diff options
| author | Gabe Black <gblack@eecs.umich.edu> | 2008-12-15 00:47:15 -0800 |
|---|---|---|
| committer | Gabe Black <gblack@eecs.umich.edu> | 2008-12-15 00:47:15 -0800 |
| commit | ab5eeb4b62e14528beaf41d21305dfda075c5133 (patch) | |
| tree | 6eb61187bf87ddb46106179301d354c62ea496b7 /tests/quick | |
| parent | f0d1a209716215e86a2a8f147dc1be5f6e077840 (diff) | |
| download | gem5-ab5eeb4b62e14528beaf41d21305dfda075c5133.tar.xz | |
Update the stats for the fixes to the PCI device class.
Diffstat (limited to 'tests/quick')
17 files changed, 831 insertions, 819 deletions
diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/simout b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/simout index a9bd0ea3f..2e7c9e61b 100755 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/simout +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/simout @@ -5,12 +5,12 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Dec 4 2008 21:30:58 -M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652 -M5 commit date Thu Dec 04 18:04:32 2008 -0500 -M5 started Dec 4 2008 21:37:23 -M5 executing on zizzer -command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-atomic-dual -re --stdout-file stdout --stderr-file stderr tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-atomic-dual +M5 compiled Dec 14 2008 21:47:07 +M5 revision 5776:07905796d7bea4187139808b7de687a99cbc3141 +M5 commit date Sun Dec 14 21:45:15 2008 -0800 +M5 started Dec 14 2008 21:48:26 +M5 executing on tater +command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-atomic-dual -re tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-atomic-dual Global frequency set at 1000000000000 ticks per second info: Entering event queue @ 0. Starting simulation... Exiting @ tick 1870335522500 because m5_exit instruction encountered diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stats.txt b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stats.txt index 1e6af66f7..55ea1f24a 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stats.txt +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stats.txt @@ -1,44 +1,44 @@ ---------- Begin Simulation Statistics ---------- -host_inst_rate 3333474 # Simulator instruction rate (inst/s) -host_mem_usage 290708 # Number of bytes of host memory used -host_seconds 18.93 # Real time elapsed on the host -host_tick_rate 98784311223 # Simulator tick rate (ticks/s) +host_inst_rate 1560779 # Simulator instruction rate (inst/s) +host_mem_usage 292076 # Number of bytes of host memory used +host_seconds 40.46 # Real time elapsed on the host +host_tick_rate 46222973494 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks -sim_insts 63113507 # Number of instructions simulated +sim_insts 63154034 # Number of instructions simulated sim_seconds 1.870336 # Number of seconds simulated sim_ticks 1870335522500 # Number of ticks simulated -system.cpu0.dcache.LoadLockedReq_accesses 188283 # number of LoadLockedReq accesses(hits+misses) -system.cpu0.dcache.LoadLockedReq_hits 172122 # number of LoadLockedReq hits -system.cpu0.dcache.LoadLockedReq_miss_rate 0.085834 # miss rate for LoadLockedReq accesses -system.cpu0.dcache.LoadLockedReq_misses 16161 # number of LoadLockedReq misses -system.cpu0.dcache.ReadReq_accesses 8975619 # number of ReadReq accesses(hits+misses) -system.cpu0.dcache.ReadReq_hits 7292050 # number of ReadReq hits -system.cpu0.dcache.ReadReq_miss_rate 0.187571 # miss rate for ReadReq accesses -system.cpu0.dcache.ReadReq_misses 1683569 # number of ReadReq misses -system.cpu0.dcache.StoreCondReq_accesses 187323 # number of StoreCondReq accesses(hits+misses) -system.cpu0.dcache.StoreCondReq_hits 159821 # number of StoreCondReq hits -system.cpu0.dcache.StoreCondReq_miss_rate 0.146816 # miss rate for StoreCondReq accesses -system.cpu0.dcache.StoreCondReq_misses 27502 # number of StoreCondReq misses -system.cpu0.dcache.WriteReq_accesses 5746054 # number of WriteReq accesses(hits+misses) -system.cpu0.dcache.WriteReq_hits 5372248 # number of WriteReq hits -system.cpu0.dcache.WriteReq_miss_rate 0.065054 # miss rate for WriteReq accesses -system.cpu0.dcache.WriteReq_misses 373806 # number of WriteReq misses +system.cpu0.dcache.LoadLockedReq_accesses 188297 # number of LoadLockedReq accesses(hits+misses) +system.cpu0.dcache.LoadLockedReq_hits 172138 # number of LoadLockedReq hits +system.cpu0.dcache.LoadLockedReq_miss_rate 0.085817 # miss rate for LoadLockedReq accesses +system.cpu0.dcache.LoadLockedReq_misses 16159 # number of LoadLockedReq misses +system.cpu0.dcache.ReadReq_accesses 8981669 # number of ReadReq accesses(hits+misses) +system.cpu0.dcache.ReadReq_hits 7298106 # number of ReadReq hits +system.cpu0.dcache.ReadReq_miss_rate 0.187444 # miss rate for ReadReq accesses +system.cpu0.dcache.ReadReq_misses 1683563 # number of ReadReq misses +system.cpu0.dcache.StoreCondReq_accesses 187338 # number of StoreCondReq accesses(hits+misses) +system.cpu0.dcache.StoreCondReq_hits 159838 # number of StoreCondReq hits +system.cpu0.dcache.StoreCondReq_miss_rate 0.146793 # miss rate for StoreCondReq accesses +system.cpu0.dcache.StoreCondReq_misses 27500 # number of StoreCondReq misses +system.cpu0.dcache.WriteReq_accesses 5748261 # number of WriteReq accesses(hits+misses) +system.cpu0.dcache.WriteReq_hits 5374453 # number of WriteReq hits +system.cpu0.dcache.WriteReq_miss_rate 0.065030 # miss rate for WriteReq accesses +system.cpu0.dcache.WriteReq_misses 373808 # number of WriteReq misses system.cpu0.dcache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.cpu0.dcache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.cpu0.dcache.avg_refs 6.625587 # Average number of references to valid blocks. +system.cpu0.dcache.avg_refs 6.629793 # Average number of references to valid blocks. system.cpu0.dcache.blocked_no_mshrs 0 # number of cycles access was blocked system.cpu0.dcache.blocked_no_targets 0 # number of cycles access was blocked system.cpu0.dcache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.cpu0.dcache.blocked_cycles_no_targets 0 # number of cycles access was blocked system.cpu0.dcache.cache_copies 0 # number of cache copies performed -system.cpu0.dcache.demand_accesses 14721673 # number of demand (read+write) accesses +system.cpu0.dcache.demand_accesses 14729930 # number of demand (read+write) accesses system.cpu0.dcache.demand_avg_miss_latency 0 # average overall miss latency system.cpu0.dcache.demand_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency -system.cpu0.dcache.demand_hits 12664298 # number of demand (read+write) hits +system.cpu0.dcache.demand_hits 12672559 # number of demand (read+write) hits system.cpu0.dcache.demand_miss_latency 0 # number of demand (read+write) miss cycles -system.cpu0.dcache.demand_miss_rate 0.139751 # miss rate for demand accesses -system.cpu0.dcache.demand_misses 2057375 # number of demand (read+write) misses +system.cpu0.dcache.demand_miss_rate 0.139673 # miss rate for demand accesses +system.cpu0.dcache.demand_misses 2057371 # number of demand (read+write) misses system.cpu0.dcache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits system.cpu0.dcache.demand_mshr_miss_latency 0 # number of demand (read+write) MSHR miss cycles system.cpu0.dcache.demand_mshr_miss_rate 0 # mshr miss rate for demand accesses @@ -46,14 +46,14 @@ system.cpu0.dcache.demand_mshr_misses 0 # nu system.cpu0.dcache.fast_writes 0 # number of fast writes performed system.cpu0.dcache.mshr_cap_events 0 # number of times MSHR cap was activated system.cpu0.dcache.no_allocate_misses 0 # Number of misses that were no-allocate -system.cpu0.dcache.overall_accesses 14721673 # number of overall (read+write) accesses +system.cpu0.dcache.overall_accesses 14729930 # number of overall (read+write) accesses system.cpu0.dcache.overall_avg_miss_latency 0 # average overall miss latency system.cpu0.dcache.overall_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency system.cpu0.dcache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency -system.cpu0.dcache.overall_hits 12664298 # number of overall hits +system.cpu0.dcache.overall_hits 12672559 # number of overall hits system.cpu0.dcache.overall_miss_latency 0 # number of overall miss cycles -system.cpu0.dcache.overall_miss_rate 0.139751 # miss rate for overall accesses -system.cpu0.dcache.overall_misses 2057375 # number of overall misses +system.cpu0.dcache.overall_miss_rate 0.139673 # miss rate for overall accesses +system.cpu0.dcache.overall_misses 2057371 # number of overall misses system.cpu0.dcache.overall_mshr_hits 0 # number of overall MSHR hits system.cpu0.dcache.overall_mshr_miss_latency 0 # number of overall MSHR miss cycles system.cpu0.dcache.overall_mshr_miss_rate 0 # mshr miss rate for overall accesses @@ -69,44 +69,44 @@ system.cpu0.dcache.prefetcher.num_hwpf_issued 0 system.cpu0.dcache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.cpu0.dcache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.cpu0.dcache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.cpu0.dcache.replacements 1978967 # number of replacements -system.cpu0.dcache.sampled_refs 1979479 # Sample count of references to valid blocks. +system.cpu0.dcache.replacements 1978962 # number of replacements +system.cpu0.dcache.sampled_refs 1979474 # Sample count of references to valid blocks. system.cpu0.dcache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.cpu0.dcache.tagsinuse 504.827685 # Cycle average of tags in use -system.cpu0.dcache.total_refs 13115211 # Total number of references to valid blocks. +system.cpu0.dcache.tagsinuse 504.827058 # Cycle average of tags in use +system.cpu0.dcache.total_refs 13123502 # Total number of references to valid blocks. system.cpu0.dcache.warmup_cycle 10840000 # Cycle when the warmup percentage was hit. system.cpu0.dcache.writebacks 396793 # number of writebacks system.cpu0.dtb.accesses 698037 # DTB accesses system.cpu0.dtb.acv 251 # DTB access violations -system.cpu0.dtb.hits 15082911 # DTB hits +system.cpu0.dtb.hits 15091429 # DTB hits system.cpu0.dtb.misses 7805 # DTB misses system.cpu0.dtb.read_accesses 508987 # DTB read accesses system.cpu0.dtb.read_acv 152 # DTB read access violations -system.cpu0.dtb.read_hits 9148351 # DTB read hits +system.cpu0.dtb.read_hits 9154530 # DTB read hits system.cpu0.dtb.read_misses 7079 # DTB read misses system.cpu0.dtb.write_accesses 189050 # DTB write accesses system.cpu0.dtb.write_acv 99 # DTB write access violations -system.cpu0.dtb.write_hits 5934560 # DTB write hits +system.cpu0.dtb.write_hits 5936899 # DTB write hits system.cpu0.dtb.write_misses 726 # DTB write misses -system.cpu0.icache.ReadReq_accesses 57189605 # number of ReadReq accesses(hits+misses) -system.cpu0.icache.ReadReq_hits 56304737 # number of ReadReq hits -system.cpu0.icache.ReadReq_miss_rate 0.015473 # miss rate for ReadReq accesses -system.cpu0.icache.ReadReq_misses 884868 # number of ReadReq misses +system.cpu0.icache.ReadReq_accesses 57230132 # number of ReadReq accesses(hits+misses) +system.cpu0.icache.ReadReq_hits 56345132 # number of ReadReq hits +system.cpu0.icache.ReadReq_miss_rate 0.015464 # miss rate for ReadReq accesses +system.cpu0.icache.ReadReq_misses 885000 # number of ReadReq misses system.cpu0.icache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.cpu0.icache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.cpu0.icache.avg_refs 63.636703 # Average number of references to valid blocks. +system.cpu0.icache.avg_refs 63.672859 # Average number of references to valid blocks. system.cpu0.icache.blocked_no_mshrs 0 # number of cycles access was blocked system.cpu0.icache.blocked_no_targets 0 # number of cycles access was blocked system.cpu0.icache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.cpu0.icache.blocked_cycles_no_targets 0 # number of cycles access was blocked system.cpu0.icache.cache_copies 0 # number of cache copies performed -system.cpu0.icache.demand_accesses 57189605 # number of demand (read+write) accesses +system.cpu0.icache.demand_accesses 57230132 # number of demand (read+write) accesses system.cpu0.icache.demand_avg_miss_latency 0 # average overall miss latency system.cpu0.icache.demand_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency -system.cpu0.icache.demand_hits 56304737 # number of demand (read+write) hits +system.cpu0.icache.demand_hits 56345132 # number of demand (read+write) hits system.cpu0.icache.demand_miss_latency 0 # number of demand (read+write) miss cycles -system.cpu0.icache.demand_miss_rate 0.015473 # miss rate for demand accesses -system.cpu0.icache.demand_misses 884868 # number of demand (read+write) misses +system.cpu0.icache.demand_miss_rate 0.015464 # miss rate for demand accesses +system.cpu0.icache.demand_misses 885000 # number of demand (read+write) misses system.cpu0.icache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits system.cpu0.icache.demand_mshr_miss_latency 0 # number of demand (read+write) MSHR miss cycles system.cpu0.icache.demand_mshr_miss_rate 0 # mshr miss rate for demand accesses @@ -114,14 +114,14 @@ system.cpu0.icache.demand_mshr_misses 0 # nu system.cpu0.icache.fast_writes 0 # number of fast writes performed system.cpu0.icache.mshr_cap_events 0 # number of times MSHR cap was activated system.cpu0.icache.no_allocate_misses 0 # Number of misses that were no-allocate -system.cpu0.icache.overall_accesses 57189605 # number of overall (read+write) accesses +system.cpu0.icache.overall_accesses 57230132 # number of overall (read+write) accesses system.cpu0.icache.overall_avg_miss_latency 0 # average overall miss latency system.cpu0.icache.overall_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency system.cpu0.icache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency -system.cpu0.icache.overall_hits 56304737 # number of overall hits +system.cpu0.icache.overall_hits 56345132 # number of overall hits system.cpu0.icache.overall_miss_latency 0 # number of overall miss cycles -system.cpu0.icache.overall_miss_rate 0.015473 # miss rate for overall accesses -system.cpu0.icache.overall_misses 884868 # number of overall misses +system.cpu0.icache.overall_miss_rate 0.015464 # miss rate for overall accesses +system.cpu0.icache.overall_misses 885000 # number of overall misses system.cpu0.icache.overall_mshr_hits 0 # number of overall MSHR hits system.cpu0.icache.overall_mshr_miss_latency 0 # number of overall MSHR miss cycles system.cpu0.icache.overall_mshr_miss_rate 0 # mshr miss rate for overall accesses @@ -137,28 +137,28 @@ system.cpu0.icache.prefetcher.num_hwpf_issued 0 system.cpu0.icache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.cpu0.icache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.cpu0.icache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.cpu0.icache.replacements 884272 # number of replacements -system.cpu0.icache.sampled_refs 884784 # Sample count of references to valid blocks. +system.cpu0.icache.replacements 884404 # number of replacements +system.cpu0.icache.sampled_refs 884916 # Sample count of references to valid blocks. system.cpu0.icache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions system.cpu0.icache.tagsinuse 511.244754 # Cycle average of tags in use -system.cpu0.icache.total_refs 56304737 # Total number of references to valid blocks. +system.cpu0.icache.total_refs 56345132 # Total number of references to valid blocks. system.cpu0.icache.warmup_cycle 9786576500 # Cycle when the warmup percentage was hit. system.cpu0.icache.writebacks 0 # number of writebacks -system.cpu0.idle_fraction 0.984710 # Percentage of idle cycles -system.cpu0.itb.accesses 3858857 # ITB accesses +system.cpu0.idle_fraction 0.984700 # Percentage of idle cycles +system.cpu0.itb.accesses 3859041 # ITB accesses system.cpu0.itb.acv 127 # ITB acv -system.cpu0.itb.hits 3855372 # ITB hits +system.cpu0.itb.hits 3855556 # ITB hits system.cpu0.itb.misses 3485 # ITB misses -system.cpu0.kern.callpal 183274 # number of callpals executed +system.cpu0.kern.callpal 183291 # number of callpals executed system.cpu0.kern.callpal_cserve 1 0.00% 0.00% # number of callpals executed system.cpu0.kern.callpal_wripir 110 0.06% 0.06% # number of callpals executed system.cpu0.kern.callpal_wrmces 1 0.00% 0.06% # number of callpals executed system.cpu0.kern.callpal_wrfen 1 0.00% 0.06% # number of callpals executed system.cpu0.kern.callpal_wrvptptr 1 0.00% 0.06% # number of callpals executed -system.cpu0.kern.callpal_swpctx 3761 2.05% 2.11% # number of callpals executed +system.cpu0.kern.callpal_swpctx 3762 2.05% 2.11% # number of callpals executed system.cpu0.kern.callpal_tbi 38 0.02% 2.14% # number of callpals executed system.cpu0.kern.callpal_wrent 7 0.00% 2.14% # number of callpals executed -system.cpu0.kern.callpal_swpipl 168019 91.68% 93.82% # number of callpals executed +system.cpu0.kern.callpal_swpipl 168035 91.68% 93.82% # number of callpals executed system.cpu0.kern.callpal_rdps 6150 3.36% 97.17% # number of callpals executed system.cpu0.kern.callpal_wrkgp 1 0.00% 97.17% # number of callpals executed system.cpu0.kern.callpal_wrusp 3 0.00% 97.17% # number of callpals executed @@ -168,45 +168,45 @@ system.cpu0.kern.callpal_rti 4673 2.55% 99.73% # nu system.cpu0.kern.callpal_callsys 357 0.19% 99.92% # number of callpals executed system.cpu0.kern.callpal_imb 142 0.08% 100.00% # number of callpals executed system.cpu0.kern.inst.arm 0 # number of arm instructions executed -system.cpu0.kern.inst.hwrei 197103 # number of hwrei instructions executed -system.cpu0.kern.inst.quiesce 6167 # number of quiesce instructions executed -system.cpu0.kern.ipl_count 174852 # number of times we switched to this ipl -system.cpu0.kern.ipl_count_0 70996 40.60% 40.60% # number of times we switched to this ipl +system.cpu0.kern.inst.hwrei 197120 # number of hwrei instructions executed +system.cpu0.kern.inst.quiesce 6283 # number of quiesce instructions executed +system.cpu0.kern.ipl_count 174868 # number of times we switched to this ipl +system.cpu0.kern.ipl_count_0 71004 40.60% 40.60% # number of times we switched to this ipl system.cpu0.kern.ipl_count_21 243 0.14% 40.74% # number of times we switched to this ipl system.cpu0.kern.ipl_count_22 1908 1.09% 41.83% # number of times we switched to this ipl system.cpu0.kern.ipl_count_30 8 0.00% 41.84% # number of times we switched to this ipl -system.cpu0.kern.ipl_count_31 101697 58.16% 100.00% # number of times we switched to this ipl -system.cpu0.kern.ipl_good 141409 # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_good_0 69629 49.24% 49.24% # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_count_31 101705 58.16% 100.00% # number of times we switched to this ipl +system.cpu0.kern.ipl_good 141425 # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_good_0 69637 49.24% 49.24% # number of times we switched to this ipl from a different ipl system.cpu0.kern.ipl_good_21 243 0.17% 49.41% # number of times we switched to this ipl from a different ipl system.cpu0.kern.ipl_good_22 1908 1.35% 50.76% # number of times we switched to this ipl from a different ipl system.cpu0.kern.ipl_good_30 8 0.01% 50.77% # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_good_31 69621 49.23% 100.00% # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_good_31 69629 49.23% 100.00% # number of times we switched to this ipl from a different ipl system.cpu0.kern.ipl_ticks 1870335315000 # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_0 1853125830000 99.08% 99.08% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_21 20110000 0.00% 99.08% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_22 82044000 0.00% 99.09% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_30 949500 0.00% 99.09% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_31 17106381500 0.91% 100.00% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_used_0 0.980745 # fraction of swpipl calls that actually changed the ipl +system.cpu0.kern.ipl_ticks_0 1852989766500 99.07% 99.07% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_21 20110000 0.00% 99.07% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_22 82044000 0.00% 99.08% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_30 949500 0.00% 99.08% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_31 17242445000 0.92% 100.00% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_used_0 0.980748 # fraction of swpipl calls that actually changed the ipl system.cpu0.kern.ipl_used_21 1 # fraction of swpipl calls that actually changed the ipl system.cpu0.kern.ipl_used_22 1 # fraction of swpipl calls that actually changed the ipl system.cpu0.kern.ipl_used_30 1 # fraction of swpipl calls that actually changed the ipl -system.cpu0.kern.ipl_used_31 0.684592 # fraction of swpipl calls that actually changed the ipl +system.cpu0.kern.ipl_used_31 0.684617 # fraction of swpipl calls that actually changed the ipl system.cpu0.kern.mode_good_kernel 1157 system.cpu0.kern.mode_good_user 1158 system.cpu0.kern.mode_good_idle 0 -system.cpu0.kern.mode_switch_kernel 7090 # number of protection mode switches +system.cpu0.kern.mode_switch_kernel 7091 # number of protection mode switches system.cpu0.kern.mode_switch_user 1158 # number of protection mode switches system.cpu0.kern.mode_switch_idle 0 # number of protection mode switches system.cpu0.kern.mode_switch_good <err: div-0> # fraction of useful protection mode switches -system.cpu0.kern.mode_switch_good_kernel 0.163188 # fraction of useful protection mode switches +system.cpu0.kern.mode_switch_good_kernel 0.163165 # fraction of useful protection mode switches system.cpu0.kern.mode_switch_good_user 1 # fraction of useful protection mode switches system.cpu0.kern.mode_switch_good_idle <err: div-0> # fraction of useful protection mode switches system.cpu0.kern.mode_ticks_kernel 1869378305000 99.95% 99.95% # number of ticks spent at the given mode system.cpu0.kern.mode_ticks_user 957009000 0.05% 100.00% # number of ticks spent at the given mode system.cpu0.kern.mode_ticks_idle 0 0.00% 100.00% # number of ticks spent at the given mode -system.cpu0.kern.swap_context 3762 # number of times the context was actually changed +system.cpu0.kern.swap_context 3763 # number of times the context was actually changed system.cpu0.kern.syscall 226 # number of syscalls executed system.cpu0.kern.syscall_2 6 2.65% 2.65% # number of syscalls executed system.cpu0.kern.syscall_3 19 8.41% 11.06% # number of syscalls executed @@ -238,10 +238,10 @@ system.cpu0.kern.syscall_98 2 0.88% 97.35% # nu system.cpu0.kern.syscall_132 2 0.88% 98.23% # number of syscalls executed system.cpu0.kern.syscall_144 2 0.88% 99.12% # number of syscalls executed system.cpu0.kern.syscall_147 2 0.88% 100.00% # number of syscalls executed -system.cpu0.not_idle_fraction 0.015290 # Percentage of non-idle cycles +system.cpu0.not_idle_fraction 0.015300 # Percentage of non-idle cycles system.cpu0.numCycles 3740670933 # number of cpu cycles simulated -system.cpu0.num_insts 57181549 # Number of instructions executed -system.cpu0.num_refs 15322361 # Number of memory references +system.cpu0.num_insts 57222076 # Number of instructions executed +system.cpu0.num_refs 15330887 # Number of memory references system.cpu1.dcache.LoadLockedReq_accesses 16418 # number of LoadLockedReq accesses(hits+misses) system.cpu1.dcache.LoadLockedReq_hits 15129 # number of LoadLockedReq hits system.cpu1.dcache.LoadLockedReq_miss_rate 0.078511 # miss rate for LoadLockedReq accesses @@ -306,7 +306,7 @@ system.cpu1.dcache.prefetcher.num_hwpf_squashed_from_miss 0 system.cpu1.dcache.replacements 62338 # number of replacements system.cpu1.dcache.sampled_refs 62657 # Sample count of references to valid blocks. system.cpu1.dcache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.cpu1.dcache.tagsinuse 391.950049 # Cycle average of tags in use +system.cpu1.dcache.tagsinuse 391.951263 # Cycle average of tags in use system.cpu1.dcache.total_refs 1834544 # Total number of references to valid blocks. system.cpu1.dcache.warmup_cycle 1851267520500 # Cycle when the warmup percentage was hit. system.cpu1.dcache.writebacks 30848 # number of writebacks @@ -529,33 +529,33 @@ system.iocache.tagsinuse 0.435437 # Cy system.iocache.total_refs 0 # Total number of references to valid blocks. system.iocache.warmup_cycle 1685787165017 # Cycle when the warmup percentage was hit. system.iocache.writebacks 41520 # number of writebacks -system.l2c.ReadExReq_accesses 306244 # number of ReadExReq accesses(hits+misses) +system.l2c.ReadExReq_accesses 306247 # number of ReadExReq accesses(hits+misses) system.l2c.