From 9493501fdb087c82111d8692995474f2e8f3f390 Mon Sep 17 00:00:00 2001 From: Ali Saidi Date: Fri, 10 Aug 2007 16:14:02 -0400 Subject: [PATCH] Regression: Add an I/O Cache to the full system regressions that have a cache. --HG-- extra : convert_revision : 8ba96e21be2f602eed8258d410038dbe998ef176 --- tests/configs/tsunami-simple-atomic-dual.py | 18 + tests/configs/tsunami-simple-atomic.py | 18 + tests/configs/tsunami-simple-timing-dual.py | 18 + tests/configs/tsunami-simple-timing.py | 19 + .../tsunami-simple-atomic-dual/config.ini | 66 +- .../console.system.sim_console | 11 +- .../tsunami-simple-atomic-dual/m5stats.txt | 66 +- .../linux/tsunami-simple-atomic-dual/stderr | 4 +- .../linux/tsunami-simple-atomic-dual/stdout | 6 +- .../linux/tsunami-simple-atomic/config.ini | 62 +- .../console.system.sim_console | 9 +- .../linux/tsunami-simple-atomic/m5stats.txt | 66 +- .../alpha/linux/tsunami-simple-atomic/stderr | 4 +- .../alpha/linux/tsunami-simple-atomic/stdout | 6 +- .../tsunami-simple-timing-dual/config.ini | 66 +- .../console.system.sim_console | 13 +- .../tsunami-simple-timing-dual/m5stats.txt | 986 ++++++++++-------- .../linux/tsunami-simple-timing-dual/stderr | 4 +- .../linux/tsunami-simple-timing-dual/stdout | 8 +- .../linux/tsunami-simple-timing/config.ini | 62 +- .../console.system.sim_console | 9 +- .../linux/tsunami-simple-timing/m5stats.txt | 488 +++++---- .../alpha/linux/tsunami-simple-timing/stderr | 4 +- .../alpha/linux/tsunami-simple-timing/stdout | 8 +- .../twosys-tsunami-simple-atomic/config.ini | 12 +- .../console.drivesys.sim_console | 21 +- .../console.testsys.sim_console | 39 +- .../twosys-tsunami-simple-atomic/m5stats.txt | 14 +- .../linux/twosys-tsunami-simple-atomic/stderr | 8 +- .../linux/twosys-tsunami-simple-atomic/stdout | 6 +- 30 files changed, 1316 insertions(+), 805 deletions(-) diff --git a/tests/configs/tsunami-simple-atomic-dual.py b/tests/configs/tsunami-simple-atomic-dual.py index de8fe2474..0e58d39af 100644 --- a/tests/configs/tsunami-simple-atomic-dual.py +++ b/tests/configs/tsunami-simple-atomic-dual.py @@ -52,10 +52,28 @@ class L2(BaseCache): tgts_per_mshr = 16 write_buffers = 8 +# --------------------- +# I/O Cache +# --------------------- +class IOCache(BaseCache): + assoc = 8 + block_size = 64 + latency = '50ns' + mshrs = 20 + size = '1kB' + tgts_per_mshr = 12 + mem_side_filter_ranges=[AddrRange(0, Addr.max)] + cpu_side_filter_ranges=[AddrRange(0x8000000000, Addr.max)] + #cpu cpus = [ AtomicSimpleCPU(cpu_id=i) for i in xrange(2) ] #the system system = FSConfig.makeLinuxAlphaSystem('atomic') +system.bridge.filter_ranges_a=[AddrRange(0, Addr.max)] +system.bridge.filter_ranges_b=[AddrRange(0, size='8GB')] +system.iocache = IOCache() +system.iocache.cpu_side = system.iobus.port +system.iocache.mem_side = system.membus.port system.cpu = cpus #create the l1/l2 bus diff --git a/tests/configs/tsunami-simple-atomic.py b/tests/configs/tsunami-simple-atomic.py index 2ba50273a..2374734ec 100644 --- a/tests/configs/tsunami-simple-atomic.py +++ b/tests/configs/tsunami-simple-atomic.py @@ -52,10 +52,28 @@ class L2(BaseCache): tgts_per_mshr = 16 write_buffers = 8 +# --------------------- +# I/O Cache +# --------------------- +class IOCache(BaseCache): + assoc = 8 + block_size = 64 + latency = '50ns' + mshrs = 20 + size = '1kB' + tgts_per_mshr = 12 + mem_side_filter_ranges=[AddrRange(0, Addr.max)] + cpu_side_filter_ranges=[AddrRange(0x8000000000, Addr.max)] + #cpu cpu = AtomicSimpleCPU(cpu_id=0) #the system system = FSConfig.makeLinuxAlphaSystem('atomic') +system.bridge.filter_ranges_a=[AddrRange(0, Addr.max)] +system.bridge.filter_ranges_b=[AddrRange(0, size='8GB')] +system.iocache = IOCache() +system.iocache.cpu_side = system.iobus.port +system.iocache.mem_side = system.membus.port system.cpu = cpu #create the l1/l2 bus diff --git a/tests/configs/tsunami-simple-timing-dual.py b/tests/configs/tsunami-simple-timing-dual.py index 3b1a4f5cf..d7c4bb6e8 100644 --- a/tests/configs/tsunami-simple-timing-dual.py +++ b/tests/configs/tsunami-simple-timing-dual.py @@ -52,10 +52,28 @@ class L2(BaseCache): tgts_per_mshr = 16 write_buffers = 8 +# --------------------- +# I/O Cache +# --------------------- +class IOCache(BaseCache): + assoc = 8 + block_size = 64 + latency = '50ns' + mshrs = 20 + size = '1kB' + tgts_per_mshr = 12 + mem_side_filter_ranges=[AddrRange(0, Addr.max)] + cpu_side_filter_ranges=[AddrRange(0x8000000000, Addr.max)] + #cpu cpus = [ TimingSimpleCPU(cpu_id=i) for i in xrange(2) ] #the system system = FSConfig.makeLinuxAlphaSystem('timing') +system.bridge.filter_ranges_a=[AddrRange(0, Addr.max)] +system.bridge.filter_ranges_b=[AddrRange(0, size='8GB')] +system.iocache = IOCache() +system.iocache.cpu_side = system.iobus.port +system.iocache.mem_side = system.membus.port system.cpu = cpus #create the l1/l2 bus diff --git a/tests/configs/tsunami-simple-timing.py b/tests/configs/tsunami-simple-timing.py index 3f18c6848..96cd27111 100644 --- a/tests/configs/tsunami-simple-timing.py +++ b/tests/configs/tsunami-simple-timing.py @@ -53,6 +53,19 @@ class L2(BaseCache): tgts_per_mshr = 16 write_buffers = 8 +# --------------------- +# I/O Cache +# --------------------- +class IOCache(BaseCache): + assoc = 8 + block_size = 64 + latency = '50ns' + mshrs = 20 + size = '1kB' + tgts_per_mshr = 12 + mem_side_filter_ranges=[AddrRange(0, Addr.max)] + cpu_side_filter_ranges=[AddrRange(0x8000000000, Addr.max)] + #cpu cpu = TimingSimpleCPU(cpu_id=0) #the system @@ -61,6 +74,12 @@ system = FSConfig.makeLinuxAlphaSystem('timing') system.cpu = cpu #create the l1/l2 bus system.toL2Bus = Bus() +system.bridge.filter_ranges_a=[AddrRange(0, Addr.max)] +system.bridge.filter_ranges_b=[AddrRange(0, size='8GB')] +system.iocache = IOCache() +system.iocache.cpu_side = system.iobus.port +system.iocache.mem_side = system.membus.port + #connect up the l2 cache system.l2c = L2(size='4MB', assoc=8) diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/config.ini b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/config.ini index d3a9862e8..1f7fcb065 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/config.ini +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/config.ini @@ -5,7 +5,7 @@ dummy=0 [system] type=LinuxAlphaSystem -children=bridge cpu0 cpu1 disk0 disk2 intrctrl iobus l2c membus physmem sim_console simple_disk toL2Bus tsunami +children=bridge cpu0 cpu1 disk0 disk2 intrctrl iobus iocache l2c membus physmem sim_console simple_disk toL2Bus tsunami boot_cpu_frequency=500 boot_osflags=root=/dev/hda1 console=ttyS0 console=/dist/m5/system/binaries/console @@ -22,8 +22,8 @@ system_type=34 [system.bridge] type=Bridge delay=50000 -fix_partial_write_a=false -fix_partial_write_b=true +filter_ranges_a=0:18446744073709551615 +filter_ranges_b=0:8589934591 nack_delay=4000 req_size_a=16 req_size_b=16 @@ -65,10 +65,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=4 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -103,10 +105,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=1 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -171,10 +175,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=4 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -209,10 +215,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=1 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -295,17 +303,55 @@ clock=1000 responder_set=true width=64 default=system.tsunami.pciconfig.pio -port=system.bridge.side_a system.tsunami.cchip.pio system.tsunami.pchip.pio system.tsunami.fake_sm_chip.pio system.tsunami.fake_uart1.pio system.tsunami.fake_uart2.pio system.tsunami.fake_uart3.pio system.tsunami.fake_uart4.pio system.tsunami.fake_ppc.pio system.tsunami.fake_OROM.pio system.tsunami.fake_pnp_addr.pio system.tsunami.fake_pnp_write.pio system.tsunami.fake_pnp_read0.pio system.tsunami.fake_pnp_read1.pio system.tsunami.fake_pnp_read2.pio system.tsunami.fake_pnp_read3.pio system.tsunami.fake_pnp_read4.pio system.tsunami.fake_pnp_read5.pio system.tsunami.fake_pnp_read6.pio system.tsunami.fake_pnp_read7.pio system.tsunami.fake_ata0.pio system.tsunami.fake_ata1.pio system.tsunami.fb.pio system.tsunami.io.pio system.tsunami.uart.pio system.tsunami.console.pio system.tsunami.ide.pio system.tsunami.ethernet.pio system.tsunami.ethernet.config system.tsunami.ethernet.dma system.tsunami.ide.config system.tsunami.ide.dma +port=system.bridge.side_a system.tsunami.cchip.pio system.tsunami.pchip.pio system.tsunami.fake_sm_chip.pio system.tsunami.fake_uart1.pio system.tsunami.fake_uart2.pio system.tsunami.fake_uart3.pio system.tsunami.fake_uart4.pio system.tsunami.fake_ppc.pio system.tsunami.fake_OROM.pio system.tsunami.fake_pnp_addr.pio system.tsunami.fake_pnp_write.pio system.tsunami.fake_pnp_read0.pio system.tsunami.fake_pnp_read1.pio system.tsunami.fake_pnp_read2.pio system.tsunami.fake_pnp_read3.pio system.tsunami.fake_pnp_read4.pio system.tsunami.fake_pnp_read5.pio system.tsunami.fake_pnp_read6.pio system.tsunami.fake_pnp_read7.pio system.tsunami.fake_ata0.pio system.tsunami.fake_ata1.pio system.tsunami.fb.pio system.tsunami.io.pio system.tsunami.uart.pio system.tsunami.console.pio system.tsunami.ide.pio system.tsunami.ethernet.pio system.iocache.cpu_side system.tsunami.ethernet.config system.tsunami.ethernet.dma system.tsunami.ide.config system.tsunami.ide.dma + +[system.iocache] +type=BaseCache +addr_range=0:18446744073709551615 +assoc=8 +block_size=64 +cpu_side_filter_ranges=549755813888:18446744073709551615 +hash_delay=1 +latency=50000 +lifo=false +max_miss_count=0 +mem_side_filter_ranges=0:18446744073709551615 +mshrs=20 +prefetch_access=false +prefetch_cache_check_push=true +prefetch_data_accesses_only=false +prefetch_degree=1 +prefetch_latency=500000 +prefetch_miss=false +prefetch_past_page=false +prefetch_policy=none +prefetch_serial_squash=false +prefetch_use_cpu_id=true +prefetcher_size=100 +prioritizeRequests=false +repl=Null +size=1024 +split=false +split_size=0 +subblock_size=0 +tgts_per_mshr=12 +trace_addr=0 +two_queue=false +write_buffers=8 +cpu_side=system.iobus.port[28] +mem_side=system.membus.port[2] [system.l2c] type=BaseCache addr_range=0:18446744073709551615 assoc=8 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=10000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=92 prefetch_access=false prefetch_cache_check_push=true @@ -329,7 +375,7 @@ trace_addr=0 two_queue=false write_buffers=8 cpu_side=system.toL2Bus.port[0] -mem_side=system.membus.port[2] +mem_side=system.membus.port[3] [system.membus] type=Bus @@ -340,7 +386,7 @@ clock=1000 responder_set=false width=64 default=system.membus.responder.pio -port=system.bridge.side_b system.physmem.port[0] system.l2c.mem_side +port=system.bridge.side_b system.physmem.port[0] system.iocache.mem_side system.l2c.mem_side [system.membus.responder] type=IsaFake @@ -474,8 +520,8 @@ system=system tx_delay=1000000 tx_fifo_size=524288 tx_thread=false -config=system.iobus.port[28] -dma=system.iobus.port[29] +config=system.iobus.port[29] +dma=system.iobus.port[30] pio=system.iobus.port[27] [system.tsunami.ethernet.configdata] @@ -840,8 +886,8 @@ pci_func=0 pio_latency=1000 platform=system.tsunami system=system -config=system.iobus.port[30] -dma=system.iobus.port[31] +config=system.iobus.port[31] +dma=system.iobus.port[32] pio=system.iobus.port[26] [system.tsunami.ide.configdata] diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/console.system.sim_console b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/console.system.sim_console index 27adebb82..c2aeea3f1 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/console.system.sim_console +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/console.system.sim_console @@ -38,7 +38,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 Memory: 118784k/131072k available (3314k kernel code, 8952k reserved, 983k data, 224k init) Mount-cache hash table entries: 512 SMP starting up secondaries. - Slave CPU 1 console command START + Slave CPU 1 console command START SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb FFFFFC0000018400 my_rpb_phys 18400 Brought up 2 CPUs SMP: Total of 2 processors activated (8000.15 BogoMIPS). @@ -77,7 +77,7 @@ SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb hdb: M5 IDE Disk, ATA DISK drive ide0 at 0x8410-0x8417,0x8422 on irq 31 hda: max request size: 128KiB - hda: 511056 sectors (261 MB), CHS=507/16/63, UDMA(33) + hda: 101808 sectors (52 MB), CHS=101/16/63, UDMA(33) hda: cache flushes not supported hda: hda1 hdb: max request size: 128KiB @@ -104,6 +104,7 @@ SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb All bugs added by David S. Miller VFS: Mounted root (ext2 filesystem) readonly. Freeing unused kernel memory: 224k freed - init started: BusyBox v1.1.0 (2006.08.17-02:54+0000) multi-call binary -mounting filesystems... -loading script... + init started: BusyBox v1.1.0 (2007.03.04-01:07+0000) multi-call binary +mounting filesystems... +EXT2-fs warning: checktime reached, running e2fsck is recommended + loading script... diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/m5stats.txt b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/m5stats.txt index df780ee45..d9ba4afe5 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/m5stats.txt +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/m5stats.txt @@ -1,9 +1,9 @@ ---------- Begin Simulation Statistics ---------- -host_inst_rate 1258571 # Simulator instruction rate (inst/s) -host_mem_usage 256444 # Number of bytes of host memory used -host_seconds 50.16 # Real time elapsed on the host -host_tick_rate 37289409683 # Simulator tick rate (ticks/s) +host_inst_rate 2271343 # Simulator instruction rate (inst/s) +host_mem_usage 326380 # Number of bytes of host memory used +host_seconds 27.79 # Real time elapsed on the host +host_tick_rate 67296173797 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks sim_insts 63125943 # Number of instructions simulated sim_seconds 1.870335 # Number of seconds simulated @@ -471,6 +471,64 @@ system.disk2.dma_read_txs 0 # Nu system.disk2.dma_write_bytes 8192 # Number of bytes transfered via DMA writes. system.disk2.dma_write_full_pages 1 # Number of full page size DMA writes. system.disk2.dma_write_txs 1 # Number of DMA write transactions. +system.iocache.ReadReq_accesses 175 # number of ReadReq accesses(hits+misses) +system.iocache.ReadReq_miss_rate 1 # miss rate for ReadReq accesses +system.iocache.ReadReq_misses 175 # number of ReadReq misses +system.iocache.WriteReq_accesses 41552 # number of WriteReq accesses(hits+misses) +system.iocache.WriteReq_miss_rate 1 # miss rate for WriteReq accesses +system.iocache.WriteReq_misses 41552 # number of WriteReq misses +system.iocache.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked +system.iocache.avg_blocked_cycles_no_targets # 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 0 # number of cycles access was blocked +system.iocache.blocked_no_targets 0 # number of cycles access was blocked +system.iocache.blocked_cycles_no_mshrs 0 # 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 41727 # number of demand (read+write) accesses +system.iocache.demand_avg_miss_latency 0 # average overall miss latency +system.iocache.demand_avg_mshr_miss_latency # average overall mshr miss latency +system.iocache.demand_hits 0 # number of demand (read+write) hits +system.iocache.demand_miss_latency 0 # number of demand (read+write) miss cycles +system.iocache.demand_miss_rate 1 # miss rate for demand accesses +system.iocache.demand_misses 41727 # 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 0 # number of demand (read+write) MSHR miss cycles +system.iocache.demand_mshr_miss_rate 0 # mshr miss rate for demand accesses +system.iocache.demand_mshr_misses 0 # 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 41727 # number of overall (read+write) accesses +system.iocache.overall_avg_miss_latency 0 # average overall miss latency +system.iocache.overall_avg_mshr_miss_latency # average overall mshr miss latency +system.iocache.overall_avg_mshr_uncacheable_latency # average overall mshr uncacheable latency +system.iocache.overall_hits 0 # number of overall hits +system.iocache.overall_miss_latency 0 # number of overall miss cycles +system.iocache.overall_miss_rate 1 # miss rate for overall accesses +system.iocache.overall_misses 41727 # number of overall misses +system.iocache.overall_mshr_hits 0 # number of overall MSHR hits +system.iocache.overall_mshr_miss_latency 0 # number of overall MSHR miss cycles +system.iocache.overall_mshr_miss_rate 0 # mshr miss rate for overall accesses +system.iocache.overall_mshr_misses 0 # number of overall MSHR misses +system.iocache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles +system.iocache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses +system.iocache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache +system.iocache.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr +system.iocache.prefetcher.num_hwpf_already_in_prefetcher 0 # number of hwpf that were already in the prefetch queue +system.iocache.prefetcher.num_hwpf_evicted 0 # number of hwpf removed due to no buffer left +system.iocache.prefetcher.num_hwpf_identified 0 # number of hwpf identified +system.iocache.prefetcher.num_hwpf_issued 0 # number of hwpf issued +system.iocache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated +system.iocache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page +system.iocache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time +system.iocache.replacements 41695 # number of replacements +system.iocache.sampled_refs 41711 # 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 0.435433 # Cycle average of tags in use +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 306246 # number of ReadExReq accesses(hits+misses) system.l2c.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses system.l2c.ReadExReq_misses 306246 # number of ReadExReq misses diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stderr b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stderr index 563ca3160..85bd66f32 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stderr +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stderr @@ -1,5 +1,5 @@ -Listening for system connection on port 3457 +Listening for system connection on port 3456 +0: system.remote_gdb.listener: listening for remote gdb on port 7000 0: system.remote_gdb.listener: listening for remote gdb on port 7001 -0: system.remote_gdb.listener: listening for remote gdb on port 7002 warn: Entering event queue @ 0. Starting simulation... warn: 97861500: Trying to launch CPU number 1! diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stdout b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stdout index 1298154d9..b97e23c2a 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stdout +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic-dual/stdout @@ -5,9 +5,9 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Aug 3 2007 04:02:11 -M5 started Fri Aug 3 04:22:43 2007 -M5 executing on zizzer.eecs.umich.edu +M5 compiled Aug 10 2007 16:03:34 +M5 started Fri Aug 10 16:04:07 2007 +M5 executing on zeep command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-atomic-dual tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-atomic-dual Global frequency set at 1000000000000 ticks per second Exiting @ tick 1870335101500 because m5_exit instruction encountered diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/config.ini b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/config.ini index 3457f5f8f..c2e3afa96 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/config.ini +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/config.ini @@ -5,7 +5,7 @@ dummy=0 [system] type=LinuxAlphaSystem -children=bridge cpu disk0 disk2 intrctrl iobus l2c membus physmem sim_console simple_disk toL2Bus tsunami +children=bridge cpu disk0 disk2 intrctrl iobus iocache l2c membus physmem sim_console simple_disk toL2Bus tsunami boot_cpu_frequency=500 boot_osflags=root=/dev/hda1 console=ttyS0 console=/dist/m5/system/binaries/console @@ -22,8 +22,8 @@ system_type=34 [system.bridge] type=Bridge delay=50000 -fix_partial_write_a=false -fix_partial_write_b=true +filter_ranges_a=0:18446744073709551615 +filter_ranges_b=0:8589934591 nack_delay=4000 req_size_a=16 req_size_b=16 @@ -65,10 +65,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=4 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -103,10 +105,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=1 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -189,17 +193,55 @@ clock=1000 responder_set=true width=64 default=system.tsunami.pciconfig.pio -port=system.bridge.side_a system.tsunami.cchip.pio system.tsunami.pchip.pio system.tsunami.fake_sm_chip.pio system.tsunami.fake_uart1.pio system.tsunami.fake_uart2.pio system.tsunami.fake_uart3.pio system.tsunami.fake_uart4.pio system.tsunami.fake_ppc.pio system.tsunami.fake_OROM.pio system.tsunami.fake_pnp_addr.pio system.tsunami.fake_pnp_write.pio system.tsunami.fake_pnp_read0.pio system.tsunami.fake_pnp_read1.pio system.tsunami.fake_pnp_read2.pio system.tsunami.fake_pnp_read3.pio system.tsunami.fake_pnp_read4.pio system.tsunami.fake_pnp_read5.pio system.tsunami.fake_pnp_read6.pio system.tsunami.fake_pnp_read7.pio system.tsunami.fake_ata0.pio system.tsunami.fake_ata1.pio system.tsunami.fb.pio system.tsunami.io.pio system.tsunami.uart.pio system.tsunami.console.pio system.tsunami.ide.pio system.tsunami.ethernet.pio system.tsunami.ethernet.config system.tsunami.ethernet.dma