello world!
-Exiting @ tick 33503000 because target called exit()
+Exiting @ tick 33777000 because target called exit()
diff --git a/tests/quick/00.hello/ref/alpha/tru64/o3-timing/m5stats.txt b/tests/quick/00.hello/ref/alpha/tru64/o3-timing/m5stats.txt
index c3f97c1a9..12af7d1b2 100644
--- a/tests/quick/00.hello/ref/alpha/tru64/o3-timing/m5stats.txt
+++ b/tests/quick/00.hello/ref/alpha/tru64/o3-timing/m5stats.txt
@@ -8,10 +8,10 @@ global.BPredUnit.condIncorrect 209 # Nu
global.BPredUnit.condPredicted 447 # Number of conditional branches predicted
global.BPredUnit.lookups 859 # Number of BP lookups
global.BPredUnit.usedRAS 165 # Number of times the RAS was used to get a target.
-host_inst_rate 5854 # Simulator instruction rate (inst/s)
-host_mem_usage 197984 # Number of bytes of host memory used
-host_seconds 0.41 # Real time elapsed on the host
-host_tick_rate 17609622 # Simulator tick rate (ticks/s)
+host_inst_rate 31288 # Simulator instruction rate (inst/s)
+host_mem_usage 198012 # Number of bytes of host memory used
+host_seconds 0.08 # Real time elapsed on the host
+host_tick_rate 93885607 # Simulator tick rate (ticks/s)
memdepunit.memDep.conflictingLoads 7 # Number of conflicting loads.
memdepunit.memDep.conflictingStores 7 # Number of conflicting stores.
memdepunit.memDep.insertedLoads 738 # Number of loads inserted to the mem dependence unit.
diff --git a/tests/quick/00.hello/ref/alpha/tru64/o3-timing/stdout b/tests/quick/00.hello/ref/alpha/tru64/o3-timing/stdout
index 55e76881d..e4872d461 100755
--- a/tests/quick/00.hello/ref/alpha/tru64/o3-timing/stdout
+++ b/tests/quick/00.hello/ref/alpha/tru64/o3-timing/stdout
@@ -5,10 +5,10 @@ The Regents of The University of Michigan
All Rights Reserved
-M5 compiled Nov 5 2008 18:30:06
-M5 revision 5719:c9056088f1516d097f7e73673f990175ad238d69
-M5 commit date Wed Nov 05 16:19:17 2008 -0500
-M5 started Nov 5 2008 18:32:55
+M5 compiled Dec 4 2008 21:21:43
+M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652
+M5 commit date Thu Dec 04 18:04:32 2008 -0500
+M5 started Dec 4 2008 21:29:52
M5 executing on zizzer
command line: build/ALPHA_SE/m5.fast -d build/ALPHA_SE/tests/fast/quick/00.hello/alpha/tru64/o3-timing -re --stdout-file stdout --stderr-file stderr tests/run.py quick/00.hello/alpha/tru64/o3-timing
Global frequency set at 1000000000000 ticks per second
diff --git a/tests/quick/00.hello/ref/alpha/tru64/simple-atomic/m5stats.txt b/tests/quick/00.hello/ref/alpha/tru64/simple-atomic/m5stats.txt
index 9ae501100..051f6dec4 100644
--- a/tests/quick/00.hello/ref/alpha/tru64/simple-atomic/m5stats.txt
+++ b/tests/quick/00.hello/ref/alpha/tru64/simple-atomic/m5stats.txt
@@ -1,9 +1,9 @@
---------- Begin Simulation Statistics ----------
-host_inst_rate 229372 # Simulator instruction rate (inst/s)
-host_mem_usage 189868 # Number of bytes of host memory used
+host_inst_rate 334328 # Simulator instruction rate (inst/s)
+host_mem_usage 189900 # Number of bytes of host memory used
host_seconds 0.01 # Real time elapsed on the host
-host_tick_rate 113875724 # Simulator tick rate (ticks/s)
+host_tick_rate 162370166 # Simulator tick rate (ticks/s)