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses -system.l2c.ReadExReq_misses 306244 # number of ReadExReq misses -system.l2c.ReadReq_accesses 2724143 # number of ReadReq accesses(hits+misses) -system.l2c.ReadReq_hits 1759609 # number of ReadReq hits -system.l2c.ReadReq_miss_rate 0.354069 # miss rate for ReadReq accesses -system.l2c.ReadReq_misses 964534 # number of ReadReq misses -system.l2c.UpgradeReq_accesses 125010 # number of UpgradeReq accesses(hits+misses) +system.l2c.ReadExReq_misses 306247 # number of ReadExReq misses +system.l2c.ReadReq_accesses 2724267 # number of ReadReq accesses(hits+misses) +system.l2c.ReadReq_hits 1759731 # number of ReadReq hits +system.l2c.ReadReq_miss_rate 0.354053 # miss rate for ReadReq accesses +system.l2c.ReadReq_misses 964536 # number of ReadReq misses +system.l2c.UpgradeReq_accesses 125007 # number of UpgradeReq accesses(hits+misses) system.l2c.UpgradeReq_miss_rate 1 # miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_misses 125010 # number of UpgradeReq misses +system.l2c.UpgradeReq_misses 125007 # number of UpgradeReq misses system.l2c.Writeback_accesses 427641 # number of Writeback accesses(hits+misses) system.l2c.Writeback_hits 427641 # number of Writeback hits system.l2c.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.l2c.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.l2c.avg_refs 1.789118 # Average number of references to valid blocks. +system.l2c.avg_refs 1.788900 # Average number of references to valid blocks. system.l2c.blocked_no_mshrs 0 # number of cycles access was blocked system.l2c.blocked_no_targets 0 # number of cycles access was blocked system.l2c.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.l2c.blocked_cycles_no_targets 0 # number of cycles access was blocked system.l2c.cache_copies 0 # number of cache copies performed -system.l2c.demand_accesses 3030387 # number of demand (read+write) accesses +system.l2c.demand_accesses 3030514 # number of demand (read+write) accesses system.l2c.demand_avg_miss_latency 0 # average overall miss latency system.l2c.demand_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency -system.l2c.demand_hits 1759609 # number of demand (read+write) hits +system.l2c.demand_hits 1759731 # number of demand (read+write) hits system.l2c.demand_miss_latency 0 # number of demand (read+write) miss cycles -system.l2c.demand_miss_rate 0.419345 # miss rate for demand accesses -system.l2c.demand_misses 1270778 # number of demand (read+write) misses +system.l2c.demand_miss_rate 0.419329 # miss rate for demand accesses +system.l2c.demand_misses 1270783 # number of demand (read+write) misses system.l2c.demand_mshr_hits 0 # number of demand (read+write) MSHR hits system.l2c.demand_mshr_miss_latency 0 # number of demand (read+write) MSHR miss cycles system.l2c.demand_mshr_miss_rate 0 # mshr miss rate for demand accesses @@ -563,14 +563,14 @@ system.l2c.demand_mshr_misses 0 # nu system.l2c.fast_writes 0 # number of fast writes performed system.l2c.mshr_cap_events 0 # number of times MSHR cap was activated system.l2c.no_allocate_misses 0 # Number of misses that were no-allocate -system.l2c.overall_accesses 3030387 # number of overall (read+write) accesses +system.l2c.overall_accesses 3030514 # number of overall (read+write) accesses system.l2c.overall_avg_miss_latency 0 # average overall miss latency system.l2c.overall_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency system.l2c.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency -system.l2c.overall_hits 1759609 # number of overall hits +system.l2c.overall_hits 1759731 # number of overall hits system.l2c.overall_miss_latency 0 # number of overall miss cycles -system.l2c.overall_miss_rate 0.419345 # miss rate for overall accesses -system.l2c.overall_misses 1270778 # number of overall misses +system.l2c.overall_miss_rate 0.419329 # miss rate for overall accesses +system.l2c.overall_misses 1270783 # number of overall misses system.l2c.overall_mshr_hits 0 # number of overall MSHR hits system.l2c.overall_mshr_miss_latency 0 # number of overall MSHR miss cycles system.l2c.overall_mshr_miss_rate 0 # mshr miss rate for overall accesses @@ -586,13 +586,13 @@ system.l2c.prefetcher.num_hwpf_issued 0 # nu system.l2c.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.l2c.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.l2c.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.l2c.replacements 1056800 # number of replacements -system.l2c.sampled_refs 1091449 # Sample count of references to valid blocks. +system.l2c.replacements 1056803 # number of replacements +system.l2c.sampled_refs 1091452 # Sample count of references to valid blocks. system.l2c.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.l2c.tagsinuse 30522.432687 # Cycle average of tags in use -system.l2c.total_refs 1952731 # Total number of references to valid blocks. +system.l2c.tagsinuse 30526.475636 # Cycle average of tags in use +system.l2c.total_refs 1952499 # Total number of references to valid blocks. system.l2c.warmup_cycle 990121000 # Cycle when the warmup percentage was hit. -system.l2c.writebacks 123878 # number of writebacks +system.l2c.writebacks 123882 # number of writebacks system.tsunami.ethernet.coalescedRxDesc <err: div-0> # average number of RxDesc's coalesced into each post system.tsunami.ethernet.coalescedRxIdle <err: div-0> # average number of RxIdle's coalesced into each post system.tsunami.ethernet.coalescedRxOk <err: div-0> # average number of RxOk's coalesced into each post diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/system.terminal b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/system.terminal index c2aeea3f1..6129834bd 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/system.terminal +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/system.terminal @@ -60,6 +60,7 @@ SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb
loop: loaded (max 8 devices)
nbd: registered device at major 43
ns83820.c: National Semiconductor DP83820 10/100/1000 driver. +
PCI: Setting latency timer of device 0000:00:01.0 to 64
eth0: ns83820.c: 0x22c: 00000000, subsystem: 0000:0000
eth0: enabling optical transceiver
eth0: using 64 bit addressing. @@ -71,6 +72,7 @@ SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb
PIIX4: IDE controller at PCI slot 0000:00:00.0
PIIX4: chipset revision 0
PIIX4: 100% native mode on irq 31 +
PCI: Setting latency timer of device 0000:00:00.0 to 64
ide0: BM-DMA at 0x8400-0x8407, BIOS settings: hda:DMA, hdb:DMA
ide1: BM-DMA at 0x8408-0x840f, BIOS settings: hdc:DMA, hdd:DMA
hda: M5 IDE Disk, ATA DISK drive diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/simout b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/simout index 6989105c7..2ea90534e 100755 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/simout +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/simout @@ -5,12 +5,12 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Dec 4 2008 21:30:58 -M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652 -M5 commit date Thu Dec 04 18:04:32 2008 -0500 -M5 started Dec 4 2008 21:37:01 -M5 executing on zizzer -command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-atomic -re --stdout-file stdout --stderr-file stderr tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-atomic +M5 compiled Dec 14 2008 21:47:07 +M5 revision 5776:07905796d7bea4187139808b7de687a99cbc3141 +M5 commit date Sun Dec 14 21:45:15 2008 -0800 +M5 started Dec 14 2008 21:47:54 +M5 executing on tater +command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-atomic -re tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-atomic Global frequency set at 1000000000000 ticks per second info: Entering event queue @ 0. Starting simulation... -Exiting @ tick 1828355695500 because m5_exit instruction encountered +Exiting @ tick 1829332258000 because m5_exit instruction encountered diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stats.txt b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stats.txt index 8c53afda6..19b0c43d9 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stats.txt +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stats.txt @@ -1,44 +1,44 @@ ---------- Begin Simulation Statistics ---------- -host_inst_rate 2786128 # Simulator instruction rate (inst/s) -host_mem_usage 289464 # Number of bytes of host memory used -host_seconds 21.53 # Real time elapsed on the host -host_tick_rate 84905818409 # Simulator tick rate (ticks/s) +host_inst_rate 1610025 # Simulator instruction rate (inst/s) +host_mem_usage 290828 # Number of bytes of host memory used +host_seconds 37.29 # Real time elapsed on the host +host_tick_rate 49056237387 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks -sim_insts 59995351 # Number of instructions simulated -sim_seconds 1.828356 # Number of seconds simulated -sim_ticks 1828355695500 # Number of ticks simulated -system.cpu.dcache.LoadLockedReq_accesses 200279 # number of LoadLockedReq accesses(hits+misses) -system.cpu.dcache.LoadLockedReq_hits 183118 # number of LoadLockedReq hits -system.cpu.dcache.LoadLockedReq_miss_rate 0.085685 # miss rate for LoadLockedReq accesses -system.cpu.dcache.LoadLockedReq_misses 17161 # number of LoadLockedReq misses -system.cpu.dcache.ReadReq_accesses 9523053 # number of ReadReq accesses(hits+misses) -system.cpu.dcache.ReadReq_hits 7801372 # number of ReadReq hits -system.cpu.dcache.ReadReq_miss_rate 0.180791 # miss rate for ReadReq accesses -system.cpu.dcache.ReadReq_misses 1721681 # number of ReadReq misses -system.cpu.dcache.StoreCondReq_accesses 199258 # number of StoreCondReq accesses(hits+misses) -system.cpu.dcache.StoreCondReq_hits 169391 # number of StoreCondReq hits -system.cpu.dcache.StoreCondReq_miss_rate 0.149891 # miss rate for StoreCondReq accesses +sim_insts 60038305 # Number of instructions simulated +sim_seconds 1.829332 # Number of seconds simulated +sim_ticks 1829332258000 # Number of ticks simulated +system.cpu.dcache.LoadLockedReq_accesses 200303 # number of LoadLockedReq accesses(hits+misses) +system.cpu.dcache.LoadLockedReq_hits 183141 # number of LoadLockedReq hits +system.cpu.dcache.LoadLockedReq_miss_rate 0.085680 # miss rate for LoadLockedReq accesses +system.cpu.dcache.LoadLockedReq_misses 17162 # number of LoadLockedReq misses +system.cpu.dcache.ReadReq_accesses 9529487 # number of ReadReq accesses(hits+misses) +system.cpu.dcache.ReadReq_hits 7807782 # number of ReadReq hits +system.cpu.dcache.ReadReq_miss_rate 0.180671 # miss rate for ReadReq accesses +system.cpu.dcache.ReadReq_misses 1721705 # number of ReadReq misses +system.cpu.dcache.StoreCondReq_accesses 199282 # number of StoreCondReq accesses(hits+misses) +system.cpu.dcache.StoreCondReq_hits 169415 # number of StoreCondReq hits +system.cpu.dcache.StoreCondReq_miss_rate 0.149873 # miss rate for StoreCondReq accesses system.cpu.dcache.StoreCondReq_misses 29867 # number of StoreCondReq misses -system.cpu.dcache.WriteReq_accesses 6150189 # number of WriteReq accesses(hits+misses) -system.cpu.dcache.WriteReq_hits 5750766 # number of WriteReq hits -system.cpu.dcache.WriteReq_miss_rate 0.064945 # miss rate for WriteReq accesses -system.cpu.dcache.WriteReq_misses 399423 # number of WriteReq misses +system.cpu.dcache.WriteReq_accesses 6152574 # number of WriteReq accesses(hits+misses) +system.cpu.dcache.WriteReq_hits 5753150 # number of WriteReq hits +system.cpu.dcache.WriteReq_miss_rate 0.064920 # miss rate for WriteReq accesses +system.cpu.dcache.WriteReq_misses 399424 # number of WriteReq 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 6.866519 # Average number of references to valid blocks. +system.cpu.dcache.avg_refs 6.870767 # 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 15673242 # number of demand (read+write) accesses +system.cpu.dcache.demand_accesses 15682061 # number of demand (read+write) accesses system.cpu.dcache.demand_avg_miss_latency 0 # average overall miss latency system.cpu.dcache.demand_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency -system.cpu.dcache.demand_hits 13552138 # number of demand (read+write) hits +system.cpu.dcache.demand_hits 13560932 # number of demand (read+write) hits system.cpu.dcache.demand_miss_latency 0 # number of demand (read+write) miss cycles -system.cpu.dcache.demand_miss_rate 0.135333 # miss rate for demand accesses -system.cpu.dcache.demand_misses 2121104 # number of demand (read+write) misses +system.cpu.dcache.demand_miss_rate 0.135258 # miss rate for demand accesses +system.cpu.dcache.demand_misses 2121129 # 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 0 # number of demand (read+write) MSHR miss cycles system.cpu.dcache.demand_mshr_miss_rate 0 # mshr miss rate for demand accesses @@ -46,14 +46,14 @@ system.cpu.dcache.demand_mshr_misses 0 # nu 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 15673242 # number of overall (read+write) accesses +system.cpu.dcache.overall_accesses 15682061 # number of overall (read+write) accesses system.cpu.dcache.overall_avg_miss_latency 0 # average overall miss latency system.cpu.dcache.overall_avg_mshr_miss_latency <err: div-0> # 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 13552138 # number of overall hits +system.cpu.dcache.overall_hits 13560932 # number of overall hits system.cpu.dcache.overall_miss_latency 0 # number of overall miss cycles -system.cpu.dcache.overall_miss_rate 0.135333 # miss rate for overall accesses -system.cpu.dcache.overall_misses 2121104 # number of overall misses +system.cpu.dcache.overall_miss_rate 0.135258 # miss rate for overall accesses +system.cpu.dcache.overall_misses 2121129 # number of overall misses system.cpu.dcache.overall_mshr_hits 0 # number of overall MSHR hits system.cpu.dcache.overall_mshr_miss_latency 0 # number of overall MSHR miss cycles system.cpu.dcache.overall_mshr_miss_rate 0 # mshr miss rate for overall accesses @@ -69,44 +69,44 @@ system.cpu.dcache.prefetcher.num_hwpf_issued 0 system.cpu.dcache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated 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 2042676 # number of replacements -system.cpu.dcache.sampled_refs 2043188 # Sample count of references to valid blocks. +system.cpu.dcache.replacements 2042700 # number of replacements +system.cpu.dcache.sampled_refs 2043212 # 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 511.997800 # Cycle average of tags in use -system.cpu.dcache.total_refs 14029590 # Total number of references to valid blocks. +system.cpu.dcache.tagsinuse 511.997802 # Cycle average of tags in use +system.cpu.dcache.total_refs 14038433 # Total number of references to valid blocks. system.cpu.dcache.warmup_cycle 10840000 # Cycle when the warmup percentage was hit. -system.cpu.dcache.writebacks 428892 # number of writebacks +system.cpu.dcache.writebacks 428893 # number of writebacks system.cpu.dtb.accesses 1020787 # DTB accesses system.cpu.dtb.acv 367 # DTB access violations -system.cpu.dtb.hits 16053817 # DTB hits +system.cpu.dtb.hits 16062925 # DTB hits system.cpu.dtb.misses 11471 # DTB misses system.cpu.dtb.read_accesses 728856 # DTB read accesses system.cpu.dtb.read_acv 210 # DTB read access violations -system.cpu.dtb.read_hits 9703849 # DTB read hits +system.cpu.dtb.read_hits 9710427 # DTB read hits system.cpu.dtb.read_misses 10329 # DTB read misses system.cpu.dtb.write_accesses 291931 # DTB write accesses system.cpu.dtb.write_acv 157 # DTB write access violations -system.cpu.dtb.write_hits 6349968 # DTB write hits +system.cpu.dtb.write_hits 6352498 # DTB write hits system.cpu.dtb.write_misses 1142 # DTB write misses -system.cpu.icache.ReadReq_accesses 60007189 # number of ReadReq accesses(hits+misses) -system.cpu.icache.ReadReq_hits 59087131 # number of ReadReq hits -system.cpu.icache.ReadReq_miss_rate 0.015332 # miss rate for ReadReq accesses -system.cpu.icache.ReadReq_misses 920058 # number of ReadReq misses +system.cpu.icache.ReadReq_accesses 60050143 # number of ReadReq accesses(hits+misses) +system.cpu.icache.ReadReq_hits 59129922 # number of ReadReq hits +system.cpu.icache.ReadReq_miss_rate 0.015324 # miss rate for ReadReq accesses +system.cpu.icache.ReadReq_misses 920221 # number of ReadReq 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 64.229122 # Average number of references to valid blocks. +system.cpu.icache.avg_refs 64.264250 # 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 60007189 # number of demand (read+write) accesses +system.cpu.icache.demand_accesses 60050143 # number of demand (read+write) accesses system.cpu.icache.demand_avg_miss_latency 0 # average overall miss latency system.cpu.icache.demand_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency -system.cpu.icache.demand_hits 59087131 # number of demand (read+write) hits +system.cpu.icache.demand_hits 59129922 # number of demand (read+write) hits system.cpu.icache.demand_miss_latency 0 # number of demand (read+write) miss cycles -system.cpu.icache.demand_miss_rate 0.015332 # miss rate for demand accesses -system.cpu.icache.demand_misses 920058 # number of demand (read+write) misses +system.cpu.icache.demand_miss_rate 0.015324 # miss rate for demand accesses +system.cpu.icache.demand_misses 920221 # 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 0 # number of demand (read+write) MSHR miss cycles system.cpu.icache.demand_mshr_miss_rate 0 # mshr miss rate for demand accesses @@ -114,14 +114,14 @@ system.cpu.icache.demand_mshr_misses 0 # nu 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 60007189 # number of overall (read+write) accesses +system.cpu.icache.overall_accesses 60050143 # number of overall (read+write) accesses system.cpu.icache.overall_avg_miss_latency 0 # average overall miss latency system.cpu.icache.overall_avg_mshr_miss_latency <err: div-0> # 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 59087131 # number of overall hits +system.cpu.icache.overall_hits 59129922 # number of overall hits system.cpu.icache.overall_miss_latency 0 # number of overall miss cycles -system.cpu.icache.overall_miss_rate 0.015332 # miss rate for overall accesses -system.cpu.icache.overall_misses 920058 # number of overall misses +system.cpu.icache.overall_miss_rate 0.015324 # miss rate for overall accesses +system.cpu.icache.overall_misses 920221 # number of overall misses system.cpu.icache.overall_mshr_hits 0 # number of overall MSHR hits system.cpu.icache.overall_mshr_miss_latency 0 # number of overall MSHR miss cycles system.cpu.icache.overall_mshr_miss_rate 0 # mshr miss rate for overall accesses @@ -137,19 +137,19 @@ system.cpu.icache.prefetcher.num_hwpf_issued 0 system.cpu.icache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated 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 919431 # number of replacements -system.cpu.icache.sampled_refs 919943 # Sample count of references to valid blocks. +system.cpu.icache.replacements 919594 # number of replacements +system.cpu.icache.sampled_refs 920106 # 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 511.214823 # Cycle average of tags in use -system.cpu.icache.total_refs 59087131 # Total number of references to valid blocks. +system.cpu.icache.tagsinuse 511.215243 # Cycle average of tags in use +system.cpu.icache.total_refs 59129922 # Total number of references to valid blocks. system.cpu.icache.warmup_cycle 9686972500 # Cycle when the warmup percentage was hit. system.cpu.icache.writebacks 0 # number of writebacks -system.cpu.idle_fraction 0.983588 # Percentage of idle cycles -system.cpu.itb.accesses 4979228 # ITB accesses +system.cpu.idle_fraction 0.983585 # Percentage of idle cycles +system.cpu.itb.accesses 4979654 # ITB accesses system.cpu.itb.acv 184 # ITB acv -system.cpu.itb.hits 4974222 # ITB hits +system.cpu.itb.hits 4974648 # ITB hits system.cpu.itb.misses 5006 # ITB misses -system.cpu.kern.callpal 192140 # number of callpals executed +system.cpu.kern.callpal 192180 # number of callpals executed system.cpu.kern.callpal_cserve 1 0.00% 0.00% # number of callpals executed system.cpu.kern.callpal_wrmces 1 0.00% 0.00% # number of callpals executed system.cpu.kern.callpal_wrfen 1 0.00% 0.00% # number of callpals executed @@ -157,50 +157,50 @@ system.cpu.kern.callpal_wrvptptr 1 0.00% 0.00% # nu system.cpu.kern.callpal_swpctx 4177 2.17% 2.18% # number of callpals executed system.cpu.kern.callpal_tbi 54 0.03% 2.20% # number of callpals executed system.cpu.kern.callpal_wrent 7 0.00% 2.21% # number of callpals executed -system.cpu.kern.callpal_swpipl 175211 91.19% 93.40% # number of callpals executed -system.cpu.kern.callpal_rdps 6770 3.52% 96.92% # number of callpals executed +system.cpu.kern.callpal_swpipl 175249 91.19% 93.40% # number of callpals executed +system.cpu.kern.callpal_rdps 6771 3.52% 96.92% # number of callpals executed system.cpu.kern.callpal_wrkgp 1 0.00% 96.92% # number of callpals executed system.cpu.kern.callpal_wrusp 7 0.00% 96.92% # number of callpals executed system.cpu.kern.callpal_rdusp 9 0.00% 96.93% # number of callpals executed system.cpu.kern.callpal_whami 2 0.00% 96.93% # number of callpals executed -system.cpu.kern.callpal_rti 5202 2.71% 99.64% # number of callpals executed +system.cpu.kern.callpal_rti 5203 2.71% 99.64% # number of callpals executed system.cpu.kern.callpal_callsys 515 0.27% 99.91% # number of callpals executed system.cpu.kern.callpal_imb 181 0.09% 100.00% # number of callpals executed system.cpu.kern.inst.arm 0 # number of arm instructions executed -system.cpu.kern.inst.hwrei 211278 # number of hwrei instructions executed -system.cpu.kern.inst.quiesce 6240 # number of quiesce instructions executed -system.cpu.kern.ipl_count 182522 # number of times we switched to this ipl -system.cpu.kern.ipl_count_0 74815 40.99% 40.99% # number of times we switched to this ipl +system.cpu.kern.inst.hwrei 211319 # number of hwrei instructions executed +system.cpu.kern.inst.quiesce 6357 # number of quiesce instructions executed +system.cpu.kern.ipl_count 182562 # number of times we switched to this ipl +system.cpu.kern.ipl_count_0 74830 40.99% 40.99% # number of times we switched to this ipl system.cpu.kern.ipl_count_21 243 0.13% 41.12% # number of times we switched to this ipl -system.cpu.kern.ipl_count_22 1865 1.02% 42.14% # number of times we switched to this ipl -system.cpu.kern.ipl_count_31 105599 57.86% 100.00% # number of times we switched to this ipl -system.cpu.kern.ipl_good 149004 # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_good_0 73448 49.29% 49.29% # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_count_22 1866 1.02% 42.14% # number of times we switched to this ipl +system.cpu.kern.ipl_count_31 105623 57.86% 100.00% # number of times we switched to this ipl +system.cpu.kern.ipl_good 149035 # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_good_0 73463 49.29% 49.29% # number of times we switched to this ipl from a different ipl system.cpu.kern.ipl_good_21 243 0.16% 49.46% # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_good_22 1865 1.25% 50.71% # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_good_31 73448 49.29% 100.00% # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_ticks 1828355488000 # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_0 1811087822500 99.06% 99.06% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_21 20110000 0.00% 99.06% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_22 80195000 0.00% 99.06% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_31 17167360500 0.94% 100.00% # number of cycles we spent at this ipl -system.cpu.kern.ipl_used_0 