system.tsunami.ide.config system.tsunami.ide.dma +port=system.bridge.side_a system.tsunami.cchip.pio system.tsunami.pchip.pio system.tsunami.fake_sm_chip.pio system.tsunami.fake_uart1.pio system.tsunami.fake_uart2.pio system.tsunami.fake_uart3.pio system.tsunami.fake_uart4.pio system.tsunami.fake_ppc.pio system.tsunami.fake_OROM.pio system.tsunami.fake_pnp_addr.pio system.tsunami.fake_pnp_write.pio system.tsunami.fake_pnp_read0.pio system.tsunami.fake_pnp_read1.pio system.tsunami.fake_pnp_read2.pio system.tsunami.fake_pnp_read3.pio system.tsunami.fake_pnp_read4.pio system.tsunami.fake_pnp_read5.pio system.tsunami.fake_pnp_read6.pio system.tsunami.fake_pnp_read7.pio system.tsunami.fake_ata0.pio system.tsunami.fake_ata1.pio system.tsunami.fb.pio system.tsunami.io.pio system.tsunami.uart.pio system.tsunami.console.pio system.tsunami.ide.pio system.tsunami.ethernet.pio system.iocache.cpu_side system.tsunami.ethernet.config system.tsunami.ethernet.dma system.tsunami.ide.config system.tsunami.ide.dma + +[system.iocache] +type=BaseCache +addr_range=0:18446744073709551615 +assoc=8 +block_size=64 +cpu_side_filter_ranges=549755813888:18446744073709551615 +hash_delay=1 +latency=50000 +lifo=false +max_miss_count=0 +mem_side_filter_ranges=0:18446744073709551615 +mshrs=20 +prefetch_access=false +prefetch_cache_check_push=true +prefetch_data_accesses_only=false +prefetch_degree=1 +prefetch_latency=500000 +prefetch_miss=false +prefetch_past_page=false +prefetch_policy=none +prefetch_serial_squash=false +prefetch_use_cpu_id=true +prefetcher_size=100 +prioritizeRequests=false +repl=Null +size=1024 +split=false +split_size=0 +subblock_size=0 +tgts_per_mshr=12 +trace_addr=0 +two_queue=false +write_buffers=8 +cpu_side=system.iobus.port[28] +mem_side=system.membus.port[2] [system.l2c] type=BaseCache addr_range=0:18446744073709551615 assoc=8 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=10000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=92 prefetch_access=false prefetch_cache_check_push=true @@ -223,7 +265,7 @@ trace_addr=0 two_queue=false write_buffers=8 cpu_side=system.toL2Bus.port[0] -mem_side=system.membus.port[2] +mem_side=system.membus.port[3] [system.membus] type=Bus @@ -234,7 +276,7 @@ clock=1000 responder_set=false width=64 default=system.membus.responder.pio -port=system.bridge.side_b system.physmem.port[0] system.l2c.mem_side +port=system.bridge.side_b system.physmem.port[0] system.iocache.mem_side system.l2c.mem_side [system.membus.responder] type=IsaFake @@ -368,8 +410,8 @@ system=system tx_delay=1000000 tx_fifo_size=524288 tx_thread=false -config=system.iobus.port[28] -dma=system.iobus.port[29] +config=system.iobus.port[29] +dma=system.iobus.port[30] pio=system.iobus.port[27] [system.tsunami.ethernet.configdata] @@ -734,8 +776,8 @@ pci_func=0 pio_latency=1000 platform=system.tsunami system=system -config=system.iobus.port[30] -dma=system.iobus.port[31] +config=system.iobus.port[31] +dma=system.iobus.port[32] pio=system.iobus.port[26] [system.tsunami.ide.configdata] diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/console.system.sim_console b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/console.system.sim_console index 5461cc4ab..7930e9e46 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/console.system.sim_console +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/console.system.sim_console @@ -72,7 +72,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 hdb: M5 IDE Disk, ATA DISK drive ide0 at 0x8410-0x8417,0x8422 on irq 31 hda: max request size: 128KiB - hda: 511056 sectors (261 MB), CHS=507/16/63, UDMA(33) + hda: 101808 sectors (52 MB), CHS=101/16/63, UDMA(33) hda: cache flushes not supported hda: hda1 hdb: max request size: 128KiB @@ -99,6 +99,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 All bugs added by David S. Miller VFS: Mounted root (ext2 filesystem) readonly. Freeing unused kernel memory: 224k freed - init started: BusyBox v1.1.0 (2006.08.17-02:54+0000) multi-call binary -mounting filesystems... -loading script... + init started: BusyBox v1.1.0 (2007.03.04-01:07+0000) multi-call binary +mounting filesystems... +EXT2-fs warning: checktime reached, running e2fsck is recommended + loading script... diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/m5stats.txt b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/m5stats.txt index cc91e4c90..a4dd50e83 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/m5stats.txt +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/m5stats.txt @@ -1,9 +1,9 @@ ---------- Begin Simulation Statistics ---------- -host_inst_rate 1294756 # Simulator instruction rate (inst/s) -host_mem_usage 255900 # Number of bytes of host memory used -host_seconds 46.35 # Real time elapsed on the host -host_tick_rate 39449403667 # Simulator tick rate (ticks/s) +host_inst_rate 2322212 # Simulator instruction rate (inst/s) +host_mem_usage 325356 # Number of bytes of host memory used +host_seconds 25.84 # Real time elapsed on the host +host_tick_rate 70754225205 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks sim_insts 60007317 # Number of instructions simulated sim_seconds 1.828355 # Number of seconds simulated @@ -249,6 +249,64 @@ system.disk2.dma_read_txs 0 # Nu system.disk2.dma_write_bytes 8192 # Number of bytes transfered via DMA writes. system.disk2.dma_write_full_pages 1 # Number of full page size DMA writes. system.disk2.dma_write_txs 1 # Number of DMA write transactions. +system.iocache.ReadReq_accesses 174 # number of ReadReq accesses(hits+misses) +system.iocache.ReadReq_miss_rate 1 # miss rate for ReadReq accesses +system.iocache.ReadReq_misses 174 # number of ReadReq misses +system.iocache.WriteReq_accesses 41552 # number of WriteReq accesses(hits+misses) +system.iocache.WriteReq_miss_rate 1 # miss rate for WriteReq accesses +system.iocache.WriteReq_misses 41552 # number of WriteReq misses +system.iocache.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked +system.iocache.avg_blocked_cycles_no_targets # 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 0 # number of cycles access was blocked +system.iocache.blocked_no_targets 0 # number of cycles access was blocked +system.iocache.blocked_cycles_no_mshrs 0 # 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 41726 # number of demand (read+write) accesses +system.iocache.demand_avg_miss_latency 0 # average overall miss latency +system.iocache.demand_avg_mshr_miss_latency # average overall mshr miss latency +system.iocache.demand_hits 0 # number of demand (read+write) hits +system.iocache.demand_miss_latency 0 # number of demand (read+write) miss cycles +system.iocache.demand_miss_rate 1 # miss rate for demand accesses +system.iocache.demand_misses 41726 # 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 0 # number of demand (read+write) MSHR miss cycles +system.iocache.demand_mshr_miss_rate 0 # mshr miss rate for demand accesses +system.iocache.demand_mshr_misses 0 # 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 41726 # number of overall (read+write) accesses +system.iocache.overall_avg_miss_latency 0 # average overall miss latency +system.iocache.overall_avg_mshr_miss_latency # average overall mshr miss latency +system.iocache.overall_avg_mshr_uncacheable_latency # average overall mshr uncacheable latency +system.iocache.overall_hits 0 # number of overall hits +system.iocache.overall_miss_latency 0 # number of overall miss cycles +system.iocache.overall_miss_rate 1 # miss rate for overall accesses +system.iocache.overall_misses 41726 # number of overall misses +system.iocache.overall_mshr_hits 0 # number of overall MSHR hits +system.iocache.overall_mshr_miss_latency 0 # number of overall MSHR miss cycles +system.iocache.overall_mshr_miss_rate 0 # mshr miss rate for overall accesses +system.iocache.overall_mshr_misses 0 # number of overall MSHR misses +system.iocache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles +system.iocache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses +system.iocache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache +system.iocache.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr +system.iocache.prefetcher.num_hwpf_already_in_prefetcher 0 # number of hwpf that were already in the prefetch queue +system.iocache.prefetcher.num_hwpf_evicted 0 # number of hwpf removed due to no buffer left +system.iocache.prefetcher.num_hwpf_identified 0 # number of hwpf identified +system.iocache.prefetcher.num_hwpf_issued 0 # number of hwpf issued +system.iocache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated +system.iocache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page +system.iocache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time +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 1.226223 # 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.writebacks 41512 # number of writebacks system.l2c.ReadExReq_accesses 304342 # number of ReadExReq accesses(hits+misses) system.l2c.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses system.l2c.ReadExReq_misses 304342 # number of ReadExReq misses diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stderr b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stderr index 32120d9d6..072cb6c8c 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stderr +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stderr @@ -1,3 +1,3 @@ -Listening for system connection on port 3457 -0: system.remote_gdb.listener: listening for remote gdb on port 7001 +Listening for system connection on port 3456 +0: system.remote_gdb.listener: listening for remote gdb on port 7000 warn: Entering event queue @ 0. Starting simulation... diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stdout b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stdout index 1f648aea1..00122ad9f 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stdout +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-atomic/stdout @@ -5,9 +5,9 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Aug 3 2007 04:02:11 -M5 started Fri Aug 3 04:21:55 2007 -M5 executing on zizzer.eecs.umich.edu +M5 compiled Aug 10 2007 16:03:34 +M5 started Fri Aug 10 16:03:39 2007 +M5 executing on zeep command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-atomic tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-atomic Global frequency set at 1000000000000 ticks per second Exiting @ tick 1828355476000 because m5_exit instruction encountered diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/config.ini b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/config.ini index bbfd059cd..f2dae72bb 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/config.ini +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/config.ini @@ -5,7 +5,7 @@ dummy=0 [system] type=LinuxAlphaSystem -children=bridge cpu0 cpu1 disk0 disk2 intrctrl iobus l2c membus physmem sim_console simple_disk toL2Bus tsunami +children=bridge cpu0 cpu1 disk0 disk2 intrctrl iobus iocache l2c membus physmem sim_console simple_disk toL2Bus tsunami boot_cpu_frequency=500 boot_osflags=root=/dev/hda1 console=ttyS0 console=/dist/m5/system/binaries/console @@ -22,8 +22,8 @@ system_type=34 [system.bridge] type=Bridge delay=50000 -fix_partial_write_a=false -fix_partial_write_b=true +filter_ranges_a=0:18446744073709551615 +filter_ranges_b=0:8589934591 nack_delay=4000 req_size_a=16 req_size_b=16 @@ -63,10 +63,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=4 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -101,10 +103,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=1 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -167,10 +171,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=4 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -205,10 +211,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=1 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -291,17 +299,55 @@ clock=1000 responder_set=true width=64 default=system.tsunami.pciconfig.pio -port=system.bridge.side_a system.tsunami.cchip.pio system.tsunami.pchip.pio system.tsunami.fake_sm_chip.pio system.tsunami.fake_uart1.pio system.tsunami.fake_uart2.pio system.tsunami.fake_uart3.pio system.tsunami.fake_uart4.pio system.tsunami.fake_ppc.pio system.tsunami.fake_OROM.pio system.tsunami.fake_pnp_addr.pio system.tsunami.fake_pnp_write.pio system.tsunami.fake_pnp_read0.pio system.tsunami.fake_pnp_read1.pio system.tsunami.fake_pnp_read2.pio system.tsunami.fake_pnp_read3.pio system.tsunami.fake_pnp_read4.pio system.tsunami.fake_pnp_read5.pio system.tsunami.fake_pnp_read6.pio system.tsunami.fake_pnp_read7.pio system.tsunami.fake_ata0.pio system.tsunami.fake_ata1.pio system.tsunami.fb.pio system.tsunami.io.pio system.tsunami.uart.pio system.tsunami.console.pio system.tsunami.ide.pio system.tsunami.ethernet.pio system.tsunami.ethernet.config system.tsunami.ethernet.dma system.tsunami.ide.config system.tsunami.ide.dma +port=system.bridge.side_a system.tsunami.cchip.pio system.tsunami.pchip.pio system.tsunami.fake_sm_chip.pio system.tsunami.fake_uart1.pio system.tsunami.fake_uart2.pio system.tsunami.fake_uart3.pio system.tsunami.fake_uart4.pio system.tsunami.fake_ppc.pio system.tsunami.fake_OROM.pio system.tsunami.fake_pnp_addr.pio system.tsunami.fake_pnp_write.pio system.tsunami.fake_pnp_read0.pio system.tsunami.fake_pnp_read1.pio system.tsunami.fake_pnp_read2.pio system.tsunami.fake_pnp_read3.pio system.tsunami.fake_pnp_read4.pio system.tsunami.fake_pnp_read5.pio system.tsunami.fake_pnp_read6.pio system.tsunami.fake_pnp_read7.pio system.tsunami.fake_ata0.pio system.tsunami.fake_ata1.pio system.tsunami.fb.pio system.tsunami.io.pio system.tsunami.uart.pio system.tsunami.console.pio system.tsunami.ide.pio system.tsunami.ethernet.pio system.iocache.cpu_side system.tsunami.ethernet.config system.tsunami.ethernet.dma system.tsunami.ide.config system.tsunami.ide.dma + +[system.iocache] +type=BaseCache +addr_range=0:18446744073709551615 +assoc=8 +block_size=64 +cpu_side_filter_ranges=549755813888:18446744073709551615 +hash_delay=1 +latency=50000 +lifo=false +max_miss_count=0 +mem_side_filter_ranges=0:18446744073709551615 +mshrs=20 +prefetch_access=false +prefetch_cache_check_push=true +prefetch_data_accesses_only=false +prefetch_degree=1 +prefetch_latency=500000 +prefetch_miss=false +prefetch_past_page=false +prefetch_policy=none +prefetch_serial_squash=false +prefetch_use_cpu_id=true +prefetcher_size=100 +prioritizeRequests=false +repl=Null +size=1024 +split=false +split_size=0 +subblock_size=0 +tgts_per_mshr=12 +trace_addr=0 +two_queue=false +write_buffers=8 +cpu_side=system.iobus.port[28] +mem_side=system.membus.port[2] [system.l2c] type=BaseCache addr_range=0:18446744073709551615 assoc=8 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=10000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=92 prefetch_access=false prefetch_cache_check_push=true @@ -325,7 +371,7 @@ trace_addr=0 two_queue=false write_buffers=8 cpu_side=system.toL2Bus.port[0] -mem_side=system.membus.port[2] +mem_side=system.membus.port[3] [system.membus] type=Bus @@ -336,7 +382,7 @@ clock=1000 responder_set=false width=64 default=system.membus.responder.pio -port=system.bridge.side_b system.physmem.port[0] system.l2c.mem_side +port=system.bridge.side_b system.physmem.port[0] system.iocache.mem_side system.l2c.mem_side [system.membus.responder] type=IsaFake @@ -470,8 +516,8 @@ system=system tx_delay=1000000 tx_fifo_size=524288 tx_thread=false -config=system.iobus.port[28] -dma=system.iobus.port[29] +config=system.iobus.port[29] +dma=system.iobus.port[30] pio=system.iobus.port[27] [system.tsunami.ethernet.configdata] @@ -836,8 +882,8 @@ pci_func=0 pio_latency=1000 platform=system.tsunami system=system -config=system.iobus.port[30] -dma=system.iobus.port[31] +config=system.iobus.port[31] +dma=system.iobus.port[32] pio=system.iobus.port[26] [system.tsunami.ide.configdata] diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/console.system.sim_console b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/console.system.sim_console index ceae1faaf..c2aeea3f1 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/console.system.sim_console +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/console.system.sim_console @@ -17,8 +17,8 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 unix_boot_mem ends at FFFFFC0000078000 k_argc = 0 jumping to kernel at 0xFFFFFC0000310000, (PCBB 0xFFFFFC0000018180 pfn 1067) - Entering slaveloop for cpu 1 my_rpb=FFFFFC0000018400 CallbackFixup 0 18000, t7=FFFFFC000070C000 + Entering slaveloop for cpu 1 my_rpb=FFFFFC0000018400 Linux version 2.6.13 (hsul@zed.eecs.umich.edu) (gcc version 3.4.3) #1 SMP Sun Oct 8 19:52:07 EDT 2006 Booting GENERIC on Tsunami variation DP264 using machine vector DP264 from SRM Major Options: SMP LEGACY_START VERBOSE_MCHECK @@ -38,7 +38,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 Memory: 118784k/131072k available (3314k kernel code, 8952k reserved, 983k data, 224k init) Mount-cache hash table entries: 512 SMP starting up secondaries. - Slave CPU 1 console command START + Slave CPU 1 console command START SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb FFFFFC0000018400 my_rpb_phys 18400 Brought up 2 CPUs SMP: Total of 2 processors activated (8000.15 BogoMIPS). @@ -77,7 +77,7 @@ SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb hdb: M5 IDE Disk, ATA DISK drive ide0 at 0x8410-0x8417,0x8422 on irq 31 hda: max request size: 128KiB - hda: 511056 sectors (261 MB), CHS=507/16/63, UDMA(33) + hda: 101808 sectors (52 MB), CHS=101/16/63, UDMA(33) hda: cache flushes not supported hda: hda1 hdb: max request size: 128KiB @@ -104,6 +104,7 @@ SlaveCmd: restart FFFFFC0000310020 FFFFFC0000310020 vptb FFFFFFFE00000000 my_rpb All bugs added by David S. Miller VFS: Mounted root (ext2 filesystem) readonly. Freeing unused kernel memory: 224k freed - init started: BusyBox v1.1.0 (2006.08.17-02:54+0000) multi-call binary -mounting filesystems... -loading script... + init started: BusyBox v1.1.0 (2007.03.04-01:07+0000) multi-call binary +mounting filesystems... +EXT2-fs warning: checktime reached, running e2fsck is recommended + loading script... diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/m5stats.txt b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/m5stats.txt index b7e78eb06..1f23524ef 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/m5stats.txt +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/m5stats.txt @@ -1,92 +1,92 @@ ---------- Begin Simulation Statistics ---------- -host_inst_rate 608366 # Simulator instruction rate (inst/s) -host_mem_usage 227884 # Number of bytes of host memory used -host_seconds 106.58 # Real time elapsed on the host -host_tick_rate 18308931831 # Simulator tick rate (ticks/s) +host_inst_rate 1074925 # Simulator instruction rate (inst/s) +host_mem_usage 296176 # Number of bytes of host memory used +host_seconds 60.33 # Real time elapsed on the host +host_tick_rate 32328249055 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks -sim_insts 64839479 # Number of instructions simulated -sim_seconds 1.951367 # Number of seconds simulated -sim_ticks 1951367346000 # Number of ticks simulated -system.cpu0.dcache.LoadLockedReq_accesses 150248 # number of LoadLockedReq accesses(hits+misses) -system.cpu0.dcache.LoadLockedReq_avg_miss_latency 10860.561606 # average LoadLockedReq miss latency -system.cpu0.dcache.LoadLockedReq_avg_mshr_miss_latency 9860.561606 # average LoadLockedReq mshr miss latency -system.cpu0.dcache.LoadLockedReq_hits 136751 # number of LoadLockedReq hits -system.cpu0.dcache.LoadLockedReq_miss_latency 146585000 # number of LoadLockedReq miss cycles -system.cpu0.dcache.LoadLockedReq_miss_rate 0.089831 # miss rate for LoadLockedReq accesses -system.cpu0.dcache.LoadLockedReq_misses 13497 # number of LoadLockedReq misses -system.cpu0.dcache.LoadLockedReq_mshr_miss_latency 133088000 # number of LoadLockedReq MSHR miss cycles -system.cpu0.dcache.LoadLockedReq_mshr_miss_rate 0.089831 # mshr miss rate for LoadLockedReq accesses -system.cpu0.dcache.LoadLockedReq_mshr_misses 13497 # number of LoadLockedReq MSHR misses -system.cpu0.dcache.ReadReq_accesses 7920707 # number of ReadReq accesses(hits+misses) -system.cpu0.dcache.ReadReq_avg_miss_latency 13239.029006 # average ReadReq miss latency -system.cpu0.dcache.ReadReq_avg_mshr_miss_latency 12239.003253 # average ReadReq mshr miss latency +sim_insts 64849281 # Number of instructions simulated +sim_seconds 1.950343 # Number of seconds simulated +sim_ticks 1950343222000 # Number of ticks simulated +system.cpu0.dcache.LoadLockedReq_accesses 150730 # number of LoadLockedReq accesses(hits+misses) +system.cpu0.dcache.LoadLockedReq_avg_miss_latency 10884.490158 # average LoadLockedReq miss latency +system.cpu0.dcache.LoadLockedReq_avg_mshr_miss_latency 9884.490158 # average LoadLockedReq mshr miss latency +system.cpu0.dcache.LoadLockedReq_hits 137216 # number of LoadLockedReq hits +system.cpu0.dcache.LoadLockedReq_miss_latency 147093000 # number of LoadLockedReq miss cycles +system.cpu0.dcache.LoadLockedReq_miss_rate 0.089657 # miss rate for LoadLockedReq accesses +system.cpu0.dcache.LoadLockedReq_misses 13514 # number of LoadLockedReq misses +system.cpu0.dcache.LoadLockedReq_mshr_miss_latency 133579000 # number of LoadLockedReq MSHR miss cycles +system.cpu0.dcache.LoadLockedReq_mshr_miss_rate 0.089657 # mshr miss rate for LoadLockedReq accesses +system.cpu0.dcache.LoadLockedReq_mshr_misses 13514 # number of LoadLockedReq MSHR misses +system.cpu0.dcache.ReadReq_accesses 7931562 # number of ReadReq accesses(hits+misses) +system.cpu0.dcache.ReadReq_avg_miss_latency 13248.229322 # average ReadReq miss latency +system.cpu0.dcache.ReadReq_avg_mshr_miss_latency 12248.200096 # average ReadReq mshr miss latency system.cpu0.dcache.