sim_freq 1000000000000 # Frequency of simulated ticks
sim_insts 2577 # Number of instructions simulated
sim_seconds 0.000001 # Number of seconds simulated
diff --git a/tests/quick/00.hello/ref/alpha/tru64/simple-atomic/stdout b/tests/quick/00.hello/ref/alpha/tru64/simple-atomic/stdout
index b6b984d4a..55a4a98f7 100755
--- a/tests/quick/00.hello/ref/alpha/tru64/simple-atomic/stdout
+++ b/tests/quick/00.hello/ref/alpha/tru64/simple-atomic/stdout
@@ -5,10 +5,10 @@ The Regents of The University of Michigan
All Rights Reserved
-M5 compiled Nov 5 2008 18:30:06
-M5 revision 5719:c9056088f1516d097f7e73673f990175ad238d69
-M5 commit date Wed Nov 05 16:19:17 2008 -0500
-M5 started Nov 5 2008 19:15:35
+M5 compiled Dec 4 2008 21:21:43
+M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652
+M5 commit date Thu Dec 04 18:04:32 2008 -0500
+M5 started Dec 4 2008 21:24:43
M5 executing on zizzer
command line: build/ALPHA_SE/m5.fast -d build/ALPHA_SE/tests/fast/quick/00.hello/alpha/tru64/simple-atomic -re --stdout-file stdout --stderr-file stderr tests/run.py quick/00.hello/alpha/tru64/simple-atomic
Global frequency set at 1000000000000 ticks per second
diff --git a/tests/quick/00.hello/ref/alpha/tru64/simple-timing/m5stats.txt b/tests/quick/00.hello/ref/alpha/tru64/simple-timing/m5stats.txt
index 5e0dacddf..af7d3609f 100644
--- a/tests/quick/00.hello/ref/alpha/tru64/simple-timing/m5stats.txt
+++ b/tests/quick/00.hello/ref/alpha/tru64/simple-timing/m5stats.txt
@@ -1,9 +1,9 @@
---------- Begin Simulation Statistics ----------
-host_inst_rate 251832 # Simulator instruction rate (inst/s)
-host_mem_usage 197320 # Number of bytes of host memory used
-host_seconds 0.01 # Real time elapsed on the host
-host_tick_rate 1657349995 # Simulator tick rate (ticks/s)
+host_inst_rate 59950 # Simulator instruction rate (inst/s)
+host_mem_usage 197352 # Number of bytes of host memory used
+host_seconds 0.04 # Real time elapsed on the host
+host_tick_rate 402241104 # Simulator tick rate (ticks/s)
sim_freq 1000000000000 # Frequency of simulated ticks
sim_insts 2577 # Number of instructions simulated
sim_seconds 0.000017 # Number of seconds simulated
diff --git a/tests/quick/00.hello/ref/alpha/tru64/simple-timing/stdout b/tests/quick/00.hello/ref/alpha/tru64/simple-timing/stdout
index 5af4e5b77..779993228 100755
--- a/tests/quick/00.hello/ref/alpha/tru64/simple-timing/stdout
+++ b/tests/quick/00.hello/ref/alpha/tru64/simple-timing/stdout
@@ -5,10 +5,10 @@ The Regents of The University of Michigan
All Rights Reserved
-M5 compiled Nov 5 2008 18:30:06
-M5 revision 5719:c9056088f1516d097f7e73673f990175ad238d69
-M5 commit date Wed Nov 05 16:19:17 2008 -0500
-M5 started Nov 5 2008 19:15:17
+M5 compiled Dec 4 2008 21:21:43
+M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652
+M5 commit date Thu Dec 04 18:04:32 2008 -0500
+M5 started Dec 4 2008 21:21:46
M5 executing on zizzer
command line: build/ALPHA_SE/m5.fast -d build/ALPHA_SE/tests/fast/quick/00.hello/alpha/tru64/simple-timing -re --stdout-file stdout --stderr-file stderr tests/run.py quick/00.hello/alpha/tru64/simple-timing
Global frequency set at 1000000000000 ticks per second