0.981728 # fraction of swpipl calls that actually changed the ipl +system.cpu.kern.ipl_good_22 1866 1.25% 50.71% # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_good_31 73463 49.29% 100.00% # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_ticks 1829332050500 # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_0 1811927407500 99.05% 99.05% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_21 20110000 0.00% 99.05% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_22 80238000 0.00% 99.05% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_31 17304295000 0.95% 100.00% # number of cycles we spent at this ipl +system.cpu.kern.ipl_used_0 0.981732 # fraction of swpipl calls that actually changed the ipl system.cpu.kern.ipl_used_21 1 # fraction of swpipl calls that actually changed the ipl system.cpu.kern.ipl_used_22 1 # fraction of swpipl calls that actually changed the ipl -system.cpu.kern.ipl_used_31 0.695537 # fraction of swpipl calls that actually changed the ipl +system.cpu.kern.ipl_used_31 0.695521 # fraction of swpipl calls that actually changed the ipl system.cpu.kern.mode_good_kernel 1909 system.cpu.kern.mode_good_user 1738 system.cpu.kern.mode_good_idle 171 -system.cpu.kern.mode_switch_kernel 5948 # number of protection mode switches +system.cpu.kern.mode_switch_kernel 5949 # number of protection mode switches system.cpu.kern.mode_switch_user 1738 # number of protection mode switches system.cpu.kern.mode_switch_idle 2097 # number of protection mode switches -system.cpu.kern.mode_switch_good 1.402493 # fraction of useful protection mode switches -system.cpu.kern.mode_switch_good_kernel 0.320948 # fraction of useful protection mode switches +system.cpu.kern.mode_switch_good 1.402439 # fraction of useful protection mode switches +system.cpu.kern.mode_switch_good_kernel 0.320894 # fraction of useful protection mode switches system.cpu.kern.mode_switch_good_user 1 # fraction of useful protection mode switches system.cpu.kern.mode_switch_good_idle 0.081545 # fraction of useful protection mode switches -system.cpu.kern.mode_ticks_kernel 26834029500 1.47% 1.47% # number of ticks spent at the given mode +system.cpu.kern.mode_ticks_kernel 26834202500 1.47% 1.47% # number of ticks spent at the given mode system.cpu.kern.mode_ticks_user 1465074000 0.08% 1.55% # number of ticks spent at the given mode -system.cpu.kern.mode_ticks_idle 1800056383500 98.45% 100.00% # number of ticks spent at the given mode +system.cpu.kern.mode_ticks_idle 1801032773000 98.45% 100.00% # number of ticks spent at the given mode system.cpu.kern.swap_context 4178 # number of times the context was actually changed system.cpu.kern.syscall 326 # number of syscalls executed system.cpu.kern.syscall_2 8 2.45% 2.45% # number of syscalls executed @@ -233,10 +233,10 @@ system.cpu.kern.syscall_98 2 0.61% 97.55% # nu system.cpu.kern.syscall_132 4 1.23% 98.77% # number of syscalls executed system.cpu.kern.syscall_144 2 0.61% 99.39% # number of syscalls executed system.cpu.kern.syscall_147 2 0.61% 100.00% # number of syscalls executed -system.cpu.not_idle_fraction 0.016412 # Percentage of non-idle cycles -system.cpu.numCycles 3656711283 # number of cpu cycles simulated -system.cpu.num_insts 59995351 # Number of instructions executed -system.cpu.num_refs 16302128 # Number of memory references +system.cpu.not_idle_fraction 0.016415 # Percentage of non-idle cycles +system.cpu.numCycles 3658664408 # number of cpu cycles simulated +system.cpu.num_insts 60038305 # Number of instructions executed +system.cpu.num_refs 16311238 # Number of memory references system.disk0.dma_read_bytes 1024 # Number of bytes transfered via DMA reads (not PRD). system.disk0.dma_read_full_pages 0 # Number of full page size DMA reads (not PRD). system.disk0.dma_read_txs 1 # Number of DMA read transactions (not PRD). @@ -303,37 +303,37 @@ system.iocache.prefetcher.num_hwpf_squashed_from_miss 0 system.iocache.replacements 41686 # number of replacements system.iocache.sampled_refs 41702 # Sample count of references to valid blocks. system.iocache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.iocache.tagsinuse 1.226225 # Cycle average of tags in use +system.iocache.tagsinuse 1.225570 # Cycle average of tags in use system.iocache.total_refs 0 # Total number of references to valid blocks. -system.iocache.warmup_cycle 1684804097017 # Cycle when the warmup percentage was hit. +system.iocache.warmup_cycle 1685780659017 # Cycle when the warmup percentage was hit. system.iocache.writebacks 41512 # number of writebacks -system.l2c.ReadExReq_accesses 304347 # number of ReadExReq accesses(hits+misses) +system.l2c.ReadExReq_accesses 304346 # number of ReadExReq accesses(hits+misses) system.l2c.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses -system.l2c.ReadExReq_misses 304347 # number of ReadExReq misses -system.l2c.ReadReq_accesses 2658883 # number of ReadReq accesses(hits+misses) -system.l2c.ReadReq_hits 1696464 # number of ReadReq hits -system.l2c.ReadReq_miss_rate 0.361964 # miss rate for ReadReq accesses +system.l2c.ReadExReq_misses 304346 # number of ReadExReq misses +system.l2c.ReadReq_accesses 2659071 # number of ReadReq accesses(hits+misses) +system.l2c.ReadReq_hits 1696652 # number of ReadReq hits +system.l2c.ReadReq_miss_rate 0.361938 # miss rate for ReadReq accesses system.l2c.ReadReq_misses 962419 # number of ReadReq misses -system.l2c.UpgradeReq_accesses 124943 # number of UpgradeReq accesses(hits+misses) +system.l2c.UpgradeReq_accesses 124945 # number of UpgradeReq accesses(hits+misses) system.l2c.UpgradeReq_miss_rate 1 # miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_misses 124943 # number of UpgradeReq misses -system.l2c.Writeback_accesses 428892 # number of Writeback accesses(hits+misses) -system.l2c.Writeback_hits 428892 # number of Writeback hits +system.l2c.UpgradeReq_misses 124945 # number of UpgradeReq misses +system.l2c.Writeback_accesses 428893 # number of Writeback accesses(hits+misses) +system.l2c.Writeback_hits 428893 # number of Writeback hits system.l2c.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.l2c.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.l2c.avg_refs 1.726803 # Average number of references to valid blocks. +system.l2c.avg_refs 1.727246 # Average number of references to valid blocks. system.l2c.blocked_no_mshrs 0 # number of cycles access was blocked system.l2c.blocked_no_targets 0 # number of cycles access was blocked system.l2c.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.l2c.blocked_cycles_no_targets 0 # number of cycles access was blocked system.l2c.cache_copies 0 # number of cache copies performed -system.l2c.demand_accesses 2963230 # number of demand (read+write) accesses +system.l2c.demand_accesses 2963417 # number of demand (read+write) accesses system.l2c.demand_avg_miss_latency 0 # average overall miss latency system.l2c.demand_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency -system.l2c.demand_hits 1696464 # number of demand (read+write) hits +system.l2c.demand_hits 1696652 # number of demand (read+write) hits system.l2c.demand_miss_latency 0 # number of demand (read+write) miss cycles -system.l2c.demand_miss_rate 0.427495 # miss rate for demand accesses -system.l2c.demand_misses 1266766 # number of demand (read+write) misses +system.l2c.demand_miss_rate 0.427468 # miss rate for demand accesses +system.l2c.demand_misses 1266765 # number of demand (read+write) misses system.l2c.demand_mshr_hits 0 # number of demand (read+write) MSHR hits system.l2c.demand_mshr_miss_latency 0 # number of demand (read+write) MSHR miss cycles system.l2c.demand_mshr_miss_rate 0 # mshr miss rate for demand accesses @@ -341,14 +341,14 @@ system.l2c.demand_mshr_misses 0 # nu system.l2c.fast_writes 0 # number of fast writes performed system.l2c.mshr_cap_events 0 # number of times MSHR cap was activated system.l2c.no_allocate_misses 0 # Number of misses that were no-allocate -system.l2c.overall_accesses 2963230 # number of overall (read+write) accesses +system.l2c.overall_accesses 2963417 # number of overall (read+write) accesses system.l2c.overall_avg_miss_latency 0 # average overall miss latency system.l2c.overall_avg_mshr_miss_latency <err: div-0> # average overall mshr miss latency system.l2c.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency -system.l2c.overall_hits 1696464 # number of overall hits +system.l2c.overall_hits 1696652 # number of overall hits system.l2c.overall_miss_latency 0 # number of overall miss cycles -system.l2c.overall_miss_rate 0.427495 # miss rate for overall accesses -system.l2c.overall_misses 1266766 # number of overall misses +system.l2c.overall_miss_rate 0.427468 # miss rate for overall accesses +system.l2c.overall_misses 1266765 # number of overall misses system.l2c.overall_mshr_hits 0 # number of overall MSHR hits system.l2c.overall_mshr_miss_latency 0 # number of overall MSHR miss cycles system.l2c.overall_mshr_miss_rate 0 # mshr miss rate for overall accesses @@ -364,13 +364,13 @@ system.l2c.prefetcher.num_hwpf_issued 0 # nu system.l2c.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.l2c.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.l2c.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.l2c.replacements 1050731 # number of replacements -system.l2c.sampled_refs 1081071 # Sample count of references to valid blocks. +system.l2c.replacements 1050724 # number of replacements +system.l2c.sampled_refs 1081067 # Sample count of references to valid blocks. system.l2c.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.l2c.tagsinuse 30223.992851 # Cycle average of tags in use -system.l2c.total_refs 1866797 # Total number of references to valid blocks. +system.l2c.tagsinuse 30228.585605 # Cycle average of tags in use +system.l2c.total_refs 1867269 # Total number of references to valid blocks. system.l2c.warmup_cycle 765422500 # Cycle when the warmup percentage was hit. -system.l2c.writebacks 119150 # number of writebacks +system.l2c.writebacks 119147 # number of writebacks system.tsunami.ethernet.coalescedRxDesc <err: div-0> # average number of RxDesc's coalesced into each post system.tsunami.ethernet.coalescedRxIdle <err: div-0> # average number of RxIdle's coalesced into each post system.tsunami.ethernet.coalescedRxOk <err: div-0> # average number of RxOk's coalesced into each post diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/system.terminal b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/system.terminal index 7930e9e46..f17158b67 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/system.terminal +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/system.terminal @@ -55,6 +55,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000
loop: loaded (max 8 devices)
nbd: registered device at major 43
ns83820.c: National Semiconductor DP83820 10/100/1000 driver. +
PCI: Setting latency timer of device 0000:00:01.0 to 64
eth0: ns83820.c: 0x22c: 00000000, subsystem: 0000:0000
eth0: enabling optical transceiver
eth0: using 64 bit addressing. @@ -66,6 +67,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000
PIIX4: IDE controller at PCI slot 0000:00:00.0
PIIX4: chipset revision 0
PIIX4: 100% native mode on irq 31 +
PCI: Setting latency timer of device 0000:00:00.0 to 64
ide0: BM-DMA at 0x8400-0x8407, BIOS settings: hda:DMA, hdb:DMA
ide1: BM-DMA at 0x8408-0x840f, BIOS settings: hdc:DMA, hdd:DMA
hda: M5 IDE Disk, ATA DISK drive diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/simout b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/simout index 06723d964..9f8bf8070 100755 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/simout +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/simout @@ -5,12 +5,12 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Dec 4 2008 21:30:58 -M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652 -M5 commit date Thu Dec 04 18:04:32 2008 -0500 -M5 started Dec 4 2008 21:38:12 -M5 executing on zizzer -command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-timing-dual -re --stdout-file stdout --stderr-file stderr tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-timing-dual +M5 compiled Dec 14 2008 21:47:07 +M5 revision 5776:07905796d7bea4187139808b7de687a99cbc3141 +M5 commit date Sun Dec 14 21:45:15 2008 -0800 +M5 started Dec 14 2008 21:47:52 +M5 executing on tater +command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-timing-dual -re tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-timing-dual Global frequency set at 1000000000000 ticks per second info: Entering event queue @ 0. Starting simulation... -Exiting @ tick 1972135479000 because m5_exit instruction encountered +Exiting @ tick 1972135461000 because m5_exit instruction encountered diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stats.txt b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stats.txt index 39aa94315..2f2449fdc 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stats.txt +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stats.txt @@ -1,92 +1,92 @@ ---------- Begin Simulation Statistics ---------- -host_inst_rate 1388930 # Simulator instruction rate (inst/s) -host_mem_usage 287800 # Number of bytes of host memory used -host_seconds 42.75 # Real time elapsed on the host -host_tick_rate 46129218174 # Simulator tick rate (ticks/s) +host_inst_rate 741695 # Simulator instruction rate (inst/s) +host_mem_usage 289172 # Number of bytes of host memory used +host_seconds 80.11 # Real time elapsed on the host +host_tick_rate 24616375840 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks -sim_insts 59379829 # Number of instructions simulated +sim_insts 59420593 # Number of instructions simulated sim_seconds 1.972135 # Number of seconds simulated -sim_ticks 1972135479000 # Number of ticks simulated -system.cpu0.dcache.LoadLockedReq_accesses 192618 # number of LoadLockedReq accesses(hits+misses) -system.cpu0.dcache.LoadLockedReq_avg_miss_latency 14266.203842 # average LoadLockedReq miss latency -system.cpu0.dcache.LoadLockedReq_avg_mshr_miss_latency 11266.203842 # average LoadLockedReq mshr miss latency -system.cpu0.dcache.LoadLockedReq_hits 175909 # number of LoadLockedReq hits -system.cpu0.dcache.LoadLockedReq_miss_latency 238374000 # number of LoadLockedReq miss cycles -system.cpu0.dcache.LoadLockedReq_miss_rate 0.086747 # miss rate for LoadLockedReq accesses -system.cpu0.dcache.LoadLockedReq_misses 16709 # number of LoadLockedReq misses +sim_ticks 1972135461000 # Number of ticks simulated +system.cpu0.dcache.LoadLockedReq_accesses 192630 # number of LoadLockedReq accesses(hits+misses) +system.cpu0.dcache.LoadLockedReq_avg_miss_latency 14259.465279 # average LoadLockedReq miss latency +system.cpu0.dcache.LoadLockedReq_avg_mshr_miss_latency 11259.465279 # average LoadLockedReq mshr miss latency +system.cpu0.dcache.LoadLockedReq_hits 175911 # number of LoadLockedReq hits +system.cpu0.dcache.LoadLockedReq_miss_latency 238404000 # number of LoadLockedReq miss cycles +system.cpu0.dcache.LoadLockedReq_miss_rate 0.086793 # miss rate for LoadLockedReq accesses +system.cpu0.dcache.LoadLockedReq_misses 16719 # number of LoadLockedReq misses system.cpu0.dcache.LoadLockedReq_mshr_miss_latency 188247000 # number of LoadLockedReq MSHR miss cycles -system.cpu0.dcache.LoadLockedReq_mshr_miss_rate 0.086747 # mshr miss rate for LoadLockedReq accesses -system.cpu0.dcache.LoadLockedReq_mshr_misses 16709 # number of LoadLockedReq MSHR misses -system.cpu0.dcache.ReadReq_accesses 8482392 # number of ReadReq accesses(hits+misses) -system.cpu0.dcache.ReadReq_avg_miss_latency 25694.187455 # average ReadReq miss latency -system.cpu0.dcache.ReadReq_avg_mshr_miss_latency 22694.147984 # average ReadReq mshr miss latency +system.cpu0.dcache.LoadLockedReq_mshr_miss_rate 0.086793 # mshr miss rate for LoadLockedReq accesses +system.cpu0.dcache.LoadLockedReq_mshr_misses 16719 # number of LoadLockedReq MSHR misses +system.cpu0.dcache.ReadReq_accesses 8488393 # number of ReadReq accesses(hits+misses) +system.cpu0.dcache.ReadReq_avg_miss_latency 25694.266311 # average ReadReq miss latency +system.cpu0.dcache.ReadReq_avg_mshr_miss_latency 22694.226839 # average ReadReq mshr miss latency system.cpu0.dcache.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.cpu0.dcache.ReadReq_hits 7443656 # number of ReadReq hits -system.cpu0.dcache.ReadReq_miss_latency 26689477500 # number of ReadReq miss cycles -system.cpu0.dcache.ReadReq_miss_rate 0.122458 # miss rate for ReadReq accesses -system.cpu0.dcache.ReadReq_misses 1038736 # number of ReadReq misses -system.cpu0.dcache.ReadReq_mshr_miss_latency 23573228500 # number of ReadReq MSHR miss cycles -system.cpu0.dcache.ReadReq_mshr_miss_rate 0.122458 # mshr miss rate for ReadReq accesses -system.cpu0.dcache.ReadReq_mshr_misses 1038736 # number of ReadReq MSHR misses -system.cpu0.dcache.ReadReq_mshr_uncacheable_latency 868701000 # number of ReadReq MSHR uncacheable cycles -system.cpu0.dcache.StoreCondReq_accesses 191654 # number of StoreCondReq accesses(hits+misses) -system.cpu0.dcache.StoreCondReq_avg_miss_latency 55352.322833 # average StoreCondReq miss latency -system.cpu0.dcache.StoreCondReq_avg_mshr_miss_latency 52352.322833 # average StoreCondReq mshr miss latency -system.cpu0.dcache.StoreCondReq_hits 163305 # number of StoreCondReq hits -system.cpu0.dcache.StoreCondReq_miss_latency 1569183000 # number of StoreCondReq miss cycles -system.cpu0.dcache.StoreCondReq_miss_rate 0.147918 # miss rate for StoreCondReq accesses -system.cpu0.dcache.StoreCondReq_misses 28349 # number of StoreCondReq misses -system.cpu0.dcache.StoreCondReq_mshr_miss_latency 1484136000 # number of StoreCondReq MSHR miss cycles -system.cpu0.dcache.StoreCondReq_mshr_miss_rate 0.147918 # mshr miss rate for StoreCondReq accesses -system.cpu0.dcache.StoreCondReq_mshr_misses 28349 # number of StoreCondReq MSHR misses -system.cpu0.dcache.WriteReq_accesses 5845269 # number of WriteReq accesses(hits+misses) -system.cpu0.dcache.WriteReq_avg_miss_latency 55891.595936 # average WriteReq miss latency -system.cpu0.dcache.WriteReq_avg_mshr_miss_latency 52891.595936 # average WriteReq mshr miss latency +system.cpu0.dcache.ReadReq_hits 7449690 # number of ReadReq hits +system.cpu0.dcache.ReadReq_miss_latency 26688711500 # number of ReadReq miss cycles +system.cpu0.dcache.ReadReq_miss_rate 0.122367 # miss rate for ReadReq accesses +system.cpu0.dcache.ReadReq_misses 1038703 # number of ReadReq misses +system.cpu0.dcache.ReadReq_mshr_miss_latency 23572561500 # number of ReadReq MSHR miss cycles +system.cpu0.dcache.ReadReq_mshr_miss_rate 0.122367 # mshr miss rate for ReadReq accesses +system.cpu0.dcache.ReadReq_mshr_misses 1038703 # number of ReadReq MSHR misses +system.cpu0.dcache.ReadReq_mshr_uncacheable_latency 883604000 # number of ReadReq MSHR uncacheable cycles +system.cpu0.dcache.StoreCondReq_accesses 191666 # number of StoreCondReq accesses(hits+misses) +system.cpu0.dcache.StoreCondReq_avg_miss_latency 55344.484086 # average StoreCondReq miss latency +system.cpu0.dcache.StoreCondReq_avg_mshr_miss_latency 52344.484086 # average StoreCondReq mshr miss latency +system.cpu0.dcache.StoreCondReq_hits 163357 # number of StoreCondReq hits +system.cpu0.dcache.StoreCondReq_miss_latency 1566747000 # number of StoreCondReq miss cycles +system.cpu0.dcache.StoreCondReq_miss_rate 0.147700 # miss rate for StoreCondReq accesses +system.cpu0.dcache.StoreCondReq_misses 28309 # number of StoreCondReq misses +system.cpu0.dcache.StoreCondReq_mshr_miss_latency 1481820000 # number of StoreCondReq MSHR miss cycles +system.cpu0.dcache.StoreCondReq_mshr_miss_rate 0.147700 # mshr miss rate for StoreCondReq accesses +system.cpu0.dcache.StoreCondReq_mshr_misses 28309 # number of StoreCondReq MSHR misses +system.cpu0.dcache.WriteReq_accesses 5847430 # number of WriteReq accesses(hits+misses) +system.cpu0.dcache.WriteReq_avg_miss_latency 55891.373878 # average WriteReq miss latency +system.cpu0.dcache.WriteReq_avg_mshr_miss_latency 52891.373878 # average WriteReq mshr miss latency system.cpu0.dcache.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.cpu0.dcache.WriteReq_hits 5466012 # number of WriteReq hits -system.cpu0.dcache.WriteReq_miss_latency 21197279000 # number of WriteReq miss cycles -system.cpu0.dcache.WriteReq_miss_rate 0.064883 # miss rate for WriteReq accesses -system.cpu0.dcache.WriteReq_misses 379257 # number of WriteReq misses -system.cpu0.dcache.WriteReq_mshr_miss_latency 20059508000 # number of WriteReq MSHR miss cycles -system.cpu0.dcache.WriteReq_mshr_miss_rate 0.064883 # mshr miss rate for WriteReq accesses -system.cpu0.dcache.WriteReq_mshr_misses 379257 # number of WriteReq MSHR misses -system.cpu0.dcache.WriteReq_mshr_uncacheable_latency 1225890000 # number of WriteReq MSHR uncacheable cycles +system.cpu0.dcache.WriteReq_hits 5468175 # number of WriteReq hits +system.cpu0.dcache.WriteReq_miss_latency 21197083000 # number of WriteReq miss cycles +system.cpu0.dcache.WriteReq_miss_rate 0.064858 # miss rate for WriteReq accesses +system.cpu0.dcache.WriteReq_misses 379255 # number of WriteReq misses +system.cpu0.dcache.WriteReq_mshr_miss_latency 20059318000 # number of WriteReq MSHR miss cycles +system.cpu0.dcache.WriteReq_mshr_miss_rate 0.064858 # mshr miss rate for WriteReq accesses +system.cpu0.dcache.WriteReq_mshr_misses 379255 # number of WriteReq MSHR misses +system.cpu0.dcache.WriteReq_mshr_uncacheable_latency 1240870000 # number of WriteReq MSHR uncacheable cycles system.cpu0.dcache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.cpu0.dcache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.cpu0.dcache.avg_refs 9.984583 # Average number of references to valid blocks. +system.cpu0.dcache.avg_refs 9.990826 # Average number of references to valid blocks. system.cpu0.dcache.blocked_no_mshrs 0 # number of cycles access was blocked system.cpu0.dcache.blocked_no_targets 0 # number of cycles access was blocked system.cpu0.dcache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.cpu0.dcache.blocked_cycles_no_targets 0 # number of cycles access was blocked system.cpu0.dcache.cache_copies 0 # number of cache copies performed -system.cpu0.dcache.demand_accesses 14327661 # number of demand (read+write) accesses -system.cpu0.dcache.demand_avg_miss_latency 33770.798939 # average overall miss latency -system.cpu0.dcache.demand_avg_mshr_miss_latency 30770.770025 # average overall mshr miss latency -system.cpu0.dcache.demand_hits 12909668 # number of demand (read+write) hits -system.cpu0.dcache.demand_miss_latency 47886756500 # number of demand (read+write) miss cycles -system.cpu0.dcache.demand_miss_rate 0.098969 # miss rate for demand accesses -system.cpu0.dcache.demand_misses 1417993 # number of demand (read+write) misses +system.cpu0.dcache.demand_accesses 14335823 # number of demand (read+write) accesses +system.cpu0.dcache.demand_avg_miss_latency 33770.954076 # average overall miss latency +system.cpu0.dcache.demand_avg_mshr_miss_latency 30770.925161 # average overall mshr miss latency +system.cpu0.dcache.demand_hits 12917865 # number of demand (read+write) hits +system.cpu0.dcache.demand_miss_latency 47885794500 # number of demand (read+write) miss cycles +system.cpu0.dcache.demand_miss_rate 0.098910 # miss rate for demand accesses +system.cpu0.dcache.demand_misses 1417958 # number of demand (read+write) misses system.cpu0.dcache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits -system.cpu0.dcache.demand_mshr_miss_latency 43632736500 # number of demand (read+write) MSHR miss cycles -system.cpu0.dcache.demand_mshr_miss_rate 0.098969 # mshr miss rate for demand accesses -system.cpu0.dcache.demand_mshr_misses 1417993 # number of demand (read+write) MSHR misses +system.cpu0.dcache.demand_mshr_miss_latency 43631879500 # number of demand (read+write) MSHR miss cycles +system.cpu0.dcache.demand_mshr_miss_rate 0.098910 # mshr miss rate for demand accesses +system.cpu0.dcache.demand_mshr_misses 1417958 # number of demand (read+write) MSHR misses system.cpu0.dcache.fast_writes 0 # number of fast writes performed system.cpu0.dcache.mshr_cap_events 0 # number of times MSHR cap was activated system.cpu0.dcache.no_allocate_misses 0 # Number of misses that were no-allocate -system.cpu0.dcache.overall_accesses 14327661 # number of overall (read+write) accesses -system.cpu0.dcache.overall_avg_miss_latency 33770.798939 # average overall miss latency -system.cpu0.dcache.overall_avg_mshr_miss_latency 30770.770025 # average overall mshr miss latency +system.cpu0.dcache.overall_accesses 14335823 # number of overall (read+write) accesses +system.cpu0.dcache.overall_avg_miss_latency 33770.954076 # average overall miss latency +system.cpu0.dcache.overall_avg_mshr_miss_latency 30770.925161 # average overall mshr miss latency system.cpu0.dcache.