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.cpu0.dcache.ReadReq_hits 6328668 # number of ReadReq hits -system.cpu0.dcache.ReadReq_miss_latency 21077050500 # number of ReadReq miss cycles -system.cpu0.dcache.ReadReq_miss_rate 0.200997 # miss rate for ReadReq accesses -system.cpu0.dcache.ReadReq_misses 1592039 # number of ReadReq misses -system.cpu0.dcache.ReadReq_mshr_miss_latency 19484970500 # number of ReadReq MSHR miss cycles -system.cpu0.dcache.ReadReq_mshr_miss_rate 0.200997 # mshr miss rate for ReadReq accesses -system.cpu0.dcache.ReadReq_mshr_misses 1592039 # number of ReadReq MSHR misses -system.cpu0.dcache.ReadReq_mshr_uncacheable_latency 846944000 # number of ReadReq MSHR uncacheable cycles -system.cpu0.dcache.StoreCondReq_accesses 149727 # number of StoreCondReq accesses(hits+misses) -system.cpu0.dcache.StoreCondReq_avg_miss_latency 12266.165876 # average StoreCondReq miss latency -system.cpu0.dcache.StoreCondReq_avg_mshr_miss_latency 11266.165876 # average StoreCondReq mshr miss latency -system.cpu0.dcache.StoreCondReq_hits 126963 # number of StoreCondReq hits -system.cpu0.dcache.StoreCondReq_miss_latency 279227000 # number of StoreCondReq miss cycles -system.cpu0.dcache.StoreCondReq_miss_rate 0.152037 # miss rate for StoreCondReq accesses -system.cpu0.dcache.StoreCondReq_misses 22764 # number of StoreCondReq misses -system.cpu0.dcache.StoreCondReq_mshr_miss_latency 256463000 # number of StoreCondReq MSHR miss cycles -system.cpu0.dcache.StoreCondReq_mshr_miss_rate 0.152037 # mshr miss rate for StoreCondReq accesses -system.cpu0.dcache.StoreCondReq_mshr_misses 22764 # number of StoreCondReq MSHR misses -system.cpu0.dcache.WriteReq_accesses 4824283 # number of WriteReq accesses(hits+misses) -system.cpu0.dcache.WriteReq_avg_miss_latency 13877.297001 # average WriteReq miss latency -system.cpu0.dcache.WriteReq_avg_mshr_miss_latency 12877.297001 # average WriteReq mshr miss latency +system.cpu0.dcache.ReadReq_hits 6340505 # number of ReadReq hits +system.cpu0.dcache.ReadReq_miss_latency 21078688000 # number of ReadReq miss cycles +system.cpu0.dcache.ReadReq_miss_rate 0.200598 # miss rate for ReadReq accesses +system.cpu0.dcache.ReadReq_misses 1591057 # number of ReadReq misses +system.cpu0.dcache.ReadReq_mshr_miss_latency 19487584500 # number of ReadReq MSHR miss cycles +system.cpu0.dcache.ReadReq_mshr_miss_rate 0.200598 # mshr miss rate for ReadReq accesses +system.cpu0.dcache.ReadReq_mshr_misses 1591057 # number of ReadReq MSHR misses +system.cpu0.dcache.ReadReq_mshr_uncacheable_latency 849528000 # number of ReadReq MSHR uncacheable cycles +system.cpu0.dcache.StoreCondReq_accesses 150210 # number of StoreCondReq accesses(hits+misses) +system.cpu0.dcache.StoreCondReq_avg_miss_latency 12289.709716 # average StoreCondReq miss latency +system.cpu0.dcache.StoreCondReq_avg_mshr_miss_latency 11289.709716 # average StoreCondReq mshr miss latency +system.cpu0.dcache.StoreCondReq_hits 127577 # number of StoreCondReq hits +system.cpu0.dcache.StoreCondReq_miss_latency 278153000 # number of StoreCondReq miss cycles +system.cpu0.dcache.StoreCondReq_miss_rate 0.150676 # miss rate for StoreCondReq accesses +system.cpu0.dcache.StoreCondReq_misses 22633 # number of StoreCondReq misses +system.cpu0.dcache.StoreCondReq_mshr_miss_latency 255520000 # number of StoreCondReq MSHR miss cycles +system.cpu0.dcache.StoreCondReq_mshr_miss_rate 0.150676 # mshr miss rate for StoreCondReq accesses +system.cpu0.dcache.StoreCondReq_mshr_misses 22633 # number of StoreCondReq MSHR misses +system.cpu0.dcache.WriteReq_accesses 4827886 # number of WriteReq accesses(hits+misses) +system.cpu0.dcache.WriteReq_avg_miss_latency 13885.285166 # average WriteReq miss latency +system.cpu0.dcache.WriteReq_avg_mshr_miss_latency 12885.285166 # average WriteReq mshr miss latency system.cpu0.dcache.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.cpu0.dcache.WriteReq_hits 4508382 # number of WriteReq hits -system.cpu0.dcache.WriteReq_miss_latency 4383852000 # number of WriteReq miss cycles -system.cpu0.dcache.WriteReq_miss_rate 0.065481 # miss rate for WriteReq accesses -system.cpu0.dcache.WriteReq_misses 315901 # number of WriteReq misses -system.cpu0.dcache.WriteReq_mshr_miss_latency 4067951000 # number of WriteReq MSHR miss cycles -system.cpu0.dcache.WriteReq_mshr_miss_rate 0.065481 # mshr miss rate for WriteReq accesses -system.cpu0.dcache.WriteReq_mshr_misses 315901 # number of WriteReq MSHR misses -system.cpu0.dcache.WriteReq_mshr_uncacheable_latency 1297859000 # number of WriteReq MSHR uncacheable cycles +system.cpu0.dcache.WriteReq_hits 4512456 # number of WriteReq hits +system.cpu0.dcache.WriteReq_miss_latency 4379835500 # number of WriteReq miss cycles +system.cpu0.dcache.WriteReq_miss_rate 0.065335 # miss rate for WriteReq accesses +system.cpu0.dcache.WriteReq_misses 315430 # number of WriteReq misses +system.cpu0.dcache.WriteReq_mshr_miss_latency 4064405500 # number of WriteReq MSHR miss cycles +system.cpu0.dcache.WriteReq_mshr_miss_rate 0.065335 # mshr miss rate for WriteReq accesses +system.cpu0.dcache.WriteReq_mshr_misses 315430 # number of WriteReq MSHR misses +system.cpu0.dcache.WriteReq_mshr_uncacheable_latency 1305489000 # number of WriteReq MSHR uncacheable cycles system.cpu0.dcache.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked system.cpu0.dcache.avg_blocked_cycles_no_targets # average number of cycles each access was blocked -system.cpu0.dcache.avg_refs 6.121232 # Average number of references to valid blocks. +system.cpu0.dcache.avg_refs 6.135326 # 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 12744990 # number of demand (read+write) accesses -system.cpu0.dcache.demand_avg_miss_latency 13344.708167 # average overall miss latency -system.cpu0.dcache.demand_avg_mshr_miss_latency 12344.686678 # average overall mshr miss latency -system.cpu0.dcache.demand_hits 10837050 # number of demand (read+write) hits -system.cpu0.dcache.demand_miss_latency 25460902500 # number of demand (read+write) miss cycles -system.cpu0.dcache.demand_miss_rate 0.149701 # miss rate for demand accesses -system.cpu0.dcache.demand_misses 1907940 # number of demand (read+write) misses +system.cpu0.dcache.demand_accesses 12759448 # number of demand (read+write) accesses +system.cpu0.dcache.demand_avg_miss_latency 13353.630788 # average overall miss latency +system.cpu0.dcache.demand_avg_mshr_miss_latency 12353.606398 # average overall mshr miss latency +system.cpu0.dcache.demand_hits 10852961 # number of demand (read+write) hits +system.cpu0.dcache.demand_miss_latency 25458523500 # number of demand (read+write) miss cycles +system.cpu0.dcache.demand_miss_rate 0.149418 # miss rate for demand accesses +system.cpu0.dcache.demand_misses 1906487 # 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 23552921500 # number of demand (read+write) MSHR miss cycles -system.cpu0.dcache.demand_mshr_miss_rate 0.149701 # mshr miss rate for demand accesses -system.cpu0.dcache.demand_mshr_misses 1907940 # number of demand (read+write) MSHR misses +system.cpu0.dcache.demand_mshr_miss_latency 23551990000 # number of demand (read+write) MSHR miss cycles +system.cpu0.dcache.demand_mshr_miss_rate 0.149418 # mshr miss rate for demand accesses +system.cpu0.dcache.demand_mshr_misses 1906487 # 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 12744990 # number of overall (read+write) accesses -system.cpu0.dcache.overall_avg_miss_latency 13344.708167 # average overall miss latency -system.cpu0.dcache.overall_avg_mshr_miss_latency 12344.686678 # average overall mshr miss latency +system.cpu0.dcache.overall_accesses 12759448 # number of overall (read+write) accesses +system.cpu0.dcache.overall_avg_miss_latency 13353.630788 # average overall miss latency +system.cpu0.dcache.overall_avg_mshr_miss_latency 12353.606398 # average overall mshr miss latency system.cpu0.dcache.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.cpu0.dcache.overall_hits 10837050 # number of overall hits -system.cpu0.dcache.overall_miss_latency 25460902500 # number of overall miss cycles -system.cpu0.dcache.overall_miss_rate 0.149701 # miss rate for overall accesses -system.cpu0.dcache.overall_misses 1907940 # number of overall misses +system.cpu0.dcache.overall_hits 10852961 # number of overall hits +system.cpu0.dcache.overall_miss_latency 25458523500 # number of overall miss cycles +system.cpu0.dcache.overall_miss_rate 0.149418 # miss rate for overall accesses +system.cpu0.dcache.overall_misses 1906487 # number of overall misses system.cpu0.dcache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu0.dcache.overall_mshr_miss_latency 23552921500 # number of overall MSHR miss cycles -system.cpu0.dcache.overall_mshr_miss_rate 0.149701 # mshr miss rate for overall accesses -system.cpu0.dcache.overall_mshr_misses 1907940 # number of overall MSHR misses -system.cpu0.dcache.overall_mshr_uncacheable_latency 2144803000 # number of overall MSHR uncacheable cycles +system.cpu0.dcache.overall_mshr_miss_latency 23551990000 # number of overall MSHR miss cycles +system.cpu0.dcache.overall_mshr_miss_rate 0.149418 # mshr miss rate for overall accesses +system.cpu0.dcache.overall_mshr_misses 1906487 # number of overall MSHR misses +system.cpu0.dcache.overall_mshr_uncacheable_latency 2155017000 # 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 1829212 # number of replacements -system.cpu0.dcache.sampled_refs 1829724 # Sample count of references to valid blocks. +system.cpu0.dcache.replacements 1827780 # number of replacements +system.cpu0.dcache.sampled_refs 1828292 # 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 497.900810 # Cycle average of tags in use -system.cpu0.dcache.total_refs 11200165 # Total number of references to valid blocks. +system.cpu0.dcache.tagsinuse 497.873184 # Cycle average of tags in use +system.cpu0.dcache.total_refs 11217167 # Total number of references to valid blocks. system.cpu0.dcache.warmup_cycle 58293000 # Cycle when the warmup percentage was hit. -system.cpu0.dcache.writebacks 322933 # number of writebacks -system.cpu0.dtb.accesses 725071 # DTB accesses -system.cpu0.dtb.acv 305 # DTB access violations -system.cpu0.dtb.hits 13035385 # DTB hits -system.cpu0.dtb.misses 8682 # DTB misses -system.cpu0.dtb.read_accesses 527638 # DTB read accesses -system.cpu0.dtb.read_acv 184 # DTB read access violations -system.cpu0.dtb.read_hits 8058540 # DTB read hits -system.cpu0.dtb.read_misses 7858 # DTB read misses -system.cpu0.dtb.write_accesses 197433 # DTB write accesses -system.cpu0.dtb.write_acv 