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.cpu0.dcache.overall_hits 12909668 # number of overall hits -system.cpu0.dcache.overall_miss_latency 47886756500 # number of overall miss cycles -system.cpu0.dcache.overall_miss_rate 0.098969 # miss rate for overall accesses -system.cpu0.dcache.overall_misses 1417993 # number of overall misses +system.cpu0.dcache.overall_hits 12917865 # number of overall hits +system.cpu0.dcache.overall_miss_latency 47885794500 # number of overall miss cycles +system.cpu0.dcache.overall_miss_rate 0.098910 # miss rate for overall accesses +system.cpu0.dcache.overall_misses 1417958 # number of overall misses system.cpu0.dcache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu0.dcache.overall_mshr_miss_latency 43632736500 # number of overall MSHR miss cycles -system.cpu0.dcache.overall_mshr_miss_rate 0.098969 # mshr miss rate for overall accesses -system.cpu0.dcache.overall_mshr_misses 1417993 # number of overall MSHR misses -system.cpu0.dcache.overall_mshr_uncacheable_latency 2094591000 # number of overall MSHR uncacheable cycles +system.cpu0.dcache.overall_mshr_miss_latency 43631879500 # number of overall MSHR miss cycles +system.cpu0.dcache.overall_mshr_miss_rate 0.098910 # mshr miss rate for overall accesses +system.cpu0.dcache.overall_mshr_misses 1417958 # number of overall MSHR misses +system.cpu0.dcache.overall_mshr_uncacheable_latency 2124474000 # number of overall MSHR uncacheable cycles system.cpu0.dcache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses system.cpu0.dcache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache system.cpu0.dcache.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr @@ -97,69 +97,69 @@ system.cpu0.dcache.prefetcher.num_hwpf_issued 0 system.cpu0.dcache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.cpu0.dcache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.cpu0.dcache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.cpu0.dcache.replacements 1338626 # number of replacements -system.cpu0.dcache.sampled_refs 1339138 # Sample count of references to valid blocks. +system.cpu0.dcache.replacements 1338610 # number of replacements +system.cpu0.dcache.sampled_refs 1339122 # Sample count of references to valid blocks. system.cpu0.dcache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.cpu0.dcache.tagsinuse 503.746259 # Cycle average of tags in use -system.cpu0.dcache.total_refs 13370734 # Total number of references to valid blocks. +system.cpu0.dcache.tagsinuse 503.609177 # Cycle average of tags in use +system.cpu0.dcache.total_refs 13378935 # Total number of references to valid blocks. system.cpu0.dcache.warmup_cycle 84055000 # Cycle when the warmup percentage was hit. -system.cpu0.dcache.writebacks 403562 # number of writebacks +system.cpu0.dcache.writebacks 403520 # number of writebacks system.cpu0.dtb.accesses 719860 # DTB accesses system.cpu0.dtb.acv 289 # DTB access violations -system.cpu0.dtb.hits 14696400 # DTB hits +system.cpu0.dtb.hits 14704826 # DTB hits system.cpu0.dtb.misses 8485 # DTB misses system.cpu0.dtb.read_accesses 524201 # DTB read accesses system.cpu0.dtb.read_acv 174 # DTB read access violations -system.cpu0.dtb.read_hits 8658591 # DTB read hits +system.cpu0.dtb.read_hits 8664724 # DTB read hits system.cpu0.dtb.read_misses 7687 # DTB read misses system.cpu0.dtb.write_accesses 195659 # DTB write accesses system.cpu0.dtb.write_acv 115 # DTB write access violations -system.cpu0.dtb.write_hits 6037809 # DTB write hits +system.cpu0.dtb.write_hits 6040102 # DTB write hits system.cpu0.dtb.write_misses 798 # DTB write misses -system.cpu0.icache.ReadReq_accesses 54124252 # number of ReadReq accesses(hits+misses) -system.cpu0.icache.ReadReq_avg_miss_latency 14681.475669 # average ReadReq miss latency -system.cpu0.icache.ReadReq_avg_mshr_miss_latency 11680.724759 # average ReadReq mshr miss latency -system.cpu0.icache.ReadReq_hits 53208030 # number of ReadReq hits -system.cpu0.icache.ReadReq_miss_latency 13451491000 # number of ReadReq miss cycles -system.cpu0.icache.ReadReq_miss_rate 0.016928 # miss rate for ReadReq accesses -system.cpu0.icache.ReadReq_misses 916222 # number of ReadReq misses -system.cpu0.icache.ReadReq_mshr_miss_latency 10702137000 # number of ReadReq MSHR miss cycles -system.cpu0.icache.ReadReq_mshr_miss_rate 0.016928 # mshr miss rate for ReadReq accesses -system.cpu0.icache.ReadReq_mshr_misses 916222 # number of ReadReq MSHR misses +system.cpu0.icache.ReadReq_accesses 54164416 # number of ReadReq accesses(hits+misses) +system.cpu0.icache.ReadReq_avg_miss_latency 14681.637172 # average ReadReq miss latency +system.cpu0.icache.ReadReq_avg_mshr_miss_latency 11680.885800 # average ReadReq mshr miss latency +system.cpu0.icache.ReadReq_hits 53248092 # number of ReadReq hits +system.cpu0.icache.ReadReq_miss_latency 13453136500 # number of ReadReq miss cycles +system.cpu0.icache.ReadReq_miss_rate 0.016917 # miss rate for ReadReq accesses +system.cpu0.icache.ReadReq_misses 916324 # number of ReadReq misses +system.cpu0.icache.ReadReq_mshr_miss_latency 10703476000 # number of ReadReq MSHR miss cycles +system.cpu0.icache.ReadReq_mshr_miss_rate 0.016917 # mshr miss rate for ReadReq accesses +system.cpu0.icache.ReadReq_mshr_misses 916324 # number of ReadReq MSHR misses system.cpu0.icache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.cpu0.icache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.cpu0.icache.avg_refs 58.081472 # Average number of references to valid blocks. +system.cpu0.icache.avg_refs 58.118732 # Average number of references to valid blocks. system.cpu0.icache.blocked_no_mshrs 0 # number of cycles access was blocked system.cpu0.icache.blocked_no_targets 0 # number of cycles access was blocked system.cpu0.icache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.cpu0.icache.blocked_cycles_no_targets 0 # number of cycles access was blocked system.cpu0.icache.cache_copies 0 # number of cache copies performed -system.cpu0.icache.demand_accesses 54124252 # number of demand (read+write) accesses -system.cpu0.icache.demand_avg_miss_latency 14681.475669 # average overall miss latency -system.cpu0.icache.demand_avg_mshr_miss_latency 11680.724759 # average overall mshr miss latency -system.cpu0.icache.demand_hits 53208030 # number of demand (read+write) hits -system.cpu0.icache.demand_miss_latency 13451491000 # number of demand (read+write) miss cycles -system.cpu0.icache.demand_miss_rate 0.016928 # miss rate for demand accesses -system.cpu0.icache.demand_misses 916222 # number of demand (read+write) misses +system.cpu0.icache.demand_accesses 54164416 # number of demand (read+write) accesses +system.cpu0.icache.demand_avg_miss_latency 14681.637172 # average overall miss latency +system.cpu0.icache.demand_avg_mshr_miss_latency 11680.885800 # average overall mshr miss latency +system.cpu0.icache.demand_hits 53248092 # number of demand (read+write) hits +system.cpu0.icache.demand_miss_latency 13453136500 # number of demand (read+write) miss cycles +system.cpu0.icache.demand_miss_rate 0.016917 # miss rate for demand accesses +system.cpu0.icache.demand_misses 916324 # number of demand (read+write) misses system.cpu0.icache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits -system.cpu0.icache.demand_mshr_miss_latency 10702137000 # number of demand (read+write) MSHR miss cycles -system.cpu0.icache.demand_mshr_miss_rate 0.016928 # mshr miss rate for demand accesses -system.cpu0.icache.demand_mshr_misses 916222 # number of demand (read+write) MSHR misses +system.cpu0.icache.demand_mshr_miss_latency 10703476000 # number of demand (read+write) MSHR miss cycles +system.cpu0.icache.demand_mshr_miss_rate 0.016917 # mshr miss rate for demand accesses +system.cpu0.icache.demand_mshr_misses 916324 # number of demand (read+write) MSHR misses system.cpu0.icache.fast_writes 0 # number of fast writes performed system.cpu0.icache.mshr_cap_events 0 # number of times MSHR cap was activated system.cpu0.icache.no_allocate_misses 0 # Number of misses that were no-allocate -system.cpu0.icache.overall_accesses 54124252 # number of overall (read+write) accesses -system.cpu0.icache.overall_avg_miss_latency 14681.475669 # average overall miss latency -system.cpu0.icache.overall_avg_mshr_miss_latency 11680.724759 # average overall mshr miss latency +system.cpu0.icache.overall_accesses 54164416 # number of overall (read+write) accesses +system.cpu0.icache.overall_avg_miss_latency 14681.637172 # average overall miss latency +system.cpu0.icache.overall_avg_mshr_miss_latency 11680.885800 # average overall mshr miss latency system.cpu0.icache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency -system.cpu0.icache.overall_hits 53208030 # number of overall hits -system.cpu0.icache.overall_miss_latency 13451491000 # number of overall miss cycles -system.cpu0.icache.overall_miss_rate 0.016928 # miss rate for overall accesses -system.cpu0.icache.overall_misses 916222 # number of overall misses +system.cpu0.icache.overall_hits 53248092 # number of overall hits +system.cpu0.icache.overall_miss_latency 13453136500 # number of overall miss cycles +system.cpu0.icache.overall_miss_rate 0.016917 # miss rate for overall accesses +system.cpu0.icache.overall_misses 916324 # number of overall misses system.cpu0.icache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu0.icache.overall_mshr_miss_latency 10702137000 # number of overall MSHR miss cycles -system.cpu0.icache.overall_mshr_miss_rate 0.016928 # mshr miss rate for overall accesses -system.cpu0.icache.overall_mshr_misses 916222 # number of overall MSHR misses +system.cpu0.icache.overall_mshr_miss_latency 10703476000 # number of overall MSHR miss cycles +system.cpu0.icache.overall_mshr_miss_rate 0.016917 # mshr miss rate for overall accesses +system.cpu0.icache.overall_mshr_misses 916324 # number of overall MSHR misses system.cpu0.icache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles system.cpu0.icache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses system.cpu0.icache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache @@ -171,19 +171,19 @@ system.cpu0.icache.prefetcher.num_hwpf_issued 0 system.cpu0.icache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.cpu0.icache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.cpu0.icache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.cpu0.icache.replacements 915582 # number of replacements -system.cpu0.icache.sampled_refs 916093 # Sample count of references to valid blocks. +system.cpu0.icache.replacements 915684 # number of replacements +system.cpu0.icache.sampled_refs 916195 # Sample count of references to valid blocks. system.cpu0.icache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.cpu0.icache.tagsinuse 508.642784 # Cycle average of tags in use -system.cpu0.icache.total_refs 53208030 # Total number of references to valid blocks. +system.cpu0.icache.tagsinuse 508.642782 # Cycle average of tags in use +system.cpu0.icache.total_refs 53248092 # Total number of references to valid blocks. system.cpu0.icache.warmup_cycle 39455749000 # Cycle when the warmup percentage was hit. system.cpu0.icache.writebacks 0 # number of writebacks -system.cpu0.idle_fraction 0.933199 # Percentage of idle cycles -system.cpu0.itb.accesses 3953623 # ITB accesses +system.cpu0.idle_fraction 0.933160 # Percentage of idle cycles +system.cpu0.itb.accesses 3953747 # ITB accesses system.cpu0.itb.acv 143 # ITB acv -system.cpu0.itb.hits 3949782 # ITB hits +system.cpu0.itb.hits 3949906 # ITB hits system.cpu0.itb.misses 3841 # ITB misses -system.cpu0.kern.callpal 187998 # number of callpals executed +system.cpu0.kern.callpal 188012 # number of callpals executed system.cpu0.kern.callpal_cserve 1 0.00% 0.00% # number of callpals executed system.cpu0.kern.callpal_wripir 91 0.05% 0.05% # number of callpals executed system.cpu0.kern.callpal_wrmces 1 0.00% 0.05% # number of callpals executed @@ -191,8 +191,8 @@ system.cpu0.kern.callpal_wrfen 1 0.00% 0.05% # nu system.cpu0.kern.callpal_wrvptptr 1 0.00% 0.05% # number of callpals executed system.cpu0.kern.callpal_swpctx 3868 2.06% 2.11% # number of callpals executed system.cpu0.kern.callpal_tbi 44 0.02% 2.13% # number of callpals executed -system.cpu0.kern.callpal_wrent 7 0.00% 2.14% # number of callpals executed -system.cpu0.kern.callpal_swpipl 172054 91.52% 93.65% # number of callpals executed +system.cpu0.kern.callpal_wrent 7 0.00% 2.13% # number of callpals executed +system.cpu0.kern.callpal_swpipl 172068 91.52% 93.65% # number of callpals executed system.cpu0.kern.callpal_rdps 6698 3.56% 97.22% # number of callpals executed system.cpu0.kern.callpal_wrkgp 1 0.00% 97.22% # number of callpals executed system.cpu0.kern.callpal_wrusp 4 0.00% 97.22% # number of callpals executed @@ -202,43 +202,43 @@ system.cpu0.kern.callpal_rti 4713 2.51% 99.73% # nu system.cpu0.kern.callpal_callsys 356 0.19% 99.92% # number of callpals executed system.cpu0.kern.callpal_imb 149 0.08% 100.00% # number of callpals executed system.cpu0.kern.inst.arm 0 # number of arm instructions executed -system.cpu0.kern.inst.hwrei 202882 # number of hwrei instructions executed -system.cpu0.kern.inst.quiesce 6254 # number of quiesce instructions executed -system.cpu0.kern.ipl_count 178892 # number of times we switched to this ipl -system.cpu0.kern.ipl_count_0 72633 40.60% 40.60% # number of times we switched to this ipl -system.cpu0.kern.ipl_count_21 131 0.07% 40.67% # number of times we switched to this ipl +system.cpu0.kern.inst.hwrei 202896 # number of hwrei instructions executed +system.cpu0.kern.inst.quiesce 6369 # number of quiesce instructions executed +system.cpu0.kern.ipl_count 178906 # number of times we switched to this ipl +system.cpu0.kern.ipl_count_0 72641 40.60% 40.60% # number of times we switched to this ipl +system.cpu0.kern.ipl_count_21 131 0.07% 40.68% # number of times we switched to this ipl system.cpu0.kern.ipl_count_22 1987 1.11% 41.79% # number of times we switched to this ipl system.cpu0.kern.ipl_count_30 6 0.00% 41.79% # number of times we switched to this ipl -system.cpu0.kern.ipl_count_31 104135 58.21% 100.00% # number of times we switched to this ipl -system.cpu0.kern.ipl_good 144646 # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_good_0 71264 49.27% 49.27% # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_count_31 104141 58.21% 100.00% # number of times we switched to this ipl +system.cpu0.kern.ipl_good 144662 # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_good_0 71272 49.27% 49.27% # number of times we switched to this ipl from a different ipl system.cpu0.kern.ipl_good_21 131 0.09% 49.36% # number of times we switched to this ipl from a different ipl system.cpu0.kern.ipl_good_22 1987 1.37% 50.73% # number of times we switched to this ipl from a different ipl system.cpu0.kern.ipl_good_30 6 0.00% 50.74% # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_good_31 71258 49.26% 100.00% # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_ticks 1972134721000 # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_0 1908424308500 96.77% 96.77% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_21 96335500 0.00% 96.77% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_22 576469500 0.03% 96.80% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_30 5442500 0.00% 96.80% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_31 63032165000 3.20% 100.00% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_used_0 0.981152 # fraction of swpipl calls that actually changed the ipl +system.cpu0.kern.ipl_good_31 71266 49.26% 100.00% # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_ticks 1972134703000 # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_0 1908230091000 96.76% 96.76% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_21 96186500 0.00% 96.76% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_22 576952000 0.03% 96.79% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_30 5442500 0.00% 96.79% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_31 63226031000 3.21% 100.00% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_used_0 0.981154 # fraction of swpipl calls that actually changed the ipl system.cpu0.kern.ipl_used_21 1 # fraction of swpipl calls that actually changed the ipl system.cpu0.kern.ipl_used_22 1 # fraction of swpipl calls that actually changed the ipl system.cpu0.kern.ipl_used_30 1 # fraction of swpipl calls that actually changed the ipl -system.cpu0.kern.ipl_used_31 0.684285 # fraction of swpipl calls that actually changed the ipl -system.cpu0.kern.mode_good_kernel 1232 -system.cpu0.kern.mode_good_user 1233 +system.cpu0.kern.ipl_used_31 0.684322 # fraction of swpipl calls that actually changed the ipl +system.cpu0.kern.mode_good_kernel 1231 +system.cpu0.kern.mode_good_user 1232 system.cpu0.kern.mode_good_idle 0 system.cpu0.kern.mode_switch_kernel 7237 # number of protection mode switches -system.cpu0.kern.mode_switch_user 1233 # number of protection mode switches +system.cpu0.kern.mode_switch_user 1232 # number of protection mode switches system.cpu0.kern.mode_switch_idle 0 # number of protection mode switches system.cpu0.kern.mode_switch_good <err: div-0> # fraction of useful protection mode switches -system.cpu0.kern.mode_switch_good_kernel 0.170236 # fraction of useful protection mode switches +system.cpu0.kern.mode_switch_good_kernel 0.170098 # fraction of useful protection mode switches system.cpu0.kern.mode_switch_good_user 1 # fraction of useful protection mode switches system.cpu0.kern.mode_switch_good_idle <err: div-0> # fraction of useful protection mode switches -system.cpu0.kern.mode_ticks_kernel 1968330428000 99.81% 99.81% # number of ticks spent at the given mode -system.cpu0.kern.mode_ticks_user 3804291000 0.19% 100.00% # number of ticks spent at the given mode +system.cpu0.kern.mode_ticks_kernel 1968330503000 99.81% 99.81% # number of ticks spent at the given mode +system.cpu0.kern.mode_ticks_user 3804198000 0.19% 100.00% # number of ticks spent at the given mode system.cpu0.kern.mode_ticks_idle 0 0.00% 100.00% # number of ticks spent at the given mode system.cpu0.kern.swap_context 3869 # number of times the context was actually changed system.cpu0.kern.syscall 224 # number of syscalls executed @@ -272,89 +272,89 @@ system.cpu0.kern.syscall_98 2 0.89% 97.77% # nu system.cpu0.kern.syscall_132 2 0.89% 98.66% # number of syscalls executed system.cpu0.kern.syscall_144 1 0.45% 99.11% # number of syscalls executed system.cpu0.kern.syscall_147 2 0.89% 100.00% # number of syscalls executed -system.cpu0.not_idle_fraction 0.066801 # Percentage of non-idle cycles -system.cpu0.numCycles 3944270958 # number of cpu cycles simulated -system.cpu0.num_insts 54115477 # Number of instructions executed -system.cpu0.num_refs 14937789 # Number of memory references +system.cpu0.not_idle_fraction 0.066840 # Percentage of non-idle cycles +system.cpu0.numCycles 3944270922 # number of cpu cycles simulated +system.cpu0.num_insts 54155641 # Number of instructions executed +system.cpu0.num_refs 14946215 # Number of memory references system.cpu1.dcache.LoadLockedReq_accesses 12334 # number of LoadLockedReq accesses(hits+misses) -system.cpu1.dcache.LoadLockedReq_avg_miss_latency 13393.700787 # average LoadLockedReq miss latency -system.cpu1.dcache.LoadLockedReq_avg_mshr_miss_latency 10393.700787 # average LoadLockedReq mshr miss latency -system.cpu1.dcache.LoadLockedReq_hits 11318 # number of LoadLockedReq hits -system.cpu1.dcache.LoadLockedReq_miss_latency 13608000 # number of LoadLockedReq miss cycles -system.cpu1.dcache.LoadLockedReq_miss_rate 0.082374 # miss rate for LoadLockedReq accesses -system.cpu1.dcache.LoadLockedReq_misses 1016 # number of LoadLockedReq misses -system.cpu1.dcache.LoadLockedReq_mshr_miss_latency 10560000 # number of LoadLockedReq MSHR miss cycles -system.cpu1.dcache.LoadLockedReq_mshr_miss_rate 0.082374 # mshr miss rate for LoadLockedReq accesses -system.cpu1.dcache.LoadLockedReq_mshr_misses 1016 # number of LoadLockedReq MSHR misses -system.cpu1.dcache.ReadReq_accesses 1020508 # number of ReadReq accesses(hits+misses) -system.cpu1.dcache.ReadReq_avg_miss_latency 15788.930188 # average ReadReq miss latency -system.cpu1.dcache.ReadReq_avg_mshr_miss_latency 12788.832374 # average ReadReq mshr miss latency +system.cpu1.dcache.LoadLockedReq_avg_miss_latency 13303.501946 # average LoadLockedReq miss latency +system.cpu1.dcache.LoadLockedReq_avg_mshr_miss_latency 10303.501946 # average LoadLockedReq mshr miss latency +system.cpu1.dcache.LoadLockedReq_hits 11306 # number of LoadLockedReq hits +system.cpu1.dcache.LoadLockedReq_miss_latency 13676000 # number of LoadLockedReq miss cycles +system.cpu1.dcache.LoadLockedReq_miss_rate 0.083347 # miss rate for LoadLockedReq accesses +system.cpu1.dcache.LoadLockedReq_misses 1028 # number of LoadLockedReq misses +system.cpu1.dcache.LoadLockedReq_mshr_miss_latency 10592000 # number of LoadLockedReq MSHR miss cycles +system.cpu1.dcache.LoadLockedReq_mshr_miss_rate 0.083347 # mshr miss rate for LoadLockedReq accesses +system.cpu1.dcache.LoadLockedReq_mshr_misses 1028 # number of LoadLockedReq MSHR misses +system.cpu1.dcache.ReadReq_accesses 1020543 # number of ReadReq accesses(hits+misses) +system.cpu1.dcache.ReadReq_avg_miss_latency 15771.782317 # average ReadReq miss latency +system.cpu1.dcache.ReadReq_avg_mshr_miss_latency 12771.684387 # average ReadReq mshr miss latency system.cpu1.dcache.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.cpu1.dcache.ReadReq_hits 984726 # number of ReadReq hits -system.cpu1.dcache.ReadReq_miss_latency 564959500 # number of ReadReq miss cycles -system.cpu1.dcache.ReadReq_miss_rate 0.035063 # miss rate for ReadReq accesses -system.cpu1.dcache.ReadReq_misses 35782 # number of ReadReq misses -system.cpu1.dcache.ReadReq_mshr_miss_latency 457610000 # number of ReadReq MSHR miss cycles -system.cpu1.dcache.ReadReq_mshr_miss_rate 0.035063 # mshr miss rate for ReadReq accesses -system.cpu1.dcache.ReadReq_mshr_misses 35782 # number of ReadReq MSHR misses +system.cpu1.dcache.ReadReq_hits 984803 # number of ReadReq hits +system.cpu1.dcache.ReadReq_miss_latency 563683500 # number of ReadReq miss cycles +system.cpu1.dcache.ReadReq_miss_rate 0.035021 # miss rate for ReadReq accesses +system.cpu1.dcache.ReadReq_misses 35740 # number of ReadReq misses +system.cpu1.dcache.ReadReq_mshr_miss_latency 456460000 # number of ReadReq MSHR miss cycles +system.cpu1.dcache.ReadReq_mshr_miss_rate 0.035021 # mshr miss rate for ReadReq accesses +system.cpu1.dcache.ReadReq_mshr_misses 35740 # number of ReadReq MSHR misses system.cpu1.dcache.ReadReq_mshr_uncacheable_latency 12526000 # number of ReadReq MSHR uncacheable cycles -system.cpu1.dcache.StoreCondReq_accesses 12269 # number of StoreCondReq accesses(hits+misses) -system.cpu1.dcache.StoreCondReq_avg_miss_latency 46915.603129 # average StoreCondReq miss latency -system.cpu1.dcache.StoreCondReq_avg_mshr_miss_latency 43915.603129 # average StoreCondReq mshr miss latency -system.cpu1.dcache.StoreCondReq_hits 9840 # number of StoreCondReq hits -system.cpu1.dcache.StoreCondReq_miss_latency 113958000 # number of StoreCondReq miss cycles -system.cpu1.dcache.StoreCondReq_miss_rate 0.197979 # miss rate for StoreCondReq accesses -system.cpu1.dcache.StoreCondReq_misses 2429 # number of StoreCondReq misses -system.cpu1.dcache.StoreCondReq_mshr_miss_latency 106671000 # number of StoreCondReq MSHR miss cycles -system.cpu1.dcache.StoreCondReq_mshr_miss_rate 0.197979 # mshr miss rate for StoreCondReq accesses -system.cpu1.dcache.StoreCondReq_mshr_misses 2429 # number of StoreCondReq MSHR misses -system.cpu1.dcache.WriteReq_accesses 649988 # number of WriteReq accesses(hits+misses) -system.cpu1.dcache.WriteReq_avg_miss_latency 54642.103265 # average WriteReq miss latency -system.cpu1.dcache.WriteReq_avg_mshr_miss_latency 51642.103265 # average WriteReq mshr miss latency +system.cpu1.dcache.StoreCondReq_accesses 12270 # number of StoreCondReq accesses(hits+misses) +system.cpu1.dcache.StoreCondReq_avg_miss_latency 46841.453344 # average StoreCondReq miss latency +system.cpu1.dcache.StoreCondReq_avg_mshr_miss_latency 43841.453344 # average StoreCondReq mshr miss latency +system.cpu1.dcache.StoreCondReq_hits 9848 # number of StoreCondReq hits +system.cpu1.dcache.StoreCondReq_miss_latency 113450000 # number of StoreCondReq miss cycles +system.cpu1.dcache.StoreCondReq_miss_rate 0.197392 # miss rate for StoreCondReq accesses +system.cpu1.dcache.StoreCondReq_misses 2422 # number of StoreCondReq misses +system.cpu1.dcache.StoreCondReq_mshr_miss_latency 106184000 # number of StoreCondReq MSHR miss cycles +system.cpu1.dcache.StoreCondReq_mshr_miss_rate 0.197392 # mshr miss rate for StoreCondReq accesses +system.cpu1.dcache.StoreCondReq_mshr_misses 2422 # number of StoreCondReq MSHR misses +system.cpu1.dcache.WriteReq_accesses 650008 # number of WriteReq accesses(hits+misses) +system.cpu1.dcache.WriteReq_avg_miss_latency 54644.846691 # average WriteReq miss latency +system.cpu1.dcache.WriteReq_avg_mshr_miss_latency 51644.846691 # average WriteReq mshr miss latency system.cpu1.dcache.