121 # DTB write access violations -system.cpu0.dtb.write_hits 4976845 # DTB write hits -system.cpu0.dtb.write_misses 824 # DTB write misses -system.cpu0.icache.ReadReq_accesses 51081135 # number of ReadReq accesses(hits+misses) -system.cpu0.icache.ReadReq_avg_miss_latency 12048.344860 # average ReadReq miss latency -system.cpu0.icache.ReadReq_avg_mshr_miss_latency 11047.036239 # average ReadReq mshr miss latency -system.cpu0.icache.ReadReq_hits 50399501 # number of ReadReq hits -system.cpu0.icache.ReadReq_miss_latency 8212561500 # number of ReadReq miss cycles -system.cpu0.icache.ReadReq_miss_rate 0.013344 # miss rate for ReadReq accesses -system.cpu0.icache.ReadReq_misses 681634 # number of ReadReq misses -system.cpu0.icache.ReadReq_mshr_miss_latency 7530035500 # number of ReadReq MSHR miss cycles -system.cpu0.icache.ReadReq_mshr_miss_rate 0.013344 # mshr miss rate for ReadReq accesses -system.cpu0.icache.ReadReq_mshr_misses 681634 # number of ReadReq MSHR misses +system.cpu0.dcache.writebacks 322471 # number of writebacks +system.cpu0.dtb.accesses 719860 # DTB accesses +system.cpu0.dtb.acv 289 # DTB access violations +system.cpu0.dtb.hits 13051211 # 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 8070179 # 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 4981032 # DTB write hits +system.cpu0.dtb.write_misses 798 # DTB write misses +system.cpu0.icache.ReadReq_accesses 51129549 # number of ReadReq accesses(hits+misses) +system.cpu0.icache.ReadReq_avg_miss_latency 12049.200476 # average ReadReq miss latency +system.cpu0.icache.ReadReq_avg_mshr_miss_latency 11047.896012 # average ReadReq mshr miss latency +system.cpu0.icache.ReadReq_hits 50446893 # number of ReadReq hits +system.cpu0.icache.ReadReq_miss_latency 8225459000 # number of ReadReq miss cycles +system.cpu0.icache.ReadReq_miss_rate 0.013351 # miss rate for ReadReq accesses +system.cpu0.icache.ReadReq_misses 682656 # number of ReadReq misses +system.cpu0.icache.ReadReq_mshr_miss_latency 7541912500 # number of ReadReq MSHR miss cycles +system.cpu0.icache.ReadReq_mshr_miss_rate 0.013351 # mshr miss rate for ReadReq accesses +system.cpu0.icache.ReadReq_mshr_misses 682656 # number of ReadReq MSHR misses system.cpu0.icache.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked system.cpu0.icache.avg_blocked_cycles_no_targets # average number of cycles each access was blocked -system.cpu0.icache.avg_refs 73.953888 # Average number of references to valid blocks. +system.cpu0.icache.avg_refs 73.909880 # 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 51081135 # number of demand (read+write) accesses -system.cpu0.icache.demand_avg_miss_latency 12048.344860 # average overall miss latency -system.cpu0.icache.demand_avg_mshr_miss_latency 11047.036239 # average overall mshr miss latency -system.cpu0.icache.demand_hits 50399501 # number of demand (read+write) hits -system.cpu0.icache.demand_miss_latency 8212561500 # number of demand (read+write) miss cycles -system.cpu0.icache.demand_miss_rate 0.013344 # miss rate for demand accesses -system.cpu0.icache.demand_misses 681634 # number of demand (read+write) misses +system.cpu0.icache.demand_accesses 51129549 # number of demand (read+write) accesses +system.cpu0.icache.demand_avg_miss_latency 12049.200476 # average overall miss latency +system.cpu0.icache.demand_avg_mshr_miss_latency 11047.896012 # average overall mshr miss latency +system.cpu0.icache.demand_hits 50446893 # number of demand (read+write) hits +system.cpu0.icache.demand_miss_latency 8225459000 # number of demand (read+write) miss cycles +system.cpu0.icache.demand_miss_rate 0.013351 # miss rate for demand accesses +system.cpu0.icache.demand_misses 682656 # 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 7530035500 # number of demand (read+write) MSHR miss cycles -system.cpu0.icache.demand_mshr_miss_rate 0.013344 # mshr miss rate for demand accesses -system.cpu0.icache.demand_mshr_misses 681634 # number of demand (read+write) MSHR misses +system.cpu0.icache.demand_mshr_miss_latency 7541912500 # number of demand (read+write) MSHR miss cycles +system.cpu0.icache.demand_mshr_miss_rate 0.013351 # mshr miss rate for demand accesses +system.cpu0.icache.demand_mshr_misses 682656 # 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 51081135 # number of overall (read+write) accesses -system.cpu0.icache.overall_avg_miss_latency 12048.344860 # average overall miss latency -system.cpu0.icache.overall_avg_mshr_miss_latency 11047.036239 # average overall mshr miss latency +system.cpu0.icache.overall_accesses 51129549 # number of overall (read+write) accesses +system.cpu0.icache.overall_avg_miss_latency 12049.200476 # average overall miss latency +system.cpu0.icache.overall_avg_mshr_miss_latency 11047.896012 # average overall mshr miss latency system.cpu0.icache.overall_avg_mshr_uncacheable_latency # average overall mshr uncacheable latency -system.cpu0.icache.overall_hits 50399501 # number of overall hits -system.cpu0.icache.overall_miss_latency 8212561500 # number of overall miss cycles -system.cpu0.icache.overall_miss_rate 0.013344 # miss rate for overall accesses -system.cpu0.icache.overall_misses 681634 # number of overall misses +system.cpu0.icache.overall_hits 50446893 # number of overall hits +system.cpu0.icache.overall_miss_latency 8225459000 # number of overall miss cycles +system.cpu0.icache.overall_miss_rate 0.013351 # miss rate for overall accesses +system.cpu0.icache.overall_misses 682656 # number of overall misses system.cpu0.icache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu0.icache.overall_mshr_miss_latency 7530035500 # number of overall MSHR miss cycles -system.cpu0.icache.overall_mshr_miss_rate 0.013344 # mshr miss rate for overall accesses -system.cpu0.icache.overall_mshr_misses 681634 # number of overall MSHR misses +system.cpu0.icache.overall_mshr_miss_latency 7541912500 # number of overall MSHR miss cycles +system.cpu0.icache.overall_mshr_miss_rate 0.013351 # mshr miss rate for overall accesses +system.cpu0.icache.overall_mshr_misses 682656 # 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 @@ -171,190 +171,190 @@ 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 680987 # number of replacements -system.cpu0.icache.sampled_refs 681499 # Sample count of references to valid blocks. +system.cpu0.icache.replacements 682034 # number of replacements +system.cpu0.icache.sampled_refs 682546 # 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 508.821605 # Cycle average of tags in use -system.cpu0.icache.total_refs 50399501 # Total number of references to valid blocks. +system.cpu0.icache.tagsinuse 508.823840 # Cycle average of tags in use +system.cpu0.icache.total_refs 50446893 # Total number of references to valid blocks. system.cpu0.icache.warmup_cycle 35300494000 # Cycle when the warmup percentage was hit. system.cpu0.icache.writebacks 0 # number of writebacks -system.cpu0.idle_fraction 0.949890 # Percentage of idle cycles -system.cpu0.itb.accesses 3593148 # ITB accesses -system.cpu0.itb.acv 161 # ITB acv -system.cpu0.itb.hits 3589202 # ITB hits -system.cpu0.itb.misses 3946 # ITB misses -system.cpu0.kern.callpal 145952 # number of callpals executed +system.cpu0.idle_fraction 0.949821 # Percentage of idle cycles +system.cpu0.itb.accesses 3574000 # ITB accesses +system.cpu0.itb.acv 143 # ITB acv +system.cpu0.itb.hits 3570159 # ITB hits +system.cpu0.itb.misses 3841 # ITB misses +system.cpu0.kern.callpal 146588 # number of callpals executed system.cpu0.kern.callpal_cserve 1 0.00% 0.00% # number of callpals executed -system.cpu0.kern.callpal_wripir 536 0.37% 0.37% # number of callpals executed -system.cpu0.kern.callpal_wrmces 1 0.00% 0.37% # number of callpals executed -system.cpu0.kern.callpal_wrfen 1 0.00% 0.37% # number of callpals executed +system.cpu0.kern.callpal_wripir 532 0.36% 0.36% # number of callpals executed +system.cpu0.kern.callpal_wrmces 1 0.00% 0.36% # number of callpals executed +system.cpu0.kern.callpal_wrfen 1 0.00% 0.36% # number of callpals executed system.cpu0.kern.callpal_wrvptptr 1 0.00% 0.37% # number of callpals executed -system.cpu0.kern.callpal_swpctx 3014 2.07% 2.44% # number of callpals executed -system.cpu0.kern.callpal_tbi 46 0.03% 2.47% # number of callpals executed -system.cpu0.kern.callpal_wrent 7 0.00% 2.47% # number of callpals executed -system.cpu0.kern.callpal_swpipl 131018 89.77% 92.24% # number of callpals executed -system.cpu0.kern.callpal_rdps 6493 4.45% 96.69% # number of callpals executed -system.cpu0.kern.callpal_wrkgp 1 0.00% 96.69% # number of callpals executed -system.cpu0.kern.callpal_wrusp 4 0.00% 96.69% # number of callpals executed -system.cpu0.kern.callpal_rdusp 8 0.01% 96.70% # number of callpals executed -system.cpu0.kern.callpal_whami 2 0.00% 96.70% # number of callpals executed -system.cpu0.kern.callpal_rti 4302 2.95% 99.65% # number of callpals executed -system.cpu0.kern.callpal_callsys 368 0.25% 99.90% # number of callpals executed +system.cpu0.kern.callpal_swpctx 2987 2.04% 2.40% # number of callpals executed +system.cpu0.kern.callpal_tbi 44 0.03% 2.43% # number of callpals executed +system.cpu0.kern.callpal_wrent 7 0.00% 2.44% # number of callpals executed +system.cpu0.kern.callpal_swpipl 131596 89.77% 92.21% # number of callpals executed +system.cpu0.kern.callpal_rdps 6643 4.53% 96.74% # number of callpals executed +system.cpu0.kern.callpal_wrkgp 1 0.00% 96.74% # number of callpals executed +system.cpu0.kern.callpal_wrusp 4 0.00% 96.75% # number of callpals executed +system.cpu0.kern.callpal_rdusp 7 0.00% 96.75% # number of callpals executed +system.cpu0.kern.callpal_whami 2 0.00% 96.75% # number of callpals executed +system.cpu0.kern.callpal_rti 4256 2.90% 99.66% # number of callpals executed +system.cpu0.kern.callpal_callsys 356 0.24% 99.90% # number of callpals executed system.cpu0.kern.callpal_imb 149 0.10% 100.00% # number of callpals executed system.cpu0.kern.inst.arm 0 # number of arm instructions executed -system.cpu0.kern.inst.hwrei 161590 # number of hwrei instructions executed -system.cpu0.kern.inst.quiesce 6598 # number of quiesce instructions executed -system.cpu0.kern.ipl_count 137863 # number of times we switched to this ipl -system.cpu0.kern.ipl_count_0 55298 40.11% 40.11% # number of times we switched to this ipl -system.cpu0.kern.ipl_count_21 131 0.10% 40.21% # number of times we switched to this ipl -system.cpu0.kern.ipl_count_22 1969 1.43% 41.63% # number of times we switched to this ipl -system.cpu0.kern.ipl_count_30 442 0.32% 41.95% # number of times we switched to this ipl -system.cpu0.kern.ipl_count_31 80023 58.05% 100.00% # number of times we switched to this ipl -system.cpu0.kern.ipl_good 111708 # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_good_0 54804 49.06% 49.06% # number of times we switched to this ipl from a different ipl +system.cpu0.kern.inst.hwrei 161890 # number of hwrei instructions executed +system.cpu0.kern.inst.quiesce 6605 # number of quiesce instructions executed +system.cpu0.kern.ipl_count 138395 # number of times we switched to this ipl +system.cpu0.kern.ipl_count_0 55551 40.14% 40.14% # number of times we switched to this ipl +system.cpu0.kern.ipl_count_21 131 0.09% 40.23% # number of times we switched to this ipl +system.cpu0.kern.ipl_count_22 1968 1.42% 41.66% # number of times we switched to this ipl +system.cpu0.kern.ipl_count_30 443 0.32% 41.98% # number of times we switched to this ipl +system.cpu0.kern.ipl_count_31 80302 58.02% 100.00% # number of times we switched to this ipl +system.cpu0.kern.ipl_good 112213 # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_good_0 55057 49.06% 49.06% # number of times we switched to this ipl from a different ipl system.cpu0.kern.ipl_good_21 131 0.12% 49.18% # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_good_22 1969 1.76% 50.94% # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_good_30 442 0.40% 51.34% # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_good_31 54362 48.66% 100.00% # number of times we switched to this ipl from a different ipl -system.cpu0.kern.ipl_ticks 1951366621000 # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_0 1898503749000 97.29% 97.29% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_21 76310500 0.00% 97.29% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_22 547835000 0.03% 97.32% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_30 278789500 0.01% 97.34% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_ticks_31 51959937000 2.66% 100.00% # number of cycles we spent at this ipl -system.cpu0.kern.ipl_used_0 0.991067 # fraction of swpipl calls that actually changed the ipl +system.cpu0.kern.ipl_good_22 1968 1.75% 50.94% # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_good_30 443 0.39% 51.33% # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_good_31 54614 48.67% 100.00% # number of times we switched to this ipl from a different ipl +system.cpu0.kern.ipl_ticks 1950342497000 # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_0 1897380648000 97.28% 97.28% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_21 76995000 0.00% 97.29% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_22 547402000 0.03% 97.32% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_30 279389000 0.01% 97.33% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_ticks_31 52058063000 2.67% 100.00% # number of cycles we spent at this ipl +system.cpu0.kern.ipl_used_0 0.991107 # 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 0.679330 # fraction of swpipl calls that actually changed the ipl -system.cpu0.kern.mode_good_kernel 1275 -system.cpu0.kern.mode_good_user 1276 +system.cpu0.kern.ipl_used_31 0.680108 # fraction of swpipl calls that actually changed the ipl +system.cpu0.kern.mode_good_kernel 1230 +system.cpu0.kern.mode_good_user 1231 system.cpu0.kern.mode_good_idle 0 -system.cpu0.kern.mode_switch_kernel 6846 # number of protection mode switches -system.cpu0.kern.mode_switch_user 1276 # number of protection mode switches +system.cpu0.kern.mode_switch_kernel 6774 # number of protection mode switches +system.cpu0.kern.mode_switch_user 1231 # number of protection mode switches system.cpu0.kern.mode_switch_idle 0 # number of protection mode switches system.cpu0.kern.mode_switch_good # fraction of useful protection mode switches -system.cpu0.kern.mode_switch_good_kernel 0.186240 # fraction of useful protection mode switches +system.cpu0.kern.mode_switch_good_kernel 0.181577 # 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 # fraction of useful protection mode switches -system.cpu0.kern.mode_ticks_kernel 1948118613000 99.83% 99.83% # number of ticks spent at the given mode -system.cpu0.kern.mode_ticks_user 3248006000 0.17% 100.00% # number of ticks spent at the given mode +system.cpu0.kern.mode_ticks_kernel 1947142058000 99.84% 99.84% # number of ticks spent at the given mode +system.cpu0.kern.mode_ticks_user 3200437000 0.16% 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 3015 # number of times the context was actually changed -system.cpu0.kern.syscall 228 # number of syscalls executed -system.cpu0.kern.syscall_2 7 3.07% 3.07% # number of syscalls executed -system.cpu0.kern.syscall_3 19 8.33% 11.40% # number of syscalls executed -system.cpu0.kern.syscall_4 3 1.32% 12.72% # number of syscalls executed -system.cpu0.kern.syscall_6 31 13.60% 26.32% # number of syscalls executed -system.cpu0.kern.syscall_12 1 0.44% 26.75% # number of syscalls executed -system.cpu0.kern.syscall_15 1 0.44% 27.19% # number of syscalls executed -system.cpu0.kern.syscall_17 10 4.39% 31.58% # number of syscalls executed -system.cpu0.kern.syscall_19 6 2.63% 34.21% # number of syscalls executed -system.cpu0.kern.syscall_20 4 1.75% 35.96% # number of syscalls executed -system.cpu0.kern.syscall_23 2 0.88% 36.84% # number of syscalls executed -system.cpu0.kern.syscall_24 4 1.75% 38.60% # number of syscalls executed -system.cpu0.kern.syscall_33 8 3.51% 42.11% # number of syscalls executed -system.cpu0.kern.syscall_41 2 0.88% 42.98% # number of syscalls executed -system.cpu0.kern.syscall_45 39 17.11% 60.09% # number of syscalls executed -system.cpu0.kern.syscall_47 4 1.75% 61.84% # number of syscalls executed -system.cpu0.kern.syscall_48 8 3.51% 65.35% # number of syscalls executed -system.cpu0.kern.syscall_54 9 3.95% 69.30% # number of syscalls executed -system.cpu0.kern.syscall_58 1 0.44% 69.74% # number of syscalls executed -system.cpu0.kern.syscall_59 6 2.63% 72.37% # number of syscalls executed -system.cpu0.kern.syscall_71 32 14.04% 86.40% # number of syscalls executed -system.cpu0.kern.syscall_73 3 1.32% 87.72% # number of syscalls executed -system.cpu0.kern.syscall_74 9 3.95% 91.67% # number of syscalls executed -system.cpu0.kern.syscall_87 1 0.44% 92.11% # number of syscalls executed -system.cpu0.kern.syscall_90 2 0.88% 92.98% # number of syscalls executed -system.cpu0.kern.syscall_92 7 3.07% 96.05% # number of syscalls executed -system.cpu0.kern.syscall_97 2 0.88% 96.93% # number of syscalls executed -system.cpu0.kern.syscall_98 2 0.88% 97.81% # number of syscalls executed -system.cpu0.kern.syscall_132 2 0.88% 98.68% # number of syscalls executed -system.cpu0.kern.syscall_144 1 0.44% 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 0.050110 # Percentage of non-idle cycles -system.cpu0.numCycles 1951367346000 # number of cpu cycles simulated -system.cpu0.num_insts 51081134 # Number of instructions executed -system.cpu0.num_refs 13268864 # Number of memory references -system.cpu1.dcache.LoadLockedReq_accesses 61056 # number of LoadLockedReq accesses(hits+misses) -system.cpu1.dcache.LoadLockedReq_avg_miss_latency 9095.192614 # average LoadLockedReq miss latency -system.cpu1.dcache.LoadLockedReq_avg_mshr_miss_latency 8095.192614 # average LoadLockedReq mshr miss latency -system.cpu1.dcache.LoadLockedReq_hits 51633 # number of LoadLockedReq hits -system.cpu1.dcache.LoadLockedReq_miss_latency 85704000 # number of LoadLockedReq miss cycles -system.cpu1.dcache.LoadLockedReq_miss_rate 0.154334 # miss rate for LoadLockedReq accesses -system.cpu1.dcache.LoadLockedReq_misses 9423 # number of LoadLockedReq misses -system.cpu1.dcache.LoadLockedReq_mshr_miss_latency 76281000 # number of LoadLockedReq MSHR miss cycles -system.cpu1.dcache.LoadLockedReq_mshr_miss_rate 0.154334 # mshr miss rate for LoadLockedReq accesses -system.cpu1.dcache.LoadLockedReq_mshr_misses 9423 # number of LoadLockedReq MSHR misses -system.cpu1.dcache.ReadReq_accesses 2457845 # number of ReadReq accesses(hits+misses) -system.cpu1.dcache.ReadReq_avg_miss_latency 11653.965886 # average ReadReq miss latency -system.cpu1.dcache.ReadReq_avg_mshr_miss_latency 10653.909138 # average ReadReq mshr miss latency +system.cpu0.kern.swap_context 2988 # number of times the context was actually changed +system.cpu0.kern.syscall 224 # number of syscalls executed +system.cpu0.kern.syscall_2 6 2.68% 2.68% # number of syscalls executed +system.cpu0.kern.syscall_3 19 8.48% 11.16% # number of syscalls executed +system.cpu0.kern.syscall_4 3 1.34% 12.50% # number of syscalls executed +system.cpu0.kern.syscall_6 30 13.39% 25.89% # number of syscalls executed +system.cpu0.kern.syscall_12 1 0.45% 26.34% # number of syscalls executed +system.cpu0.kern.syscall_15 1 0.45% 26.79% # number of syscalls executed +system.cpu0.kern.syscall_17 10 4.46% 31.25% # number of syscalls executed +system.cpu0.kern.syscall_19 6 2.68% 33.93% # number of syscalls executed +system.cpu0.kern.syscall_20 4 1.79% 35.71% # number of syscalls executed +system.cpu0.kern.syscall_23 2 0.89% 36.61% # number of syscalls executed +system.cpu0.kern.syscall_24 4 1.79% 38.39% # number of syscalls executed +system.cpu0.kern.syscall_33 8 3.57% 41.96% # number of syscalls executed +system.cpu0.kern.syscall_41 2 0.89% 42.86% # number of syscalls executed +system.cpu0.kern.syscall_45 39 17.41% 60.27% # number of syscalls executed +system.cpu0.kern.syscall_47 4 1.79% 62.05% # number of syscalls executed +system.cpu0.kern.syscall_48 7 3.12% 65.18% # number of syscalls executed +system.cpu0.kern.syscall_54 9 4.02% 69.20% # number of syscalls executed +system.cpu0.kern.syscall_58 1 0.45% 69.64% # number of syscalls executed +system.cpu0.kern.syscall_59 5 2.23% 71.88% # number of syscalls executed +system.cpu0.kern.syscall_71 32 14.29% 86.16% # number of syscalls executed +system.cpu0.kern.syscall_73 3 1.34% 87.50% # number of syscalls executed +system.cpu0.kern.syscall_74 9 4.02% 91.52% # number of syscalls executed +system.cpu0.kern.syscall_87 1 0.45% 91.96% # number of syscalls executed +system.cpu0.kern.syscall_90 2 0.89% 92.86% # number of syscalls executed +system.cpu0.kern.syscall_92 7 3.12% 95.98% # number of syscalls executed +system.cpu0.kern.syscall_97 2 0.89% 96.87% # number of syscalls executed +system.cpu0.kern.syscall_98 2 0.89% 97.77% # number of syscalls executed +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 0.050179 # Percentage of non-idle cycles +system.cpu0.numCycles 1950343222000 # number of cpu cycles simulated +system.cpu0.num_insts 51129548 # Number of instructions executed +system.cpu0.num_refs 13284144 # Number of memory references +system.cpu1.dcache.LoadLockedReq_accesses 60655 # number of LoadLockedReq accesses(hits+misses) +system.cpu1.dcache.LoadLockedReq_avg_miss_latency 9128.994709 # average LoadLockedReq miss latency +system.cpu1.dcache.LoadLockedReq_avg_mshr_miss_latency 8128.994709 # average LoadLockedReq mshr miss latency +system.cpu1.dcache.LoadLockedReq_hits 51205 # number of LoadLockedReq hits +system.cpu1.dcache.LoadLockedReq_miss_latency 86269000 # number of LoadLockedReq miss cycles +system.cpu1.dcache.LoadLockedReq_miss_rate 0.155799 # miss rate for LoadLockedReq accesses +system.cpu1.dcache.LoadLockedReq_misses 9450 # number of LoadLockedReq misses +system.cpu1.dcache.LoadLockedReq_mshr_miss_latency 76819000 # number of LoadLockedReq MSHR miss cycles +system.cpu1.dcache.LoadLockedReq_mshr_miss_rate 0.155799 # mshr miss rate for LoadLockedReq accesses +system.cpu1.dcache.LoadLockedReq_mshr_misses 9450 # number of LoadLockedReq MSHR misses +system.cpu1.dcache.ReadReq_accesses 2449421 # number of ReadReq accesses(hits+misses) +system.cpu1.dcache.ReadReq_avg_miss_latency 11681.277239 # average ReadReq miss latency +system.cpu1.dcache.ReadReq_avg_mshr_miss_latency 10681.237034 # average ReadReq mshr miss latency system.cpu1.dcache.