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.cpu1.dcache.WriteReq_hits 623648 # number of WriteReq hits -system.cpu1.dcache.WriteReq_miss_latency 1439273000 # number of WriteReq miss cycles -system.cpu1.dcache.WriteReq_miss_rate 0.040524 # miss rate for WriteReq accesses -system.cpu1.dcache.WriteReq_misses 26340 # number of WriteReq misses -system.cpu1.dcache.WriteReq_mshr_miss_latency 1360253000 # number of WriteReq MSHR miss cycles -system.cpu1.dcache.WriteReq_mshr_miss_rate 0.040524 # mshr miss rate for WriteReq accesses -system.cpu1.dcache.WriteReq_mshr_misses 26340 # number of WriteReq MSHR misses -system.cpu1.dcache.WriteReq_mshr_uncacheable_latency 303022000 # number of WriteReq MSHR uncacheable cycles +system.cpu1.dcache.WriteReq_hits 623656 # number of WriteReq hits +system.cpu1.dcache.WriteReq_miss_latency 1440001000 # number of WriteReq miss cycles +system.cpu1.dcache.WriteReq_miss_rate 0.040541 # miss rate for WriteReq accesses +system.cpu1.dcache.WriteReq_misses 26352 # number of WriteReq misses +system.cpu1.dcache.WriteReq_mshr_miss_latency 1360945000 # number of WriteReq MSHR miss cycles +system.cpu1.dcache.WriteReq_mshr_miss_rate 0.040541 # mshr miss rate for WriteReq accesses +system.cpu1.dcache.WriteReq_mshr_misses 26352 # number of WriteReq MSHR misses +system.cpu1.dcache.WriteReq_mshr_uncacheable_latency 303019000 # number of WriteReq MSHR uncacheable cycles system.cpu1.dcache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.cpu1.dcache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.cpu1.dcache.avg_refs 30.126995 # Average number of references to valid blocks. +system.cpu1.dcache.avg_refs 30.141759 # Average number of references to valid blocks. system.cpu1.dcache.blocked_no_mshrs 0 # number of cycles access was blocked system.cpu1.dcache.blocked_no_targets 0 # number of cycles access was blocked system.cpu1.dcache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.cpu1.dcache.blocked_cycles_no_targets 0 # number of cycles access was blocked system.cpu1.dcache.cache_copies 0 # number of cache copies performed -system.cpu1.dcache.demand_accesses 1670496 # number of demand (read+write) accesses -system.cpu1.dcache.demand_avg_miss_latency 32262.845691 # average overall miss latency -system.cpu1.dcache.demand_avg_mshr_miss_latency 29262.789350 # average overall mshr miss latency -system.cpu1.dcache.demand_hits 1608374 # number of demand (read+write) hits -system.cpu1.dcache.demand_miss_latency 2004232500 # number of demand (read+write) miss cycles -system.cpu1.dcache.demand_miss_rate 0.037188 # miss rate for demand accesses -system.cpu1.dcache.demand_misses 62122 # number of demand (read+write) misses +system.cpu1.dcache.demand_accesses 1670551 # number of demand (read+write) accesses +system.cpu1.dcache.demand_avg_miss_latency 32269.608001 # average overall miss latency +system.cpu1.dcache.demand_avg_mshr_miss_latency 29269.551633 # average overall mshr miss latency +system.cpu1.dcache.demand_hits 1608459 # number of demand (read+write) hits +system.cpu1.dcache.demand_miss_latency 2003684500 # number of demand (read+write) miss cycles +system.cpu1.dcache.demand_miss_rate 0.037169 # miss rate for demand accesses +system.cpu1.dcache.demand_misses 62092 # number of demand (read+write) misses system.cpu1.dcache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits -system.cpu1.dcache.demand_mshr_miss_latency 1817863000 # number of demand (read+write) MSHR miss cycles -system.cpu1.dcache.demand_mshr_miss_rate 0.037188 # mshr miss rate for demand accesses -system.cpu1.dcache.demand_mshr_misses 62122 # number of demand (read+write) MSHR misses +system.cpu1.dcache.demand_mshr_miss_latency 1817405000 # number of demand (read+write) MSHR miss cycles +system.cpu1.dcache.demand_mshr_miss_rate 0.037169 # mshr miss rate for demand accesses +system.cpu1.dcache.demand_mshr_misses 62092 # number of demand (read+write) MSHR misses system.cpu1.dcache.fast_writes 0 # number of fast writes performed system.cpu1.dcache.mshr_cap_events 0 # number of times MSHR cap was activated system.cpu1.dcache.no_allocate_misses 0 # Number of misses that were no-allocate -system.cpu1.dcache.overall_accesses 1670496 # number of overall (read+write) accesses -system.cpu1.dcache.overall_avg_miss_latency 32262.845691 # average overall miss latency -system.cpu1.dcache.overall_avg_mshr_miss_latency 29262.789350 # average overall mshr miss latency +system.cpu1.dcache.overall_accesses 1670551 # number of overall (read+write) accesses +system.cpu1.dcache.overall_avg_miss_latency 32269.608001 # average overall miss latency +system.cpu1.dcache.overall_avg_mshr_miss_latency 29269.551633 # average overall mshr miss latency system.cpu1.dcache.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.cpu1.dcache.overall_hits 1608374 # number of overall hits -system.cpu1.dcache.overall_miss_latency 2004232500 # number of overall miss cycles -system.cpu1.dcache.overall_miss_rate 0.037188 # miss rate for overall accesses -system.cpu1.dcache.overall_misses 62122 # number of overall misses +system.cpu1.dcache.overall_hits 1608459 # number of overall hits +system.cpu1.dcache.overall_miss_latency 2003684500 # number of overall miss cycles +system.cpu1.dcache.overall_miss_rate 0.037169 # miss rate for overall accesses +system.cpu1.dcache.overall_misses 62092 # number of overall misses system.cpu1.dcache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu1.dcache.overall_mshr_miss_latency 1817863000 # number of overall MSHR miss cycles -system.cpu1.dcache.overall_mshr_miss_rate 0.037188 # mshr miss rate for overall accesses -system.cpu1.dcache.overall_mshr_misses 62122 # number of overall MSHR misses -system.cpu1.dcache.overall_mshr_uncacheable_latency 315548000 # number of overall MSHR uncacheable cycles +system.cpu1.dcache.overall_mshr_miss_latency 1817405000 # number of overall MSHR miss cycles +system.cpu1.dcache.overall_mshr_miss_rate 0.037169 # mshr miss rate for overall accesses +system.cpu1.dcache.overall_mshr_misses 62092 # number of overall MSHR misses +system.cpu1.dcache.overall_mshr_uncacheable_latency 315545000 # number of overall MSHR uncacheable cycles system.cpu1.dcache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses system.cpu1.dcache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache system.cpu1.dcache.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr @@ -365,69 +365,69 @@ system.cpu1.dcache.prefetcher.num_hwpf_issued 0 system.cpu1.dcache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.cpu1.dcache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.cpu1.dcache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.cpu1.dcache.replacements 53749 # number of replacements -system.cpu1.dcache.sampled_refs 54144 # Sample count of references to valid blocks. +system.cpu1.dcache.replacements 53724 # number of replacements +system.cpu1.dcache.sampled_refs 54120 # Sample count of references to valid blocks. system.cpu1.dcache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.cpu1.dcache.tagsinuse 388.873056 # Cycle average of tags in use -system.cpu1.dcache.total_refs 1631196 # Total number of references to valid blocks. -system.cpu1.dcache.warmup_cycle 1954644714000 # Cycle when the warmup percentage was hit. -system.cpu1.dcache.writebacks 26833 # number of writebacks +system.cpu1.dcache.tagsinuse 388.878897 # Cycle average of tags in use +system.cpu1.dcache.total_refs 1631272 # Total number of references to valid blocks. +system.cpu1.dcache.warmup_cycle 1954643578000 # Cycle when the warmup percentage was hit. +system.cpu1.dcache.writebacks 26831 # number of writebacks system.cpu1.dtb.accesses 302878 # DTB accesses system.cpu1.dtb.acv 84 # DTB access violations -system.cpu1.dtb.hits 1693796 # DTB hits +system.cpu1.dtb.hits 1693851 # DTB hits system.cpu1.dtb.misses 3106 # DTB misses system.cpu1.dtb.read_accesses 205838 # DTB read accesses system.cpu1.dtb.read_acv 36 # DTB read access violations -system.cpu1.dtb.read_hits 1029675 # DTB read hits +system.cpu1.dtb.read_hits 1029710 # DTB read hits system.cpu1.dtb.read_misses 2750 # DTB read misses system.cpu1.dtb.write_accesses 97040 # DTB write accesses system.cpu1.dtb.write_acv 48 # DTB write access violations -system.cpu1.dtb.write_hits 664121 # DTB write hits +system.cpu1.dtb.write_hits 664141 # DTB write hits system.cpu1.dtb.write_misses 356 # DTB write misses -system.cpu1.icache.ReadReq_accesses 5267542 # number of ReadReq accesses(hits+misses) -system.cpu1.icache.ReadReq_avg_miss_latency 14619.415532 # average ReadReq miss latency -system.cpu1.icache.ReadReq_avg_mshr_miss_latency 11618.958024 # average ReadReq mshr miss latency -system.cpu1.icache.ReadReq_hits 5180112 # number of ReadReq hits -system.cpu1.icache.ReadReq_miss_latency 1278175500 # number of ReadReq miss cycles -system.cpu1.icache.ReadReq_miss_rate 0.016598 # miss rate for ReadReq accesses -system.cpu1.icache.ReadReq_misses 87430 # number of ReadReq misses -system.cpu1.icache.ReadReq_mshr_miss_latency 1015845500 # number of ReadReq MSHR miss cycles -system.cpu1.icache.ReadReq_mshr_miss_rate 0.016598 # mshr miss rate for ReadReq accesses -system.cpu1.icache.ReadReq_mshr_misses 87430 # number of ReadReq MSHR misses +system.cpu1.icache.ReadReq_accesses 5268142 # number of ReadReq accesses(hits+misses) +system.cpu1.icache.ReadReq_avg_miss_latency 14617.211446 # average ReadReq miss latency +system.cpu1.icache.ReadReq_avg_mshr_miss_latency 11616.771124 # average ReadReq mshr miss latency +system.cpu1.icache.ReadReq_hits 5180706 # number of ReadReq hits +system.cpu1.icache.ReadReq_miss_latency 1278070500 # number of ReadReq miss cycles +system.cpu1.icache.ReadReq_miss_rate 0.016597 # miss rate for ReadReq accesses +system.cpu1.icache.ReadReq_misses 87436 # number of ReadReq misses +system.cpu1.icache.ReadReq_mshr_miss_latency 1015724000 # number of ReadReq MSHR miss cycles +system.cpu1.icache.ReadReq_mshr_miss_rate 0.016597 # mshr miss rate for ReadReq accesses +system.cpu1.icache.ReadReq_mshr_misses 87436 # number of ReadReq MSHR misses system.cpu1.icache.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.cpu1.icache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.cpu1.icache.avg_refs 59.267660 # Average number of references to valid blocks. +system.cpu1.icache.avg_refs 59.270387 # Average number of references to valid blocks. system.cpu1.icache.blocked_no_mshrs 0 # number of cycles access was blocked system.cpu1.icache.blocked_no_targets 0 # number of cycles access was blocked system.cpu1.icache.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.cpu1.icache.blocked_cycles_no_targets 0 # number of cycles access was blocked system.cpu1.icache.cache_copies 0 # number of cache copies performed -system.cpu1.icache.demand_accesses 5267542 # number of demand (read+write) accesses -system.cpu1.icache.demand_avg_miss_latency 14619.415532 # average overall miss latency -system.cpu1.icache.demand_avg_mshr_miss_latency 11618.958024 # average overall mshr miss latency -system.cpu1.icache.demand_hits 5180112 # number of demand (read+write) hits -system.cpu1.icache.demand_miss_latency 1278175500 # number of demand (read+write) miss cycles -system.cpu1.icache.demand_miss_rate 0.016598 # miss rate for demand accesses -system.cpu1.icache.demand_misses 87430 # number of demand (read+write) misses +system.cpu1.icache.demand_accesses 5268142 # number of demand (read+write) accesses +system.cpu1.icache.demand_avg_miss_latency 14617.211446 # average overall miss latency +system.cpu1.icache.demand_avg_mshr_miss_latency 11616.771124 # average overall mshr miss latency +system.cpu1.icache.demand_hits 5180706 # number of demand (read+write) hits +system.cpu1.icache.demand_miss_latency 1278070500 # number of demand (read+write) miss cycles +system.cpu1.icache.demand_miss_rate 0.016597 # miss rate for demand accesses +system.cpu1.icache.demand_misses 87436 # number of demand (read+write) misses system.cpu1.icache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits -system.cpu1.icache.demand_mshr_miss_latency 1015845500 # number of demand (read+write) MSHR miss cycles -system.cpu1.icache.demand_mshr_miss_rate 0.016598 # mshr miss rate for demand accesses -system.cpu1.icache.demand_mshr_misses 87430 # number of demand (read+write) MSHR misses +system.cpu1.icache.demand_mshr_miss_latency 1015724000 # number of demand (read+write) MSHR miss cycles +system.cpu1.icache.demand_mshr_miss_rate 0.016597 # mshr miss rate for demand accesses +system.cpu1.icache.demand_mshr_misses 87436 # number of demand (read+write) MSHR misses system.cpu1.icache.fast_writes 0 # number of fast writes performed system.cpu1.icache.mshr_cap_events 0 # number of times MSHR cap was activated system.cpu1.icache.no_allocate_misses 0 # Number of misses that were no-allocate -system.cpu1.icache.overall_accesses 5267542 # number of overall (read+write) accesses -system.cpu1.icache.overall_avg_miss_latency 14619.415532 # average overall miss latency -system.cpu1.icache.overall_avg_mshr_miss_latency 11618.958024 # average overall mshr miss latency +system.cpu1.icache.overall_accesses 5268142 # number of overall (read+write) accesses +system.cpu1.icache.overall_avg_miss_latency 14617.211446 # average overall miss latency +system.cpu1.icache.overall_avg_mshr_miss_latency 11616.771124 # average overall mshr miss latency system.cpu1.icache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency -system.cpu1.icache.overall_hits 5180112 # number of overall hits -system.cpu1.icache.overall_miss_latency 1278175500 # number of overall miss cycles -system.cpu1.icache.overall_miss_rate 0.016598 # miss rate for overall accesses -system.cpu1.icache.overall_misses 87430 # number of overall misses +system.cpu1.icache.overall_hits 5180706 # number of overall hits +system.cpu1.icache.overall_miss_latency 1278070500 # number of overall miss cycles +system.cpu1.icache.overall_miss_rate 0.016597 # miss rate for overall accesses +system.cpu1.icache.overall_misses 87436 # number of overall misses system.cpu1.icache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu1.icache.overall_mshr_miss_latency 1015845500 # number of overall MSHR miss cycles -system.cpu1.icache.overall_mshr_miss_rate 0.016598 # mshr miss rate for overall accesses -system.cpu1.icache.overall_mshr_misses 87430 # number of overall MSHR misses +system.cpu1.icache.overall_mshr_miss_latency 1015724000 # number of overall MSHR miss cycles +system.cpu1.icache.overall_mshr_miss_rate 0.016597 # mshr miss rate for overall accesses +system.cpu1.icache.overall_mshr_misses 87436 # number of overall MSHR misses system.cpu1.icache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles system.cpu1.icache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses system.cpu1.icache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache @@ -439,19 +439,19 @@ system.cpu1.icache.prefetcher.num_hwpf_issued 0 system.cpu1.icache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.cpu1.icache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.cpu1.icache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.cpu1.icache.replacements 86890 # number of replacements -system.cpu1.icache.sampled_refs 87402 # Sample count of references to valid blocks. +system.cpu1.icache.replacements 86896 # number of replacements +system.cpu1.icache.sampled_refs 87408 # Sample count of references to valid blocks. system.cpu1.icache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.cpu1.icache.tagsinuse 419.405623 # Cycle average of tags in use -system.cpu1.icache.total_refs 5180112 # Total number of references to valid blocks. -system.cpu1.icache.warmup_cycle 1967879772000 # Cycle when the warmup percentage was hit. +system.cpu1.icache.tagsinuse 419.405627 # Cycle average of tags in use +system.cpu1.icache.total_refs 5180706 # Total number of references to valid blocks. +system.cpu1.icache.warmup_cycle 1967880295000 # Cycle when the warmup percentage was hit. system.cpu1.icache.writebacks 0 # number of writebacks system.cpu1.idle_fraction 0.994655 # Percentage of idle cycles -system.cpu1.itb.accesses 1397499 # ITB accesses +system.cpu1.itb.accesses 1397517 # ITB accesses system.cpu1.itb.acv 41 # ITB acv -system.cpu1.itb.hits 1396253 # ITB hits +system.cpu1.itb.hits 1396271 # ITB hits system.cpu1.itb.misses 1246 # ITB misses -system.cpu1.kern.callpal 29501 # number of callpals executed +system.cpu1.kern.callpal 29503 # number of callpals executed system.cpu1.kern.callpal_cserve 1 0.00% 0.00% # number of callpals executed system.cpu1.kern.callpal_wripir 6 0.02% 0.02% # number of callpals executed system.cpu1.kern.callpal_wrmces 1 0.00% 0.03% # number of callpals executed @@ -459,7 +459,7 @@ system.cpu1.kern.callpal_wrfen 1 0.00% 0.03% # nu system.cpu1.kern.callpal_swpctx 365 1.24% 1.27% # number of callpals executed system.cpu1.kern.callpal_tbi 10 0.03% 1.30% # number of callpals executed system.cpu1.kern.callpal_wrent 7 0.02% 1.33% # number of callpals executed -system.cpu1.kern.callpal_swpipl 24142 81.83% 83.16% # number of callpals executed +system.cpu1.kern.callpal_swpipl 24144 81.84% 83.16% # number of callpals executed system.cpu1.kern.callpal_rdps 2172 7.36% 90.52% # number of callpals executed system.cpu1.kern.callpal_wrkgp 1 0.00% 90.53% # number of callpals executed system.cpu1.kern.callpal_wrusp 3 0.01% 90.54% # number of callpals executed @@ -470,27 +470,27 @@ system.cpu1.kern.callpal_callsys 161 0.55% 99.89% # nu system.cpu1.kern.callpal_imb 31 0.11% 100.00% # number of callpals executed system.cpu1.kern.callpal_rdunique 1 0.00% 100.00% # number of callpals executed system.cpu1.kern.inst.arm 0 # number of arm instructions executed -system.cpu1.kern.inst.hwrei 36051 # number of hwrei instructions executed +system.cpu1.kern.inst.hwrei 36053 # number of hwrei instructions executed system.cpu1.kern.inst.quiesce 2351 # number of quiesce instructions executed -system.cpu1.kern.ipl_count 28808 # number of times we switched to this ipl -system.cpu1.kern.ipl_count_0 9172 31.84% 31.84% # number of times we switched to this ipl +system.cpu1.kern.ipl_count 28810 # number of times we switched to this ipl +system.cpu1.kern.ipl_count_0 9173 31.84% 31.84% # number of times we switched to this ipl system.cpu1.kern.ipl_count_22 1980 6.87% 38.71% # number of times we switched to this ipl system.cpu1.kern.ipl_count_30 91 0.32% 39.03% # number of times we switched to this ipl -system.cpu1.kern.ipl_count_31 17565 60.97% 100.00% # number of times we switched to this ipl -system.cpu1.kern.ipl_good 20308 # number of times we switched to this ipl from a different ipl -system.cpu1.kern.ipl_good_0 9164 45.13% 45.13% # number of times we switched to this ipl from a different ipl +system.cpu1.kern.ipl_count_31 17566 60.97% 100.00% # number of times we switched to this ipl +system.cpu1.kern.ipl_good 20310 # number of times we switched to this ipl from a different ipl +system.cpu1.kern.ipl_good_0 9165 45.13% 45.13% # number of times we switched to this ipl from a different ipl system.cpu1.kern.ipl_good_22 1980 9.75% 54.87% # number of times we switched to this ipl from a different ipl system.cpu1.kern.ipl_good_30 91 0.45% 55.32% # number of times we switched to this ipl from a different ipl -system.cpu1.kern.ipl_good_31 9073 44.68% 100.00% # number of times we switched to this ipl from a different ipl +system.cpu1.kern.ipl_good_31 9074 44.68% 100.00% # number of times we switched to this ipl from a different ipl system.cpu1.kern.ipl_ticks 1971683837000 # number of cycles we spent at this ipl -system.cpu1.kern.ipl_ticks_0 1927969399500 97.78% 97.78% # number of cycles we spent at this ipl -system.cpu1.kern.ipl_ticks_22 511268500 0.03% 97.81% # number of cycles we spent at this ipl +system.cpu1.kern.ipl_ticks_0 1927968787500 97.78% 97.78% # number of cycles we spent at this ipl +system.cpu1.kern.ipl_ticks_22 511194500 0.03% 97.81% # number of cycles we spent at this ipl system.cpu1.kern.ipl_ticks_30 58584000 0.00% 97.81% # number of cycles we spent at this ipl -system.cpu1.kern.ipl_ticks_31 43144585000 2.19% 100.00% # number of cycles we spent at this ipl +system.cpu1.kern.ipl_ticks_31 43145271000 2.19% 100.00% # number of cycles we spent at this ipl system.cpu1.kern.ipl_used_0 0.999128 # fraction of swpipl calls that actually changed the ipl system.cpu1.kern.ipl_used_22 1 # fraction of swpipl calls that actually changed the ipl system.cpu1.kern.ipl_used_30 1 # fraction of swpipl calls that actually changed the ipl -system.cpu1.kern.ipl_used_31 0.516539 # fraction of swpipl calls that actually changed the ipl +system.cpu1.kern.ipl_used_31 0.516566 # fraction of swpipl calls that actually changed the ipl system.cpu1.kern.mode_good_kernel 532 system.cpu1.kern.mode_good_user 516 system.cpu1.kern.mode_good_idle 16 @@ -501,9 +501,9 @@ system.cpu1.kern.mode_switch_good 1.612234 # fr system.cpu1.kern.mode_switch_good_kernel 0.604545 # fraction of useful protection mode switches system.cpu1.kern.mode_switch_good_user 1 # fraction of useful protection mode switches system.cpu1.kern.mode_switch_good_idle 0.007689 # fraction of useful protection mode switches -system.cpu1.kern.mode_ticks_kernel 4597806000 0.23% 0.23% # number of ticks spent at the given mode -system.cpu1.kern.mode_ticks_user 1703603000 0.09% 0.32% # number of ticks spent at the given mode -system.cpu1.kern.mode_ticks_idle 1964669629000 99.68% 100.00% # number of ticks spent at the given mode +system.cpu1.kern.mode_ticks_kernel 4596640000 0.23% 0.23% # number of ticks spent at the given mode +system.cpu1.kern.mode_ticks_user 1703543000 0.09% 0.32% # number of ticks spent at the given mode +system.cpu1.kern.mode_ticks_idle 1964670722000 99.68% 100.00% # number of ticks spent at the given mode system.cpu1.kern.swap_context 366 # number of times the context was actually changed system.cpu1.kern.syscall 102 # number of syscalls executed system.cpu1.kern.syscall_2 2 1.96% 1.96% # number of syscalls executed @@ -529,8 +529,8 @@ system.cpu1.kern.syscall_132 2 1.96% 99.02% # nu system.cpu1.kern.syscall_144 1 0.98% 100.00% # number of syscalls executed system.cpu1.not_idle_fraction 0.005345 # Percentage of non-idle cycles system.cpu1.numCycles 3943367734 # number of cpu cycles simulated -system.cpu1.num_insts 5264352 # Number of instructions executed -system.cpu1.num_refs 1703685 # Number of memory references +system.cpu1.num_insts 5264952 # Number of instructions executed +system.cpu1.num_refs 1703740 # Number of memory references system.disk0.dma_read_bytes 1024 # Number of bytes transfered via DMA reads (not PRD). system.disk0.dma_read_full_pages 0 # Number of full page size DMA reads (not PRD). system.disk0.dma_read_txs 1 # Number of DMA read transactions (not PRD). @@ -553,46 +553,46 @@ system.iocache.ReadReq_mshr_miss_latency 11248998 # nu system.iocache.ReadReq_mshr_miss_rate 1 # mshr miss rate for ReadReq accesses system.iocache.ReadReq_mshr_misses 178 # number of ReadReq MSHR misses system.iocache.WriteReq_accesses 41552 # number of WriteReq accesses(hits+misses) -system.iocache.WriteReq_avg_miss_latency 137906.834954 # average WriteReq miss latency -system.iocache.WriteReq_avg_mshr_miss_latency 85903.204082 # average WriteReq mshr miss latency -system.iocache.WriteReq_miss_latency 5730304806 # number of WriteReq miss cycles +system.iocache.WriteReq_avg_miss_latency 137902.310503 # average WriteReq miss latency +system.iocache.WriteReq_avg_mshr_miss_latency 85898.702349 # average WriteReq mshr miss latency +system.iocache.WriteReq_miss_latency 5730116806 # number of WriteReq miss cycles system.iocache.WriteReq_miss_rate 1 # miss rate for WriteReq accesses system.iocache.WriteReq_misses 41552 # number of WriteReq misses -system.iocache.WriteReq_mshr_miss_latency 3569449936 # number of WriteReq MSHR miss cycles +system.iocache.WriteReq_mshr_miss_latency 3569262880 # number of WriteReq MSHR miss cycles system.iocache.WriteReq_mshr_miss_rate 1 # mshr miss rate for WriteReq accesses system.iocache.WriteReq_mshr_misses 41552 # number of WriteReq MSHR misses -system.iocache.avg_blocked_cycles_no_mshrs 6168.564107 # average number of cycles each access was blocked +system.iocache.avg_blocked_cycles_no_mshrs 6169.706090 # average number of cycles each access was blocked system.iocache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked system.iocache.avg_refs 0 # Average number of references to valid blocks. system.iocache.blocked_no_mshrs 10459 # number of cycles access was blocked system.iocache.blocked_no_targets 0 # number of cycles access was blocked -system.iocache.blocked_cycles_no_mshrs 64517012 # number of cycles access was blocked +system.iocache.blocked_cycles_no_mshrs 64528956 # number of cycles access was blocked system.iocache.blocked_cycles_no_targets 0 # number of cycles access was blocked system.iocache.cache_copies 0 # number of cache copies performed system.iocache.demand_accesses 41730 # number of demand (read+write) accesses -system.iocache.demand_avg_miss_latency 137809.964150 # average overall miss latency -system.iocache.demand_avg_mshr_miss_latency 85806.348766 # average overall mshr miss latency +system.iocache.demand_avg_miss_latency 137805.458998 # average overall miss latency +system.iocache.demand_avg_mshr_miss_latency 85801.866235 # average overall mshr miss latency system.iocache.demand_hits 0 # number of demand (read+write) hits -system.iocache.demand_miss_latency 5750809804 # number of demand (read+write) miss cycles +system.iocache.demand_miss_latency 5750621804 # number of demand (read+write) miss cycles system.iocache.demand_miss_rate 1 # miss rate for demand accesses system.iocache.demand_misses 41730 # number of demand (read+write) misses system.iocache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits -system.iocache.demand_mshr_miss_latency 3580698934 # number of demand (read+write) MSHR miss cycles +system.iocache.demand_mshr_miss_latency 3580511878 # number of demand (read+write) MSHR miss cycles system.iocache.demand_mshr_miss_rate 1 # mshr miss rate for demand accesses system.iocache.demand_mshr_misses 41730 # number of demand (read+write) MSHR misses system.iocache.fast_writes 0 # number of fast writes performed system.iocache.mshr_cap_events 0 # number of times MSHR cap was activated system.iocache.no_allocate_misses 0 # Number of misses that were no-allocate system.iocache.overall_accesses 41730 # number of overall (read+write) accesses -system.iocache.overall_avg_miss_latency 137809.964150 # average overall miss latency -system.iocache.overall_avg_mshr_miss_latency 85806.348766 # average overall mshr miss latency +system.iocache.overall_avg_miss_latency 137805.458998 # average overall miss latency +system.iocache.overall_avg_mshr_miss_latency 85801.866235 # average overall mshr miss latency system.iocache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency system.iocache.overall_hits 0 # number of overall hits -system.iocache.overall_miss_latency 5750809804 # number of overall miss cycles +system.iocache.overall_miss_latency 5750621804 # number of overall miss cycles system.iocache.overall_miss_rate 1 # miss rate for overall accesses system.iocache.overall_misses 41730 # number of overall misses system.iocache.overall_mshr_hits 0 # number of overall MSHR hits -system.iocache.overall_mshr_miss_latency 3580698934 # number of overall MSHR miss cycles +system.iocache.overall_mshr_miss_latency 3580511878 # number of overall MSHR miss cycles system.iocache.overall_mshr_miss_rate 1 # mshr miss rate for overall accesses system.iocache.overall_mshr_misses 41730 # number of overall MSHR misses system.iocache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles @@ -609,80 +609,80 @@ system.iocache.prefetcher.num_hwpf_squashed_from_miss 0 system.iocache.replacements 41698 # number of replacements system.iocache.sampled_refs 41714 # Sample count of references to valid blocks. system.iocache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.iocache.tagsinuse 0.582076 # Cycle average of tags in use +system.iocache.tagsinuse 0.582075 # Cycle average of tags in use system.iocache.total_refs 0 # Total number of references to valid blocks. -system.iocache.warmup_cycle 1762323729000 # Cycle when the warmup percentage was hit. +system.iocache.warmup_cycle 1762323389000 # Cycle when the warmup percentage was hit. system.iocache.writebacks 41520 # number of writebacks -system.l2c.ReadExReq_accesses 306796 # number of ReadExReq accesses(hits+misses) -system.l2c.ReadExReq_avg_miss_latency 52002.653229 # average ReadExReq miss latency -system.l2c.ReadExReq_avg_mshr_miss_latency 40002.653229 # average ReadExReq mshr miss latency -system.l2c.ReadExReq_miss_latency 15954206000 # number of ReadExReq miss cycles +system.l2c.ReadExReq_accesses 306814 # number of ReadExReq accesses(hits+misses) +system.l2c.ReadExReq_avg_miss_latency 52002.656333 # average ReadExReq miss latency +system.l2c.ReadExReq_avg_mshr_miss_latency 40002.656333 # average ReadExReq mshr miss latency +system.l2c.ReadExReq_miss_latency 15955143000 # number of ReadExReq miss cycles system.l2c.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses -system.l2c.ReadExReq_misses 306796 # number of ReadExReq misses -system.l2c.ReadExReq_mshr_miss_latency 12272654000 # number of ReadExReq MSHR miss cycles +system.l2c.ReadExReq_misses 306814 # number of ReadExReq misses +system.l2c.ReadExReq_mshr_miss_latency 12273375000 # number of ReadExReq MSHR miss cycles system.l2c.ReadExReq_mshr_miss_rate 1 # mshr miss rate for ReadExReq accesses -system.l2c.ReadExReq_mshr_misses 306796 # number of ReadExReq MSHR misses -system.l2c.ReadReq_accesses 2090247 # number of ReadReq accesses(hits+misses) -system.l2c.ReadReq_avg_miss_latency 52016.274350 # average ReadReq miss latency -system.l2c.ReadReq_avg_mshr_miss_latency 40016.322096 # average ReadReq mshr miss latency +system.l2c.ReadExReq_mshr_misses 306814 # number of ReadExReq MSHR misses +system.l2c.ReadReq_accesses 2090305 # number of ReadReq accesses(hits+misses) +system.l2c.ReadReq_avg_miss_latency 52016.275832 # average ReadReq miss latency +system.l2c.ReadReq_avg_mshr_miss_latency 40016.323583 # average ReadReq mshr miss latency system.l2c.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.l2c.ReadReq_hits 1782800 # number of ReadReq hits -system.l2c.ReadReq_miss_latency 15992247500 # number of ReadReq miss cycles -system.l2c.ReadReq_miss_rate 0.147086 # miss rate for ReadReq accesses -system.l2c.ReadReq_misses 307447 # number of ReadReq misses +system.l2c.ReadReq_hits 1782886 # number of ReadReq hits +system.l2c.ReadReq_miss_latency 15990791500 # number of ReadReq miss cycles +system.l2c.ReadReq_miss_rate 0.147069 # miss rate for ReadReq accesses +system.l2c.ReadReq_misses 307419 # number of ReadReq misses system.l2c.ReadReq_mshr_hits 11 # number of ReadReq MSHR hits -system.l2c.ReadReq_mshr_miss_latency 12302458000 # number of ReadReq MSHR miss cycles -system.l2c.ReadReq_mshr_miss_rate 0.147081 # mshr miss rate for ReadReq accesses -system.l2c.ReadReq_mshr_misses 307436 # number of ReadReq MSHR misses -system.l2c.ReadReq_mshr_uncacheable_latency 789200000 # number of ReadReq MSHR uncacheable cycles -system.l2c.UpgradeReq_accesses 127300 # number of UpgradeReq accesses(hits+misses) -system.l2c.UpgradeReq_avg_miss_latency 50741.146897 # average UpgradeReq miss latency -system.l2c.UpgradeReq_avg_mshr_miss_latency 40004.988217 # average UpgradeReq mshr miss latency -system.l2c.UpgradeReq_miss_latency 6459348000 # number of UpgradeReq miss cycles +system.l2c.ReadReq_mshr_miss_latency 12301338000 # number of ReadReq MSHR miss cycles +system.l2c.ReadReq_mshr_miss_rate 0.147064 # mshr miss rate for ReadReq accesses +system.l2c.ReadReq_mshr_misses 307408 # number of ReadReq MSHR misses +system.l2c.ReadReq_mshr_uncacheable_latency 802543000 # number of ReadReq MSHR uncacheable cycles +system.l2c.UpgradeReq_accesses 127238 # number of UpgradeReq accesses(hits+misses) +system.l2c.UpgradeReq_avg_miss_latency 50741.170091 # average UpgradeReq miss latency +system.l2c.UpgradeReq_avg_mshr_miss_latency 40005.242145 # average UpgradeReq mshr miss latency +system.l2c.UpgradeReq_miss_latency 6456205000 # number of UpgradeReq miss cycles system.l2c.UpgradeReq_miss_rate 1 # miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_misses 127300 # number of UpgradeReq misses -system.l2c.UpgradeReq_mshr_miss_latency 5092635000 # number of UpgradeReq MSHR miss cycles +system.l2c.UpgradeReq_misses 127238 # number of UpgradeReq misses +system.l2c.UpgradeReq_mshr_miss_latency 5090187000 # number of UpgradeReq MSHR miss cycles system.l2c.UpgradeReq_mshr_miss_rate 1 # mshr miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_mshr_misses 127300 # number of UpgradeReq MSHR misses +system.l2c.UpgradeReq_mshr_misses 127238 # number of UpgradeReq MSHR misses system.l2c.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.l2c.WriteReq_mshr_uncacheable_latency 1381237000 # number of WriteReq MSHR uncacheable cycles -system.l2c.Writeback_accesses 430395 # number of Writeback accesses(hits+misses) -system.l2c.Writeback_hits 430395 # number of Writeback hits +system.l2c.WriteReq_mshr_uncacheable_latency 1394774000 # number of WriteReq MSHR uncacheable cycles +system.l2c.Writeback_accesses 430351 # number of Writeback accesses(hits+misses) +system.l2c.Writeback_hits 430351 # number of Writeback hits system.l2c.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.l2c.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.l2c.avg_refs 4.558799 # Average number of references to valid blocks. +system.l2c.avg_refs 4.554189 # Average number of references to valid blocks. system.l2c.blocked_no_mshrs 0 # number of cycles access was blocked system.l2c.blocked_no_targets 0 # number of cycles access was blocked system.l2c.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.l2c.blocked_cycles_no_targets 0 # number of cycles access was blocked system.l2c.cache_copies 0 # number of cache copies performed -system.l2c.demand_accesses 2397043 # number of demand (read+write) accesses -system.l2c.demand_avg_miss_latency 52009.471007 # average overall miss latency -system.l2c.demand_avg_mshr_miss_latency 40009.494784 # average overall mshr miss latency -system.l2c.demand_hits 1782800 # number of demand (read+write) hits -system.l2c.demand_miss_latency 31946453500 # number of demand (read+write) miss cycles -system.l2c.demand_miss_rate 0.256250 # miss rate for demand accesses -system.l2c.demand_misses 614243 # number of demand (read+write) misses +system.l2c.demand_accesses 2397119 # number of demand (read+write) accesses +system.l2c.demand_avg_miss_latency 52009.472790 # average overall miss latency +system.l2c.demand_avg_mshr_miss_latency 40009.496566 # average overall mshr miss latency +system.l2c.demand_hits 1782886 # number of demand (read+write) hits +system.l2c.demand_miss_latency 31945934500 # number of demand (read+write) miss cycles +system.l2c.demand_miss_rate 0.256238 # miss rate for demand accesses +system.l2c.demand_misses 614233 # number of demand (read+write) misses system.l2c.demand_mshr_hits 11 # number of demand (read+write) MSHR hits -system.l2c.demand_mshr_miss_latency 24575112000 # number of demand (read+write) MSHR miss cycles -system.l2c.demand_mshr_miss_rate 0.256246 # mshr miss rate for demand accesses -system.l2c.demand_mshr_misses 614232 # number of demand (read+write) MSHR misses +system.l2c.demand_mshr_miss_latency 24574713000 # number of demand (read+write) MSHR miss cycles +system.l2c.demand_mshr_miss_rate 0.256233 # mshr miss rate for demand accesses +system.l2c.demand_mshr_misses 614222 # number of demand (read+write) MSHR misses system.l2c.fast_writes 0 # number of fast writes performed system.l2c.mshr_cap_events 0 # number of times MSHR cap was activated system.l2c.no_allocate_misses 0 # Number of misses that were no-allocate -system.l2c.overall_accesses 2397043 # number of overall (read+write) accesses -system.l2c.overall_avg_miss_latency 52009.471007 # average overall miss latency -system.l2c.overall_avg_mshr_miss_latency 40009.494784 # average overall mshr miss latency +system.l2c.overall_accesses 2397119 # number of overall (read+write) accesses +system.l2c.overall_avg_miss_latency 52009.472790 # average overall miss latency +system.l2c.overall_avg_mshr_miss_latency 40009.496566 # average overall mshr miss latency system.l2c.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.l2c.overall_hits 1782800 # number of overall hits -system.l2c.overall_miss_latency 31946453500 # number of overall miss cycles -system.l2c.overall_miss_rate 0.256250 # miss rate for overall accesses -system.l2c.overall_misses 614243 # number of overall misses +system.l2c.overall_hits 1782886 # number of overall hits +system.l2c.overall_miss_latency 31945934500 # number of overall miss cycles +system.l2c.overall_miss_rate 0.256238 # miss rate for overall accesses +system.l2c.overall_misses 614233 # number of overall misses system.l2c.overall_mshr_hits 11 # number of overall MSHR hits -system.l2c.overall_mshr_miss_latency 24575112000 # number of overall MSHR miss cycles -system.l2c.overall_mshr_miss_rate 0.256246 # mshr miss rate for overall accesses -system.l2c.overall_mshr_misses 614232 # number of overall MSHR misses -system.l2c.overall_mshr_uncacheable_latency 2170437000 # number of overall MSHR uncacheable cycles +system.l2c.overall_mshr_miss_latency 24574713000 # number of overall MSHR miss cycles +system.l2c.overall_mshr_miss_rate 0.256233 # mshr miss rate for overall accesses +system.l2c.overall_mshr_misses 614222 # number of overall MSHR misses +system.l2c.overall_mshr_uncacheable_latency 2197317000 # number of overall MSHR uncacheable cycles system.l2c.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses system.l2c.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache system.l2c.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr @@ -693,13 +693,13 @@ system.l2c.prefetcher.num_hwpf_issued 0 # nu system.l2c.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.l2c.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.l2c.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.l2c.replacements 399043 # number of replacements -system.l2c.sampled_refs 430765 # Sample count of references to valid blocks. +system.l2c.replacements 399005 # number of replacements +system.l2c.sampled_refs 430732 # Sample count of references to valid blocks. system.l2c.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.l2c.tagsinuse 30865.823052 # Cycle average of tags in use -system.l2c.total_refs 1963771 # Total number of references to valid blocks. +system.l2c.tagsinuse 30859.505450 # Cycle average of tags in use +system.l2c.total_refs 1961635 # Total number of references to valid blocks. system.l2c.warmup_cycle 10912833000 # Cycle when the warmup percentage was hit. -system.l2c.writebacks 123178 # number of writebacks +system.l2c.writebacks 123162 # number of writebacks system.tsunami.ethernet.coalescedRxDesc <err: div-0> # average number of RxDesc's coalesced into each post system.tsunami.ethernet.coalescedRxIdle <err: div-0> # average number of RxIdle's coalesced into each post system.tsunami.ethernet.coalescedRxOk <err: div-0> # average number of RxOk's coalesced into each post diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/system.terminal b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/system.terminal index 6974143c8..7399f4d84 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/system.terminal +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/system.terminal @@ -61,6 +61,7 @@ SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb
loop: loaded (max 8 devices)
nbd: registered device at major 43
ns83820.c: National Semiconductor DP83820 10/100/1000 driver. +
PCI: Setting latency timer of device 0000:00:01.0 to 64
eth0: ns83820.c: 0x22c: 00000000, subsystem: 0000:0000
eth0: enabling optical transceiver
eth0: using 64 bit addressing. @@ -72,6 +73,7 @@ SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb
PIIX4: IDE controller at PCI slot 0000:00:00.0
PIIX4: chipset revision 0
PIIX4: 100% native mode on irq 31 +
PCI: Setting latency timer of device 0000:00:00.0 to 64
ide0: BM-DMA at 0x8400-0x8407, BIOS settings: hda:DMA, hdb:DMA
ide1: BM-DMA at 0x8408-0x840f, BIOS settings: hdc:DMA, hdd:DMA
hda: M5 IDE Disk, ATA DISK drive diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/simout b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/simout index b4ba00cf0..b196d52a3 100755 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/simout +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/simout @@ -5,12 +5,12 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Dec 4 2008 21:30:58 -M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652 -M5 commit date Thu Dec 04 18:04:32 2008 -0500 -M5 started Dec 4 2008 21:37:43 -M5 executing on zizzer -command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-timing -re --stdout-file stdout --stderr-file stderr tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-timing +M5 compiled Dec 14 2008 21:47:07 +M5 revision 5776:07905796d7bea4187139808b7de687a99cbc3141 +M5 commit date Sun Dec 14 21:45:15 2008 -0800 +M5 started Dec 14 2008 21:47:59 +M5 executing on tater +command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-timing -re tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-timing Global frequency set at 1000000000000 ticks per second info: Entering event queue @ 0. Starting simulation... -Exiting @ tick 1930165791000 because m5_exit instruction encountered +Exiting @ tick 1930164593000 because m5_exit instruction encountered diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stats.txt b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stats.txt index bcad4cd62..76e60eed0 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stats.txt +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stats.txt @@ -1,92 +1,92 @@ ---------- Begin Simulation Statistics ---------- -host_inst_rate 1283720 # Simulator instruction rate (inst/s) -host_mem_usage 286560 # Number of bytes of host memory used -host_seconds 43.75 # Real time elapsed on the host -host_tick_rate 44115985890 # Simulator tick rate (ticks/s) +host_inst_rate 715830 # Simulator instruction rate (inst/s) +host_mem_usage 287924 # Number of bytes of host memory used +host_seconds 78.52 # Real time elapsed on the host +host_tick_rate 24582295405 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks -sim_insts 56165112 # Number of instructions simulated -sim_seconds 1.930166 # Number of seconds simulated -sim_ticks 1930165791000 # Number of ticks simulated -system.cpu.dcache.LoadLockedReq_accesses 200388 # number of LoadLockedReq accesses(hits+misses) -system.cpu.dcache.LoadLockedReq_avg_miss_latency 14361.212121 # average LoadLockedReq miss latency -system.cpu.dcache.LoadLockedReq_avg_mshr_miss_latency 11361.212121 # average LoadLockedReq mshr miss latency -system.cpu.dcache.LoadLockedReq_hits 183063 # number of LoadLockedReq hits -system.cpu.dcache.LoadLockedReq_miss_latency 248808000 # number of LoadLockedReq miss cycles -system.cpu.dcache.LoadLockedReq_miss_rate 0.086457 # miss rate for LoadLockedReq accesses -system.cpu.dcache.LoadLockedReq_misses 17325 # number of LoadLockedReq misses -system.cpu.dcache.LoadLockedReq_mshr_miss_latency 196833000 # number of LoadLockedReq MSHR miss cycles -system.cpu.dcache.LoadLockedReq_mshr_miss_rate 0.086457 # mshr miss rate for LoadLockedReq accesses -system.cpu.dcache.LoadLockedReq_mshr_misses 17325 # number of LoadLockedReq MSHR misses -system.cpu.dcache.ReadReq_accesses 8882666 # number of ReadReq accesses(hits+misses) -system.cpu.dcache.ReadReq_avg_miss_latency 25452.857499 # average ReadReq miss latency -system.cpu.dcache.ReadReq_avg_mshr_miss_latency 22452.814515 # average ReadReq mshr miss latency +sim_insts 56205703 # Number of instructions simulated +sim_seconds 1.930165 # Number of seconds simulated +sim_ticks 1930164593000 # Number of ticks simulated +system.cpu.dcache.LoadLockedReq_accesses 200404 # number of LoadLockedReq accesses(hits+misses) +system.cpu.dcache.LoadLockedReq_avg_miss_latency 14361.546017 # average LoadLockedReq miss latency +system.cpu.dcache.LoadLockedReq_avg_mshr_miss_latency 11361.546017 # average LoadLockedReq mshr miss latency +system.cpu.dcache.LoadLockedReq_hits 183095 # number of LoadLockedReq hits +system.cpu.dcache.LoadLockedReq_miss_latency 248584000 # number of LoadLockedReq miss cycles +system.cpu.dcache.LoadLockedReq_miss_rate 0.086371 # miss rate for LoadLockedReq accesses +system.cpu.dcache.LoadLockedReq_misses 17309 # number of LoadLockedReq misses +system.cpu.dcache.LoadLockedReq_mshr_miss_latency 196657000 # number of LoadLockedReq MSHR miss cycles +system.cpu.dcache.LoadLockedReq_mshr_miss_rate 0.086371 # mshr miss rate for LoadLockedReq accesses +system.cpu.dcache.LoadLockedReq_mshr_misses 17309 # number of LoadLockedReq MSHR misses +system.cpu.dcache.ReadReq_accesses 8888653 # number of ReadReq accesses(hits+misses) +system.cpu.dcache.ReadReq_avg_miss_latency 25452.354477 # average ReadReq miss latency +system.cpu.dcache.ReadReq_avg_mshr_miss_latency 22452.311493 # average ReadReq mshr miss latency system.cpu.dcache.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.cpu.dcache.ReadReq_hits 7812517 # number of ReadReq hits -system.cpu.dcache.ReadReq_miss_latency 27238350000 # number of ReadReq miss cycles -system.cpu.dcache.ReadReq_miss_rate 0.120476 # miss rate for ReadReq accesses -system.cpu.dcache.ReadReq_misses 1070149 # number of ReadReq misses -system.cpu.dcache.ReadReq_mshr_miss_latency 24027857000 # number of ReadReq MSHR miss cycles -system.cpu.dcache.ReadReq_mshr_miss_rate 0.120476 # mshr miss rate for ReadReq accesses -system.cpu.dcache.ReadReq_mshr_misses 1070149 # number of ReadReq MSHR misses -system.cpu.dcache.ReadReq_mshr_uncacheable_latency 847845000 # number of ReadReq MSHR uncacheable cycles -system.cpu.dcache.StoreCondReq_accesses 199368 # number of StoreCondReq accesses(hits+misses) -system.cpu.dcache.StoreCondReq_avg_miss_latency 56004.365794 # average StoreCondReq miss latency -system.cpu.dcache.StoreCondReq_avg_mshr_miss_latency 53004.365794 # average StoreCondReq mshr miss latency -system.cpu.dcache.StoreCondReq_hits 169362 # number of StoreCondReq hits -system.cpu.dcache.StoreCondReq_miss_latency 1680467000 # number of StoreCondReq miss cycles -system.cpu.dcache.StoreCondReq_miss_rate 0.150506 # miss rate for StoreCondReq accesses -system.cpu.dcache.StoreCondReq_misses 30006 # number of StoreCondReq misses -system.cpu.dcache.StoreCondReq_mshr_miss_latency 1590449000 # number of StoreCondReq MSHR miss cycles -system.cpu.dcache.StoreCondReq_mshr_miss_rate 0.150506 # mshr miss rate for StoreCondReq accesses -system.cpu.dcache.StoreCondReq_mshr_misses 30006 # number of StoreCondReq MSHR misses -system.cpu.dcache.WriteReq_accesses 6158164 # number of WriteReq accesses(hits+misses) -system.cpu.dcache.WriteReq_avg_miss_latency 56004.032630 # average WriteReq miss latency -system.cpu.dcache.WriteReq_avg_mshr_miss_latency 53004.032630 # average WriteReq mshr miss latency +system.cpu.dcache.ReadReq_hits 7818479 # number of ReadReq hits +system.cpu.dcache.ReadReq_miss_latency 27238448000 # number of ReadReq miss cycles +system.cpu.dcache.ReadReq_miss_rate 0.120398 # miss rate for ReadReq accesses +system.cpu.dcache.ReadReq_misses 1070174 # number of ReadReq misses +system.cpu.dcache.ReadReq_mshr_miss_latency 24027880000 # number of ReadReq MSHR miss cycles +system.cpu.dcache.ReadReq_mshr_miss_rate 0.120398 # mshr miss rate for ReadReq accesses +system.cpu.dcache.ReadReq_mshr_misses 1070174 # number of ReadReq MSHR misses +system.cpu.dcache.ReadReq_mshr_uncacheable_latency 862763000 # number of ReadReq MSHR uncacheable cycles +system.cpu.dcache.StoreCondReq_accesses 199383 # number of StoreCondReq accesses(hits+misses) +system.cpu.dcache.StoreCondReq_avg_miss_latency 56004.366085 # average StoreCondReq miss latency +system.cpu.dcache.StoreCondReq_avg_mshr_miss_latency 53004.366085 # average StoreCondReq mshr miss latency +system.cpu.dcache.StoreCondReq_hits 169379 # number of StoreCondReq hits +system.cpu.dcache.StoreCondReq_miss_latency 1680355000 # number of StoreCondReq miss cycles +system.cpu.dcache.StoreCondReq_miss_rate 0.150484 # miss rate for StoreCondReq accesses +system.cpu.dcache.StoreCondReq_misses 30004 # number of StoreCondReq misses +system.cpu.dcache.StoreCondReq_mshr_miss_latency 1590343000 # number of StoreCondReq MSHR miss cycles +system.cpu.dcache.StoreCondReq_mshr_miss_rate 0.150484 # mshr miss rate for StoreCondReq accesses +system.cpu.dcache.StoreCondReq_mshr_misses 30004 # number of StoreCondReq MSHR misses +system.cpu.dcache.WriteReq_accesses 6160337 # number of WriteReq accesses(hits+misses) +system.cpu.dcache.WriteReq_avg_miss_latency 56004.022652 # average WriteReq miss latency +system.cpu.dcache.WriteReq_avg_mshr_miss_latency 53004.022652 # average WriteReq mshr miss latency system.cpu.dcache.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.cpu.dcache.WriteReq_hits 5757309 # number of WriteReq hits -system.cpu.dcache.WriteReq_miss_latency 22449496500 # number of WriteReq miss cycles -system.cpu.dcache.WriteReq_miss_rate 0.065093 # miss rate for WriteReq accesses +system.cpu.dcache.WriteReq_hits 5759482 # number of WriteReq hits +system.cpu.dcache.WriteReq_miss_latency 22449492500 # number of WriteReq miss cycles +system.cpu.dcache.WriteReq_miss_rate 0.065070 # miss rate for WriteReq accesses system.cpu.dcache.WriteReq_misses 400855 # number of WriteReq misses -system.cpu.dcache.WriteReq_mshr_miss_latency 21246931500 # number of WriteReq MSHR miss cycles -system.cpu.dcache.WriteReq_mshr_miss_rate 0.065093 # mshr miss rate for WriteReq accesses +system.cpu.dcache.WriteReq_mshr_miss_latency 21246927500 # number of WriteReq MSHR miss cycles +system.cpu.dcache.WriteReq_mshr_miss_rate 0.065070 # mshr miss rate for WriteReq accesses system.cpu.dcache.WriteReq_mshr_misses 400855 # number of WriteReq MSHR misses -system.cpu.dcache.WriteReq_mshr_uncacheable_latency 1186275000 # number of WriteReq MSHR uncacheable cycles +system.cpu.dcache.WriteReq_mshr_uncacheable_latency 1201243500 # number of WriteReq MSHR uncacheable cycles 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 10.091593 # Average number of references to valid blocks. +system.cpu.dcache.avg_refs 10.097318 # 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 15040830 # number of demand (read+write) accesses -system.cpu.dcache.demand_avg_miss_latency 33778.185851 # average overall miss latency -system.cpu.dcache.demand_avg_mshr_miss_latency 30778.154580 # average overall mshr miss latency -system.cpu.dcache.demand_hits 13569826 # number of demand (read+write) hits -system.cpu.dcache.demand_miss_latency 49687846500 # number of demand (read+write) miss cycles -system.cpu.dcache.demand_miss_rate 0.097801 # miss rate for demand accesses -system.cpu.dcache.demand_misses 1471004 # number of demand (read+write) misses +system.cpu.dcache.demand_accesses 15048990 # number of demand (read+write) accesses +system.cpu.dcache.demand_avg_miss_latency 33777.675695 # average overall miss latency +system.cpu.dcache.demand_avg_mshr_miss_latency 30777.644424 # average overall mshr miss latency +system.cpu.dcache.demand_hits 13577961 # number of demand (read+write) hits +system.cpu.dcache.demand_miss_latency 49687940500 # number of demand (read+write) miss cycles +system.cpu.dcache.demand_miss_rate 0.097749 # miss rate for demand accesses +system.cpu.dcache.demand_misses 1471029 # 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 45274788500 # number of demand (read+write) MSHR miss cycles -system.cpu.dcache.demand_mshr_miss_rate 0.097801 # mshr miss rate for demand accesses -system.cpu.dcache.demand_mshr_misses 1471004 # number of demand (read+write) MSHR misses +system.cpu.dcache.demand_mshr_miss_latency 45274807500 # number of demand (read+write) MSHR miss cycles +system.cpu.dcache.demand_mshr_miss_rate 0.097749 # mshr miss rate for demand accesses +system.cpu.dcache.demand_mshr_misses 1471029 # 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 15040830 # number of overall (read+write) accesses -system.cpu.dcache.overall_avg_miss_latency 33778.185851 # average overall miss latency -system.cpu.dcache.overall_avg_mshr_miss_latency 30778.154580 # average overall mshr miss latency +system.cpu.dcache.overall_accesses 15048990 # number of overall (read+write) accesses +system.cpu.dcache.overall_avg_miss_latency 33777.675695 # average overall miss latency +system.cpu.dcache.overall_avg_mshr_miss_latency 30777.644424 # average overall mshr miss latency system.cpu.dcache.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.cpu.dcache.overall_hits 13569826 # number of overall hits -system.cpu.dcache.overall_miss_latency 49687846500 # number of overall miss cycles -system.cpu.dcache.overall_miss_rate 0.097801 # miss rate for overall accesses -system.cpu.dcache.overall_misses 1471004 # number of overall misses +system.cpu.dcache.overall_hits 13577961 # number of overall hits +system.cpu.dcache.overall_miss_latency 49687940500 # number of overall miss cycles +system.cpu.dcache.overall_miss_rate 0.097749 # miss rate for overall accesses +system.cpu.dcache.overall_misses 1471029 # number of overall misses system.cpu.dcache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu.dcache.overall_mshr_miss_latency 45274788500 # number of overall MSHR miss cycles -system.cpu.dcache.overall_mshr_miss_rate 0.097801 # mshr miss rate for overall accesses -system.cpu.dcache.overall_mshr_misses 1471004 # number of overall MSHR misses -system.cpu.dcache.overall_mshr_uncacheable_latency 2034120000 # number of overall MSHR uncacheable cycles +system.cpu.dcache.overall_mshr_miss_latency 45274807500 # number of overall MSHR miss cycles +system.cpu.dcache.overall_mshr_miss_rate 0.097749 # mshr miss rate for overall accesses +system.cpu.dcache.overall_mshr_misses 1471029 # number of overall MSHR misses +system.cpu.dcache.overall_mshr_uncacheable_latency 2064006500 # 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 system.cpu.dcache.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr @@ -97,69 +97,69 @@ system.cpu.dcache.prefetcher.num_hwpf_issued 0 system.cpu.dcache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated 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 1391586 # number of replacements -system.cpu.dcache.sampled_refs 1392098 # Sample count of references to valid blocks. +system.cpu.dcache.replacements 1391606 # number of replacements +system.cpu.dcache.sampled_refs 1392118 # 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 511.984141 # Cycle average of tags in use -system.cpu.dcache.total_refs 14048487 # Total number of references to valid blocks. +system.cpu.dcache.tagsinuse 511.984142 # Cycle average of tags in use +system.cpu.dcache.total_refs 14056658 # Total number of references to valid blocks. system.cpu.dcache.warmup_cycle 84139000 # Cycle when the warmup percentage was hit. -system.cpu.dcache.writebacks 430461 # number of writebacks +system.cpu.dcache.writebacks 430459 # number of writebacks system.cpu.dtb.accesses 1020784 # DTB accesses system.cpu.dtb.acv 367 # DTB access violations -system.cpu.dtb.hits 15421361 # DTB hits +system.cpu.dtb.hits 15429793 # DTB hits system.cpu.dtb.misses 11466 # DTB misses system.cpu.dtb.read_accesses 728853 # DTB read accesses system.cpu.dtb.read_acv 210 # DTB read access violations -system.cpu.dtb.read_hits 9063577 # DTB read hits +system.cpu.dtb.read_hits 9069700 # DTB read hits system.cpu.dtb.read_misses 10324 # DTB read misses system.cpu.dtb.write_accesses 291931 # DTB write accesses system.cpu.dtb.write_acv 157 # DTB write access violations -system.cpu.dtb.write_hits 6357784 # DTB write hits +system.cpu.dtb.write_hits 6360093 # DTB write hits system.cpu.dtb.write_misses 1142 # DTB write misses -system.cpu.icache.ReadReq_accesses 56176946 # number of ReadReq accesses(hits+misses) -system.cpu.icache.ReadReq_avg_miss_latency 14711.628674 # average ReadReq miss latency -system.cpu.icache.ReadReq_avg_mshr_miss_latency 11710.898216 # average ReadReq mshr miss latency -system.cpu.icache.ReadReq_hits 55246023 # number of ReadReq hits -system.cpu.icache.ReadReq_miss_latency 13695393500 # number of ReadReq miss cycles -system.cpu.icache.ReadReq_miss_rate 0.016571 # miss rate for ReadReq accesses -system.cpu.icache.ReadReq_misses 930923 # number of ReadReq misses -system.cpu.icache.ReadReq_mshr_miss_latency 10901944500 # number of ReadReq MSHR miss cycles -system.cpu.icache.ReadReq_mshr_miss_rate 0.016571 # mshr miss rate for ReadReq accesses -system.cpu.icache.ReadReq_mshr_misses 930923 # number of ReadReq MSHR misses +system.cpu.icache.ReadReq_accesses 56217537 # number of ReadReq accesses(hits+misses) +system.cpu.icache.ReadReq_avg_miss_latency 14711.221983 # average ReadReq miss latency +system.cpu.icache.ReadReq_avg_mshr_miss_latency 11710.491665 # average ReadReq mshr miss latency +system.cpu.icache.ReadReq_hits 55286436 # number of ReadReq hits +system.cpu.icache.ReadReq_miss_latency 13697633500 # number of ReadReq miss cycles +system.cpu.icache.ReadReq_miss_rate 0.016562 # miss rate for ReadReq accesses +system.cpu.icache.ReadReq_misses 931101 # number of ReadReq misses +system.cpu.icache.ReadReq_mshr_miss_latency 10903650500 # number of ReadReq MSHR miss cycles +system.cpu.icache.ReadReq_mshr_miss_rate 0.016562 # mshr miss rate for ReadReq accesses +system.cpu.icache.ReadReq_mshr_misses 931101 # 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 59.355692 # Average number of references to valid blocks. +system.cpu.icache.avg_refs 59.387754 # 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 56176946 # number of demand (read+write) accesses -system.cpu.icache.demand_avg_miss_latency 14711.628674 # average overall miss latency -system.cpu.icache.demand_avg_mshr_miss_latency 11710.898216 # average overall mshr miss latency -system.cpu.icache.demand_hits 55246023 # number of demand (read+write) hits -system.cpu.icache.demand_miss_latency 13695393500 # number of demand (read+write) miss cycles -system.cpu.icache.demand_miss_rate 0.016571 # miss rate for demand accesses -system.cpu.icache.demand_misses 930923 # number of demand (read+write) misses +system.cpu.icache.demand_accesses 56217537 # number of demand (read+write) accesses +system.cpu.icache.demand_avg_miss_latency 14711.221983 # average overall miss latency +system.cpu.icache.demand_avg_mshr_miss_latency 11710.491665 # average overall mshr miss latency +system.cpu.icache.demand_hits 55286436 # number of demand (read+write) hits +system.cpu.icache.demand_miss_latency 13697633500 # number of demand (read+write) miss cycles +system.cpu.icache.demand_miss_rate 0.016562 # miss rate for demand accesses +system.cpu.icache.demand_misses 931101 # 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 10901944500 # number of demand (read+write) MSHR miss cycles -system.cpu.icache.demand_mshr_miss_rate 0.016571 # mshr miss rate for demand accesses -system.cpu.icache.demand_mshr_misses 930923 # number of demand (read+write) MSHR misses +system.cpu.icache.demand_mshr_miss_latency 10903650500 # number of demand (read+write) MSHR miss cycles +system.cpu.icache.demand_mshr_miss_rate 0.016562 # mshr miss rate for demand accesses +system.cpu.icache.demand_mshr_misses 931101 # 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 56176946 # number of overall (read+write) accesses -system.cpu.icache.overall_avg_miss_latency 14711.628674 # average overall miss latency -system.cpu.icache.overall_avg_mshr_miss_latency 11710.898216 # average overall mshr miss latency +system.cpu.icache.overall_accesses 56217537 # number of overall (read+write) accesses +system.cpu.icache.overall_avg_miss_latency 14711.221983 # average overall miss latency +system.cpu.icache.overall_avg_mshr_miss_latency 11710.491665 # 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 55246023 # number of overall hits -system.cpu.icache.overall_miss_latency 13695393500 # number of overall miss cycles -system.cpu.icache.overall_miss_rate 0.016571 # miss rate for overall accesses -system.cpu.icache.overall_misses 930923 # number of overall misses +system.cpu.icache.overall_hits 55286436 # number of overall hits +system.cpu.icache.overall_miss_latency 13697633500 # number of overall miss cycles +system.cpu.icache.overall_miss_rate 0.016562 # miss rate for overall accesses +system.cpu.icache.overall_misses 931101 # number of overall misses system.cpu.icache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu.icache.overall_mshr_miss_latency 10901944500 # number of overall MSHR miss cycles -system.cpu.icache.overall_mshr_miss_rate 0.016571 # mshr miss rate for overall accesses -system.cpu.icache.overall_mshr_misses 930923 # number of overall MSHR misses +system.cpu.icache.overall_mshr_miss_latency 10903650500 # number of overall MSHR miss cycles +system.cpu.icache.overall_mshr_miss_rate 0.016562 # mshr miss rate for overall accesses +system.cpu.icache.overall_mshr_misses 931101 # 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 @@ -171,19 +171,19 @@ system.cpu.icache.prefetcher.num_hwpf_issued 0 system.cpu.icache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated 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 930251 # number of replacements -system.cpu.icache.sampled_refs 930762 # Sample count of references to valid blocks. +system.cpu.icache.replacements 930429 # number of replacements +system.cpu.icache.sampled_refs 930940 # 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 508.559731 # Cycle average of tags in use -system.cpu.icache.total_refs 55246023 # Total number of references to valid blocks. +system.cpu.icache.tagsinuse 508.559728 # Cycle average of tags in use +system.cpu.icache.total_refs 55286436 # Total number of references to valid blocks. system.cpu.icache.warmup_cycle 39055604000 # Cycle when the warmup percentage was hit. system.cpu.icache.writebacks 0 # number of writebacks -system.cpu.idle_fraction 0.929251 # Percentage of idle cycles -system.cpu.itb.accesses 4982832 # ITB accesses +system.cpu.idle_fraction 0.929209 # Percentage of idle cycles +system.cpu.itb.accesses 4982987 # ITB accesses system.cpu.itb.acv 184 # ITB acv -system.cpu.itb.hits 4977822 # ITB hits +system.cpu.itb.hits 4977977 # ITB hits system.cpu.itb.misses 5010 # ITB misses -system.cpu.kern.callpal 193204 # number of callpals executed +system.cpu.kern.callpal 193221 # number of callpals executed system.cpu.kern.callpal_cserve 1 0.00% 0.00% # number of callpals executed system.cpu.kern.callpal_wrmces 1 0.00% 0.00% # number of callpals executed system.cpu.kern.callpal_wrfen 1 0.00% 0.00% # number of callpals executed @@ -191,7 +191,7 @@ system.cpu.kern.callpal_wrvptptr 1 0.00% 0.00% # nu system.cpu.kern.callpal_swpctx 4171 2.16% 2.16% # number of callpals executed system.cpu.kern.callpal_tbi 54 0.03% 2.19% # number of callpals executed system.cpu.kern.callpal_wrent 7 0.00% 2.19% # number of callpals executed -system.cpu.kern.callpal_swpipl 176240 91.22% 93.41% # number of callpals executed +system.cpu.kern.callpal_swpipl 176257 91.22% 93.41% # number of callpals executed system.cpu.kern.callpal_rdps 6844 3.54% 96.95% # number of callpals executed system.cpu.kern.callpal_wrkgp 1 0.00% 96.96% # number of callpals executed system.cpu.kern.callpal_wrusp 7 0.00% 96.96% # number of callpals executed @@ -201,40 +201,40 @@ system.cpu.kern.callpal_rti 5169 2.68% 99.64% # nu system.cpu.kern.callpal_callsys 515 0.27% 99.91% # number of callpals executed system.cpu.kern.callpal_imb 181 0.09% 100.00% # number of callpals executed system.cpu.kern.inst.arm 0 # number of arm instructions executed -system.cpu.kern.inst.hwrei 212308 # number of hwrei instructions executed -system.cpu.kern.inst.quiesce 6258 # number of quiesce instructions executed -system.cpu.kern.ipl_count 183485 # number of times we switched to this ipl -system.cpu.kern.ipl_count_0 74993 40.87% 40.87% # number of times we switched to this ipl +system.cpu.kern.inst.hwrei 212325 # number of hwrei instructions executed +system.cpu.kern.inst.quiesce 6374 # number of quiesce instructions executed +system.cpu.kern.ipl_count 183502 # number of times we switched to this ipl +system.cpu.kern.ipl_count_0 75001 40.87% 40.87% # number of times we switched to this ipl system.cpu.kern.ipl_count_21 131 0.07% 40.94% # number of times we switched to this ipl system.cpu.kern.ipl_count_22 1944 1.06% 42.00% # number of times we switched to this ipl -system.cpu.kern.ipl_count_31 106417 58.00% 100.00% # number of times we switched to this ipl -system.cpu.kern.ipl_good 149327 # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_good_0 73626 49.31% 49.31% # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_count_31 106426 58.00% 100.00% # number of times we switched to this ipl +system.cpu.kern.ipl_good 149343 # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_good_0 73634 49.31% 49.31% # number of times we switched to this ipl from a different ipl system.cpu.kern.ipl_good_21 131 0.09% 49.39% # number of times we switched to this ipl from a different ipl system.cpu.kern.ipl_good_22 1944 1.30% 50.69% # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_good_31 73626 49.31% 100.00% # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_ticks 1930165033000 # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_0 1867007591000 96.73% 96.73% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_21 96059500 0.00% 96.73% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_22 565327500 0.03% 96.76% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_31 62496055000 3.24% 100.00% # number of cycles we spent at this ipl -system.cpu.kern.ipl_used_0 0.981772 # fraction of swpipl calls that actually changed the ipl +system.cpu.kern.ipl_good_31 73634 49.31% 100.00% # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_ticks 1930163835000 # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_0 1866810523000 96.72% 96.72% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_21 96331500 0.00% 96.72% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_22 565310500 0.03% 96.75% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_31 62691670000 3.25% 100.00% # number of cycles we spent at this ipl +system.cpu.kern.ipl_used_0 0.981774 # fraction of swpipl calls that actually changed the ipl system.cpu.kern.ipl_used_21 1 # fraction of swpipl calls that actually changed the ipl system.cpu.kern.ipl_used_22 1 # fraction of swpipl calls that actually changed the ipl -system.cpu.kern.ipl_used_31 0.691863 # fraction of swpipl calls that actually changed the ipl -system.cpu.kern.mode_good_kernel 1910 -system.cpu.kern.mode_good_user 1743 +system.cpu.kern.ipl_used_31 0.691880 # fraction of swpipl calls that actually changed the ipl +system.cpu.kern.mode_good_kernel 1911 +system.cpu.kern.mode_good_user 1744 system.cpu.kern.mode_good_idle 167 system.cpu.kern.mode_switch_kernel 5917 # number of protection mode switches -system.cpu.kern.mode_switch_user 1743 # number of protection mode switches +system.cpu.kern.mode_switch_user 1744 # number of protection mode switches system.cpu.kern.mode_switch_idle 2089 # number of protection mode switches -system.cpu.kern.mode_switch_good 1.402741 # fraction of useful protection mode switches -system.cpu.kern.mode_switch_good_kernel 0.322799 # fraction of useful protection mode switches +system.cpu.kern.mode_switch_good 1.402910 # fraction of useful protection mode switches +system.cpu.kern.mode_switch_good_kernel 0.322968 # fraction of useful protection mode switches system.cpu.kern.mode_switch_good_user 1 # fraction of useful protection mode switches system.cpu.kern.mode_switch_good_idle 0.079943 # fraction of useful protection mode switches -system.cpu.kern.mode_ticks_kernel 48448667000 2.51% 2.51% # number of ticks spent at the given mode -system.cpu.kern.mode_ticks_user 5540662000 0.29% 2.80% # number of ticks spent at the given mode -system.cpu.kern.mode_ticks_idle 1876175702000 97.20% 100.00% # number of ticks spent at the given mode +system.cpu.kern.mode_ticks_kernel 48447088000 2.51% 2.51% # number of ticks spent at the given mode +system.cpu.kern.mode_ticks_user 5539986000 0.29% 2.80% # number of ticks spent at the given mode +system.cpu.kern.mode_ticks_idle 1876176759000 97.20% 100.00% # number of ticks spent at the given mode system.cpu.kern.swap_context 4172 # number of times the context was actually changed system.cpu.kern.syscall 326 # number of syscalls executed system.cpu.kern.syscall_2 8 2.45% 2.45% # number of syscalls executed @@ -267,10 +267,10 @@ system.cpu.kern.syscall_98 2 0.61% 97.55% # nu system.cpu.kern.syscall_132 4 1.23% 98.77% # number of syscalls executed system.cpu.kern.syscall_144 2 0.61% 99.39% # number of syscalls executed system.cpu.kern.syscall_147 2 0.61% 100.00% # number of syscalls executed -system.cpu.not_idle_fraction 0.070749 # Percentage of non-idle cycles -system.cpu.numCycles 3860331582 # number of cpu cycles simulated -system.cpu.num_insts 56165112 # Number of instructions executed -system.cpu.num_refs 15669461 # Number of memory references +system.cpu.not_idle_fraction 0.070791 # Percentage of non-idle cycles +system.cpu.numCycles 3860329186 # number of cpu cycles simulated +system.cpu.num_insts 56205703 # Number of instructions executed +system.cpu.num_refs 15677891 # Number of memory references system.disk0.dma_read_bytes 1024 # Number of bytes transfered via DMA reads (not PRD). system.disk0.dma_read_full_pages 0 # Number of full page size DMA reads (not PRD). system.disk0.dma_read_txs 1 # Number of DMA read transactions (not PRD). @@ -293,46 +293,46 @@ system.iocache.ReadReq_mshr_miss_latency 10942998 # nu system.iocache.ReadReq_mshr_miss_rate 1 # mshr miss rate for ReadReq accesses system.iocache.ReadReq_mshr_misses 173 # number of ReadReq MSHR misses system.iocache.WriteReq_accesses 41552 # number of WriteReq accesses(hits+misses) -system.iocache.WriteReq_avg_miss_latency 137880.578697 # average WriteReq miss latency -system.iocache.WriteReq_avg_mshr_miss_latency 85877.091981 # average WriteReq mshr miss latency -system.iocache.WriteReq_miss_latency 5729213806 # number of WriteReq miss cycles +system.iocache.WriteReq_avg_miss_latency 137876.559636 # average WriteReq miss latency +system.iocache.WriteReq_avg_mshr_miss_latency 85873.072921 # average WriteReq mshr miss latency +system.iocache.WriteReq_miss_latency 5729046806 # number of WriteReq miss cycles system.iocache.WriteReq_miss_rate 1 # miss rate for WriteReq accesses system.iocache.WriteReq_misses 41552 # number of WriteReq misses -system.iocache.WriteReq_mshr_miss_latency 3568364926 # number of WriteReq MSHR miss cycles +system.iocache.WriteReq_mshr_miss_latency 3568197926 # number of WriteReq MSHR miss cycles system.iocache.WriteReq_mshr_miss_rate 1 # mshr miss rate for WriteReq accesses system.iocache.WriteReq_mshr_misses 41552 # number of WriteReq MSHR misses -system.iocache.avg_blocked_cycles_no_mshrs 6163.865928 # average number of cycles each access was blocked +system.iocache.avg_blocked_cycles_no_mshrs 6163.674943 # average number of cycles each access was blocked system.iocache.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked system.iocache.avg_refs 0 # Average number of references to valid blocks. system.iocache.blocked_no_mshrs 10472 # number of cycles access was blocked system.iocache.blocked_no_targets 0 # number of cycles access was blocked -system.iocache.blocked_cycles_no_mshrs 64548004 # number of cycles access was blocked +system.iocache.blocked_cycles_no_mshrs 64546004 # number of cycles access was blocked system.iocache.blocked_cycles_no_targets 0 # number of cycles access was blocked system.iocache.cache_copies 0 # number of cache copies performed system.iocache.demand_accesses 41725 # number of demand (read+write) accesses -system.iocache.demand_avg_miss_latency 137786.765824 # average overall miss latency -system.iocache.demand_avg_mshr_miss_latency 85783.293565 # average overall mshr miss latency +system.iocache.demand_avg_miss_latency 137782.763427 # average overall miss latency +system.iocache.demand_avg_mshr_miss_latency 85779.291168 # average overall mshr miss latency system.iocache.demand_hits 0 # number of demand (read+write) hits -system.iocache.demand_miss_latency 5749152804 # number of demand (read+write) miss cycles +system.iocache.demand_miss_latency 5748985804 # number of demand (read+write) miss cycles system.iocache.demand_miss_rate 1 # miss rate for demand accesses system.iocache.demand_misses 41725 # number of demand (read+write) misses system.iocache.demand_mshr_hits 0 # number of demand (read+write) MSHR hits -system.iocache.demand_mshr_miss_latency 3579307924 # number of demand (read+write) MSHR miss cycles +system.iocache.demand_mshr_miss_latency 3579140924 # number of demand (read+write) MSHR miss cycles system.iocache.demand_mshr_miss_rate 1 # mshr miss rate for demand accesses system.iocache.demand_mshr_misses 41725 # number of demand (read+write) MSHR misses system.iocache.fast_writes 0 # number of fast writes performed system.iocache.mshr_cap_events 0 # number of times MSHR cap was activated system.iocache.no_allocate_misses 0 # Number of misses that were no-allocate system.iocache.overall_accesses 41725 # number of overall (read+write) accesses -system.iocache.overall_avg_miss_latency 137786.765824 # average overall miss latency -system.iocache.overall_avg_mshr_miss_latency 85783.293565 # average overall mshr miss latency +system.iocache.overall_avg_miss_latency 137782.763427 # average overall miss latency +system.iocache.overall_avg_mshr_miss_latency 85779.291168 # average overall mshr miss latency system.iocache.overall_avg_mshr_uncacheable_latency <err: div-0> # average overall mshr uncacheable latency system.iocache.overall_hits 0 # number of overall hits -system.iocache.overall_miss_latency 5749152804 # number of overall miss cycles +system.iocache.overall_miss_latency 5748985804 # number of overall miss cycles system.iocache.overall_miss_rate 1 # miss rate for overall accesses system.iocache.overall_misses 41725 # number of overall misses system.iocache.overall_mshr_hits 0 # number of overall MSHR hits -system.iocache.overall_mshr_miss_latency 3579307924 # number of overall MSHR miss cycles +system.iocache.overall_mshr_miss_latency 3579140924 # number of overall MSHR miss cycles system.iocache.overall_mshr_miss_rate 1 # mshr miss rate for overall accesses system.iocache.overall_mshr_misses 41725 # number of overall MSHR misses system.iocache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles @@ -349,79 +349,79 @@ system.iocache.prefetcher.num_hwpf_squashed_from_miss 0 system.iocache.replacements 41685 # number of replacements system.iocache.sampled_refs 41701 # Sample count of references to valid blocks. system.iocache.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.iocache.tagsinuse 1.353410 # Cycle average of tags in use +system.iocache.tagsinuse 1.353399 # Cycle average of tags in use system.iocache.total_refs 0 # Total number of references to valid blocks. -system.iocache.warmup_cycle 1762299198000 # Cycle when the warmup percentage was hit. +system.iocache.warmup_cycle 1762299470000 # Cycle when the warmup percentage was hit. system.iocache.writebacks 41512 # number of writebacks -system.l2c.ReadExReq_accesses 304625 # number of ReadExReq accesses(hits+misses) -system.l2c.ReadExReq_avg_miss_latency 52003.272876 # average ReadExReq miss latency -system.l2c.ReadExReq_avg_mshr_miss_latency 40003.272876 # average ReadExReq mshr miss latency -system.l2c.ReadExReq_miss_latency 15841497000 # number of ReadExReq miss cycles +system.l2c.ReadExReq_accesses 304636 # number of ReadExReq accesses(hits+misses) +system.l2c.ReadExReq_avg_miss_latency 52003.289171 # average ReadExReq miss latency +system.l2c.ReadExReq_avg_mshr_miss_latency 40003.289171 # average ReadExReq mshr miss latency +system.l2c.ReadExReq_miss_latency 15842074000 # number of ReadExReq miss cycles system.l2c.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses -system.l2c.ReadExReq_misses 304625 # number of ReadExReq misses -system.l2c.ReadExReq_mshr_miss_latency 12185997000 # number of ReadExReq MSHR miss cycles +system.l2c.ReadExReq_misses 304636 # number of ReadExReq misses +system.l2c.ReadExReq_mshr_miss_latency 12186442000 # number of ReadExReq MSHR miss cycles system.l2c.ReadExReq_mshr_miss_rate 1 # mshr miss rate for ReadExReq accesses -system.l2c.ReadExReq_mshr_misses 304625 # number of ReadExReq MSHR misses -system.l2c.ReadReq_accesses 2018377 # number of ReadReq accesses(hits+misses) -system.l2c.ReadReq_avg_miss_latency 52016.376522 # average ReadReq miss latency -system.l2c.ReadReq_avg_mshr_miss_latency 40016.358642 # average ReadReq mshr miss latency +system.l2c.ReadExReq_mshr_misses 304636 # number of ReadExReq MSHR misses +system.l2c.ReadReq_accesses 2018564 # number of ReadReq accesses(hits+misses) +system.l2c.ReadReq_avg_miss_latency 52016.377161 # average ReadReq miss latency +system.l2c.ReadReq_avg_mshr_miss_latency 40016.359280 # average ReadReq mshr miss latency system.l2c.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.l2c.ReadReq_hits 1710772 # number of ReadReq hits -system.l2c.ReadReq_miss_latency 16000497500 # number of ReadReq miss cycles -system.l2c.ReadReq_miss_rate 0.152402 # miss rate for ReadReq accesses -system.l2c.ReadReq_misses 307605 # number of ReadReq misses -system.l2c.ReadReq_mshr_miss_latency 12309232000 # number of ReadReq MSHR miss cycles -system.l2c.ReadReq_mshr_miss_rate 0.152402 # mshr miss rate for ReadReq accesses -system.l2c.ReadReq_mshr_misses 307605 # number of ReadReq MSHR misses -system.l2c.ReadReq_mshr_uncacheable_latency 759315000 # number of ReadReq MSHR uncacheable cycles -system.l2c.UpgradeReq_accesses 126236 # number of UpgradeReq accesses(hits+misses) -system.l2c.UpgradeReq_avg_miss_latency 52001.881397 # average UpgradeReq miss latency -system.l2c.UpgradeReq_avg_mshr_miss_latency 40005.980861 # average UpgradeReq mshr miss latency -system.l2c.UpgradeReq_miss_latency 6564509500 # number of UpgradeReq miss cycles +system.l2c.ReadReq_hits 1710971 # number of ReadReq hits +system.l2c.ReadReq_miss_latency 15999873500 # number of ReadReq miss cycles +system.l2c.ReadReq_miss_rate 0.152382 # miss rate for ReadReq accesses +system.l2c.ReadReq_misses 307593 # number of ReadReq misses +system.l2c.ReadReq_mshr_miss_latency 12308752000 # number of ReadReq MSHR miss cycles +system.l2c.ReadReq_mshr_miss_rate 0.152382 # mshr miss rate for ReadReq accesses +system.l2c.ReadReq_mshr_misses 307593 # number of ReadReq MSHR misses +system.l2c.ReadReq_mshr_uncacheable_latency 772673000 # number of ReadReq MSHR uncacheable cycles +system.l2c.UpgradeReq_accesses 126223 # number of UpgradeReq accesses(hits+misses) +system.l2c.UpgradeReq_avg_miss_latency 52001.810288 # average UpgradeReq miss latency +system.l2c.UpgradeReq_avg_mshr_miss_latency 40005.910175 # average UpgradeReq mshr miss latency +system.l2c.UpgradeReq_miss_latency 6563824500 # number of UpgradeReq miss cycles system.l2c.UpgradeReq_miss_rate 1 # miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_misses 126236 # number of UpgradeReq misses -system.l2c.UpgradeReq_mshr_miss_latency 5050195000 # number of UpgradeReq MSHR miss cycles +system.l2c.UpgradeReq_misses 126223 # number of UpgradeReq misses +system.l2c.UpgradeReq_mshr_miss_latency 5049666000 # number of UpgradeReq MSHR miss cycles system.l2c.UpgradeReq_mshr_miss_rate 1 # mshr miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_mshr_misses 126236 # number of UpgradeReq MSHR misses +system.l2c.UpgradeReq_mshr_misses 126223 # number of UpgradeReq MSHR misses system.l2c.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.l2c.WriteReq_mshr_uncacheable_latency 1071771000 # number of WriteReq MSHR uncacheable cycles -system.l2c.Writeback_accesses 430461 # number of Writeback accesses(hits+misses) -system.l2c.Writeback_hits 430461 # number of Writeback hits +system.l2c.WriteReq_mshr_uncacheable_latency 1085299500 # number of WriteReq MSHR uncacheable cycles +system.l2c.Writeback_accesses 430459 # number of Writeback accesses(hits+misses) +system.l2c.Writeback_hits 430459 # number of Writeback hits system.l2c.avg_blocked_cycles_no_mshrs <err: div-0> # average number of cycles each access was blocked system.l2c.avg_blocked_cycles_no_targets <err: div-0> # average number of cycles each access was blocked -system.l2c.avg_refs 4.436452 # Average number of references to valid blocks. +system.l2c.avg_refs 4.436562 # Average number of references to valid blocks. system.l2c.blocked_no_mshrs 0 # number of cycles access was blocked system.l2c.blocked_no_targets 0 # number of cycles access was blocked system.l2c.blocked_cycles_no_mshrs 0 # number of cycles access was blocked system.l2c.blocked_cycles_no_targets 0 # number of cycles access was blocked system.l2c.cache_copies 0 # number of cache copies performed -system.l2c.demand_accesses 2323002 # number of demand (read+write) accesses -system.l2c.demand_avg_miss_latency 52009.856590 # average overall miss latency -system.l2c.demand_avg_mshr_miss_latency 40009.847606 # average overall mshr miss latency -system.l2c.demand_hits 1710772 # number of demand (read+write) hits -system.l2c.demand_miss_latency 31841994500 # number of demand (read+write) miss cycles -system.l2c.demand_miss_rate 0.263551 # miss rate for demand accesses -system.l2c.demand_misses 612230 # number of demand (read+write) misses +system.l2c.demand_accesses 2323200 # number of demand (read+write) accesses +system.l2c.demand_avg_miss_latency 52009.864773 # average overall miss latency +system.l2c.demand_avg_mshr_miss_latency 40009.855789 # average overall mshr miss latency +system.l2c.demand_hits 1710971 # number of demand (read+write) hits +system.l2c.demand_miss_latency 31841947500 # number of demand (read+write) miss cycles +system.l2c.demand_miss_rate 0.263528 # miss rate for demand accesses +system.l2c.demand_misses 612229 # number of demand (read+write) misses system.l2c.demand_mshr_hits 0 # number of demand (read+write) MSHR hits -system.l2c.demand_mshr_miss_latency 24495229000 # number of demand (read+write) MSHR miss cycles -system.l2c.demand_mshr_miss_rate 0.263551 # mshr miss rate for demand accesses -system.l2c.demand_mshr_misses 612230 # number of demand (read+write) MSHR misses +system.l2c.demand_mshr_miss_latency 24495194000 # number of demand (read+write) MSHR miss cycles +system.l2c.demand_mshr_miss_rate 0.263528 # mshr miss rate for demand accesses +system.l2c.demand_mshr_misses 612229 # number of demand (read+write) MSHR misses system.l2c.fast_writes 0 # number of fast writes performed system.l2c.mshr_cap_events 0 # number of times MSHR cap was activated system.l2c.no_allocate_misses 0 # Number of misses that were no-allocate -system.l2c.overall_accesses 2323002 # number of overall (read+write) accesses -system.l2c.overall_avg_miss_latency 52009.856590 # average overall miss latency -system.l2c.overall_avg_mshr_miss_latency 40009.847606 # average overall mshr miss latency +system.l2c.overall_accesses 2323200 # number of overall (read+write) accesses +system.l2c.overall_avg_miss_latency 52009.864773 # average overall miss latency +system.l2c.overall_avg_mshr_miss_latency 40009.855789 # average overall mshr miss latency system.l2c.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.l2c.overall_hits 1710772 # number of overall hits -system.l2c.overall_miss_latency 31841994500 # number of overall miss cycles -system.l2c.overall_miss_rate 0.263551 # miss rate for overall accesses -system.l2c.overall_misses 612230 # number of overall misses +system.l2c.overall_hits 1710971 # number of overall hits +system.l2c.overall_miss_latency 31841947500 # number of overall miss cycles +system.l2c.overall_miss_rate 0.263528 # miss rate for overall accesses +system.l2c.overall_misses 612229 # number of overall misses system.l2c.overall_mshr_hits 0 # number of overall MSHR hits -system.l2c.overall_mshr_miss_latency 24495229000 # number of overall MSHR miss cycles -system.l2c.overall_mshr_miss_rate 0.263551 # mshr miss rate for overall accesses -system.l2c.overall_mshr_misses 612230 # number of overall MSHR misses -system.l2c.overall_mshr_uncacheable_latency 1831086000 # number of overall MSHR uncacheable cycles +system.l2c.overall_mshr_miss_latency 24495194000 # number of overall MSHR miss cycles +system.l2c.overall_mshr_miss_rate 0.263528 # mshr miss rate for overall accesses +system.l2c.overall_mshr_misses 612229 # number of overall MSHR misses +system.l2c.overall_mshr_uncacheable_latency 1857972500 # number of overall MSHR uncacheable cycles system.l2c.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses system.l2c.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache system.l2c.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr @@ -432,13 +432,13 @@ system.l2c.prefetcher.num_hwpf_issued 0 # nu system.l2c.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated system.l2c.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page system.l2c.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time -system.l2c.replacements 394925 # number of replacements -system.l2c.sampled_refs 425907 # Sample count of references to valid blocks. +system.l2c.replacements 394928 # number of replacements +system.l2c.sampled_refs 425903 # Sample count of references to valid blocks. system.l2c.soft_prefetch_mshr_full 0 # number of mshr full events for SW prefetching instrutions -system.l2c.tagsinuse 30594.024615 # Cycle average of tags in use -system.l2c.total_refs 1889516 # Total number of references to valid blocks. +system.l2c.tagsinuse 30591.543942 # Cycle average of tags in use +system.l2c.total_refs 1889545 # Total number of references to valid blocks. system.l2c.warmup_cycle 6968733000 # Cycle when the warmup percentage was hit. -system.l2c.writebacks 119047 # number of writebacks +system.l2c.writebacks 119060 # number of writebacks system.tsunami.ethernet.coalescedRxDesc <err: div-0> # average number of RxDesc's coalesced into each post system.tsunami.ethernet.coalescedRxIdle <err: div-0> # average number of RxIdle's coalesced into each post system.tsunami.ethernet.coalescedRxOk <err: div-0> # average number of RxOk's coalesced into each post diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/system.terminal b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/system.terminal index 3efa225a8..ff644ed3f 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/system.terminal +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/system.terminal @@ -56,6 +56,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000
loop: loaded (max 8 devices)
nbd: registered device at major 43
ns83820.c: National Semiconductor DP83820 10/100/1000 driver. +
PCI: Setting latency timer of device 0000:00:01.0 to 64
eth0: ns83820.c: 0x22c: 00000000, subsystem: 0000:0000
eth0: enabling optical transceiver
eth0: using 64 bit addressing. @@ -67,6 +68,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000
PIIX4: IDE controller at PCI slot 0000:00:00.0
PIIX4: chipset revision 0
PIIX4: 100% native mode on irq 31 +
PCI: Setting latency timer of device 0000:00:00.0 to 64
ide0: BM-DMA at 0x8400-0x8407, BIOS settings: hda:DMA, hdb:DMA
ide1: BM-DMA at 0x8408-0x840f, BIOS settings: hdc:DMA, hdd:DMA
hda: M5 IDE Disk, ATA DISK drive diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/config.ini b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/config.ini index 3e554a663..3bf761d34 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/config.ini +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/config.ini @@ -14,7 +14,7 @@ kernel=/dist/m5/system/binaries/vmlinux mem_mode=atomic pal=/dist/m5/system/binaries/ts_osfpal physmem=drivesys.physmem -readfile=/z/hsul/work/m5/m5-tls/configs/boot/netperf-server.rcS +readfile=/home/gblack/m5/repos/m5.x86fs/configs/boot/netperf-server.rcS symbolfile= system_rev=1024 system_type=34 @@ -703,7 +703,7 @@ kernel=/dist/m5/system/binaries/vmlinux mem_mode=atomic pal=/dist/m5/system/binaries/ts_osfpal physmem=testsys.physmem -readfile=/z/hsul/work/m5/m5-tls/configs/boot/netperf-stream-client.rcS +readfile=/home/gblack/m5/repos/m5.x86fs/configs/boot/netperf-stream-client.rcS symbolfile= system_rev=1024 system_type=34 diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/drivesys.terminal b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/drivesys.terminal index 89c68d228..5501b27d6 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/drivesys.terminal +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/drivesys.terminal @@ -55,6 +55,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000
loop: loaded (max 8 devices)
nbd: registered device at major 43
ns83820.c: National Semiconductor DP83820 10/100/1000 driver. +
PCI: Setting latency timer of device 0000:00:01.0 to 64
eth0: ns83820.c: 0x22c: 00000000, subsystem: 0000:0000
eth0: enabling optical transceiver
eth0: using 64 bit addressing. @@ -66,6 +67,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000
PIIX4: IDE controller at PCI slot 0000:00:00.0
PIIX4: chipset revision 0
PIIX4: 100% native mode on irq 31 +
PCI: Setting latency timer of device 0000:00:00.0 to 64
ide0: BM-DMA at 0x8400-0x8407, BIOS settings: hda:DMA, hdb:DMA
ide1: BM-DMA at 0x8408-0x840f, BIOS settings: hdc:DMA, hdd:DMA
hda: M5 IDE Disk, ATA DISK drive diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/simout b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/simout index b7a61e7b4..361a090ba 100755 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/simout +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/simout @@ -5,12 +5,12 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Dec 4 2008 21:30:58 -M5 revision 5755:d6a5329ec79b40f273fe6dacb70354f281725652 -M5 commit date Thu Dec 04 18:04:32 2008 -0500 -M5 started Dec 4 2008 21:38:27 -M5 executing on zizzer -command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/80.netperf-stream/alpha/linux/twosys-tsunami-simple-atomic -re --stdout-file stdout --stderr-file stderr tests/run.py quick/80.netperf-stream/alpha/linux/twosys-tsunami-simple-atomic +M5 compiled Dec 14 2008 21:47:07 +M5 revision 5776:07905796d7bea4187139808b7de687a99cbc3141 +M5 commit date Sun Dec 14 21:45:15 2008 -0800 +M5 started Dec 14 2008 21:48:20 +M5 executing on tater +command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/80.netperf-stream/alpha/linux/twosys-tsunami-simple-atomic -re tests/run.py quick/80.netperf-stream/alpha/linux/twosys-tsunami-simple-atomic Global frequency set at 1000000000000 ticks per second info: Entering event queue @ 0. Starting simulation... Exiting @ tick 4300236804024 because checkpoint diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stats.txt b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stats.txt index 3a06809c5..80d312c00 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stats.txt +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stats.txt @@ -139,12 +139,12 @@ drivesys.tsunami.ethernet.txPPS 25 # Pa drivesys.tsunami.ethernet.txPackets 5 # Number of Packets Transmitted drivesys.tsunami.ethernet.txTcpChecksums 2 # Number of tx TCP Checksums done by device drivesys.tsunami.ethernet.txUdpChecksums 0 # Number of tx UDP Checksums done by device -host_inst_rate 200792296 # Simulator instruction rate (inst/s) -host_mem_usage 476644 # Number of bytes of host memory used -host_seconds 1.36 # Real time elapsed on the host -host_tick_rate 146922204609 # Simulator tick rate (ticks/s) +host_inst_rate 184651715 # Simulator instruction rate (inst/s) +host_mem_usage 478008 # Number of bytes of host memory used +host_seconds 1.48 # Real time elapsed on the host +host_tick_rate 135077074315 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks -sim_insts 273294177 # Number of instructions simulated +sim_insts 273374833 # Number of instructions simulated sim_seconds 0.200001 # Number of seconds simulated sim_ticks 200000789468 # Number of ticks simulated testsys.cpu.dtb.accesses 335402 # DTB accesses @@ -381,12 +381,12 @@ drivesys.tsunami.ethernet.totalSwi 0 # to drivesys.tsunami.ethernet.totalTxDesc 0 # total number of TxDesc written to ISR drivesys.tsunami.ethernet.totalTxIdle 0 # total number of TxIdle written to ISR drivesys.tsunami.ethernet.totalTxOk 0 # total number of TxOk written to ISR -host_inst_rate 214516622449 # Simulator instruction rate (inst/s) -host_mem_usage 476644 # Number of bytes of host memory used +host_inst_rate 161951915284 # Simulator instruction rate (inst/s) +host_mem_usage 478008 # Number of bytes of host memory used host_seconds 0.00 # Real time elapsed on the host -host_tick_rate 582637509 # Simulator tick rate (ticks/s) +host_tick_rate 438603795 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks -sim_insts 273294177 # Number of instructions simulated +sim_insts 273374833 # Number of instructions simulated sim_seconds 0.000001 # Number of seconds simulated sim_ticks 785978 # Number of ticks simulated testsys.cpu.dtb.accesses 0 # DTB accesses diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/testsys.terminal b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/testsys.terminal index c1cb6aad0..ecae2497e 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/testsys.terminal +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/testsys.terminal @@ -55,6 +55,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000
loop: loaded (max 8 devices)
nbd: registered device at major 43
ns83820.c: National Semiconductor DP83820 10/100/1000 driver. +
PCI: Setting latency timer of device 0000:00:01.0 to 64
eth0: ns83820.c: 0x22c: 00000000, subsystem: 0000:0000
eth0: enabling optical transceiver
eth0: using 64 bit addressing. @@ -66,6 +67,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000
PIIX4: IDE controller at PCI slot 0000:00:00.0
PIIX4: chipset revision 0
PIIX4: 100% native mode on irq 31 +
PCI: Setting latency timer of device 0000:00:00.0 to 64
ide0: BM-DMA at 0x8400-0x8407, BIOS settings: hda:DMA, hdb:DMA
ide1: BM-DMA at 0x8408-0x840f, BIOS settings: hdc:DMA, hdd:DMA
hda: M5 IDE Disk, ATA DISK drive |