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.cpu1.dcache.ReadReq_hits 2334493 # number of ReadReq hits -system.cpu1.dcache.ReadReq_miss_latency 1437540000 # number of ReadReq miss cycles -system.cpu1.dcache.ReadReq_miss_rate 0.050187 # miss rate for ReadReq accesses -system.cpu1.dcache.ReadReq_misses 123352 # number of ReadReq misses -system.cpu1.dcache.ReadReq_mshr_miss_latency 1314181000 # number of ReadReq MSHR miss cycles -system.cpu1.dcache.ReadReq_mshr_miss_rate 0.050187 # mshr miss rate for ReadReq accesses -system.cpu1.dcache.ReadReq_mshr_misses 123352 # number of ReadReq MSHR misses -system.cpu1.dcache.ReadReq_mshr_uncacheable_latency 16729500 # number of ReadReq MSHR uncacheable cycles -system.cpu1.dcache.StoreCondReq_accesses 60551 # number of StoreCondReq accesses(hits+misses) -system.cpu1.dcache.StoreCondReq_avg_miss_latency 10960.125479 # average StoreCondReq miss latency -system.cpu1.dcache.StoreCondReq_avg_mshr_miss_latency 9960.125479 # average StoreCondReq mshr miss latency -system.cpu1.dcache.StoreCondReq_hits 46206 # number of StoreCondReq hits -system.cpu1.dcache.StoreCondReq_miss_latency 157223000 # number of StoreCondReq miss cycles -system.cpu1.dcache.StoreCondReq_miss_rate 0.236908 # miss rate for StoreCondReq accesses -system.cpu1.dcache.StoreCondReq_misses 14345 # number of StoreCondReq misses -system.cpu1.dcache.StoreCondReq_mshr_miss_latency 142878000 # number of StoreCondReq MSHR miss cycles -system.cpu1.dcache.StoreCondReq_mshr_miss_rate 0.236908 # mshr miss rate for StoreCondReq accesses -system.cpu1.dcache.StoreCondReq_mshr_misses 14345 # number of StoreCondReq MSHR misses -system.cpu1.dcache.WriteReq_accesses 1792743 # number of WriteReq accesses(hits+misses) -system.cpu1.dcache.WriteReq_avg_miss_latency 13398.121192 # average WriteReq miss latency -system.cpu1.dcache.WriteReq_avg_mshr_miss_latency 12398.121192 # average WriteReq mshr miss latency +system.cpu1.dcache.ReadReq_hits 2325059 # number of ReadReq hits +system.cpu1.dcache.ReadReq_miss_latency 1452707000 # number of ReadReq miss cycles +system.cpu1.dcache.ReadReq_miss_rate 0.050772 # miss rate for ReadReq accesses +system.cpu1.dcache.ReadReq_misses 124362 # number of ReadReq misses +system.cpu1.dcache.ReadReq_mshr_miss_latency 1328340000 # number of ReadReq MSHR miss cycles +system.cpu1.dcache.ReadReq_mshr_miss_rate 0.050772 # mshr miss rate for ReadReq accesses +system.cpu1.dcache.ReadReq_mshr_misses 124362 # number of ReadReq MSHR misses +system.cpu1.dcache.ReadReq_mshr_uncacheable_latency 14269500 # number of ReadReq MSHR uncacheable cycles +system.cpu1.dcache.StoreCondReq_accesses 60151 # number of StoreCondReq accesses(hits+misses) +system.cpu1.dcache.StoreCondReq_avg_miss_latency 11012.226290 # average StoreCondReq miss latency +system.cpu1.dcache.StoreCondReq_avg_mshr_miss_latency 10012.226290 # average StoreCondReq mshr miss latency +system.cpu1.dcache.StoreCondReq_hits 45674 # number of StoreCondReq hits +system.cpu1.dcache.StoreCondReq_miss_latency 159424000 # number of StoreCondReq miss cycles +system.cpu1.dcache.StoreCondReq_miss_rate 0.240678 # miss rate for StoreCondReq accesses +system.cpu1.dcache.StoreCondReq_misses 14477 # number of StoreCondReq misses +system.cpu1.dcache.StoreCondReq_mshr_miss_latency 144947000 # number of StoreCondReq MSHR miss cycles +system.cpu1.dcache.StoreCondReq_mshr_miss_rate 0.240678 # mshr miss rate for StoreCondReq accesses +system.cpu1.dcache.StoreCondReq_mshr_misses 14477 # number of StoreCondReq MSHR misses +system.cpu1.dcache.WriteReq_accesses 1790109 # number of WriteReq accesses(hits+misses) +system.cpu1.dcache.WriteReq_avg_miss_latency 13411.570283 # average WriteReq miss latency +system.cpu1.dcache.WriteReq_avg_mshr_miss_latency 12411.570283 # average WriteReq mshr miss latency system.cpu1.dcache.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.cpu1.dcache.WriteReq_hits 1700344 # number of WriteReq hits -system.cpu1.dcache.WriteReq_miss_latency 1237973000 # number of WriteReq miss cycles -system.cpu1.dcache.WriteReq_miss_rate 0.051541 # miss rate for WriteReq accesses -system.cpu1.dcache.WriteReq_misses 92399 # number of WriteReq misses -system.cpu1.dcache.WriteReq_mshr_miss_latency 1145574000 # number of WriteReq MSHR miss cycles -system.cpu1.dcache.WriteReq_mshr_miss_rate 0.051541 # mshr miss rate for WriteReq accesses -system.cpu1.dcache.WriteReq_mshr_misses 92399 # number of WriteReq MSHR misses -system.cpu1.dcache.WriteReq_mshr_uncacheable_latency 421374000 # number of WriteReq MSHR uncacheable cycles +system.cpu1.dcache.WriteReq_hits 1696922 # number of WriteReq hits +system.cpu1.dcache.WriteReq_miss_latency 1249784000 # number of WriteReq miss cycles +system.cpu1.dcache.WriteReq_miss_rate 0.052057 # miss rate for WriteReq accesses +system.cpu1.dcache.WriteReq_misses 93187 # number of WriteReq misses +system.cpu1.dcache.WriteReq_mshr_miss_latency 1156597000 # number of WriteReq MSHR miss cycles +system.cpu1.dcache.WriteReq_mshr_miss_rate 0.052057 # mshr miss rate for WriteReq accesses +system.cpu1.dcache.WriteReq_mshr_misses 93187 # number of WriteReq MSHR misses +system.cpu1.dcache.WriteReq_mshr_uncacheable_latency 412881500 # number of WriteReq MSHR uncacheable cycles system.cpu1.dcache.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked system.cpu1.dcache.avg_blocked_cycles_no_targets # average number of cycles each access was blocked -system.cpu1.dcache.avg_refs 23.577992 # Average number of references to valid blocks. +system.cpu1.dcache.avg_refs 23.244686 # 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 4250588 # number of demand (read+write) accesses -system.cpu1.dcache.demand_avg_miss_latency 12400.929776 # average overall miss latency -system.cpu1.dcache.demand_avg_mshr_miss_latency 11400.897331 # average overall mshr miss latency -system.cpu1.dcache.demand_hits 4034837 # number of demand (read+write) hits -system.cpu1.dcache.demand_miss_latency 2675513000 # number of demand (read+write) miss cycles -system.cpu1.dcache.demand_miss_rate 0.050758 # miss rate for demand accesses -system.cpu1.dcache.demand_misses 215751 # number of demand (read+write) misses +system.cpu1.dcache.demand_accesses 4239530 # number of demand (read+write) accesses +system.cpu1.dcache.demand_avg_miss_latency 12422.447357 # average overall miss latency +system.cpu1.dcache.demand_avg_mshr_miss_latency 11422.424373 # average overall mshr miss latency +system.cpu1.dcache.demand_hits 4021981 # number of demand (read+write) hits +system.cpu1.dcache.demand_miss_latency 2702491000 # number of demand (read+write) miss cycles +system.cpu1.dcache.demand_miss_rate 0.051314 # miss rate for demand accesses +system.cpu1.dcache.demand_misses 217549 # 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 2459755000 # number of demand (read+write) MSHR miss cycles -system.cpu1.dcache.demand_mshr_miss_rate 0.050758 # mshr miss rate for demand accesses -system.cpu1.dcache.demand_mshr_misses 215751 # number of demand (read+write) MSHR misses +system.cpu1.dcache.demand_mshr_miss_latency 2484937000 # number of demand (read+write) MSHR miss cycles +system.cpu1.dcache.demand_mshr_miss_rate 0.051314 # mshr miss rate for demand accesses +system.cpu1.dcache.demand_mshr_misses 217549 # 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 4250588 # number of overall (read+write) accesses -system.cpu1.dcache.overall_avg_miss_latency 12400.929776 # average overall miss latency -system.cpu1.dcache.overall_avg_mshr_miss_latency 11400.897331 # average overall mshr miss latency +system.cpu1.dcache.overall_accesses 4239530 # number of overall (read+write) accesses +system.cpu1.dcache.overall_avg_miss_latency 12422.447357 # average overall miss latency +system.cpu1.dcache.overall_avg_mshr_miss_latency 11422.424373 # average overall mshr miss latency system.cpu1.dcache.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.cpu1.dcache.overall_hits 4034837 # number of overall hits -system.cpu1.dcache.overall_miss_latency 2675513000 # number of overall miss cycles -system.cpu1.dcache.overall_miss_rate 0.050758 # miss rate for overall accesses -system.cpu1.dcache.overall_misses 215751 # number of overall misses +system.cpu1.dcache.overall_hits 4021981 # number of overall hits +system.cpu1.dcache.overall_miss_latency 2702491000 # number of overall miss cycles +system.cpu1.dcache.overall_miss_rate 0.051314 # miss rate for overall accesses +system.cpu1.dcache.overall_misses 217549 # number of overall misses system.cpu1.dcache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu1.dcache.overall_mshr_miss_latency 2459755000 # number of overall MSHR miss cycles -system.cpu1.dcache.overall_mshr_miss_rate 0.050758 # mshr miss rate for overall accesses -system.cpu1.dcache.overall_mshr_misses 215751 # number of overall MSHR misses -system.cpu1.dcache.overall_mshr_uncacheable_latency 438103500 # number of overall MSHR uncacheable cycles +system.cpu1.dcache.overall_mshr_miss_latency 2484937000 # number of overall MSHR miss cycles +system.cpu1.dcache.overall_mshr_miss_rate 0.051314 # mshr miss rate for overall accesses +system.cpu1.dcache.overall_mshr_misses 217549 # number of overall MSHR misses +system.cpu1.dcache.overall_mshr_uncacheable_latency 427151000 # 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 176474 # number of replacements -system.cpu1.dcache.sampled_refs 176909 # Sample count of references to valid blocks. +system.cpu1.dcache.replacements 178566 # number of replacements +system.cpu1.dcache.sampled_refs 178968 # 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 471.274557 # Cycle average of tags in use -system.cpu1.dcache.total_refs 4171159 # Total number of references to valid blocks. -system.cpu1.dcache.warmup_cycle 1917859097000 # Cycle when the warmup percentage was hit. -system.cpu1.dcache.writebacks 93260 # number of writebacks -system.cpu1.dtb.accesses 296718 # DTB accesses -system.cpu1.dtb.acv 62 # DTB access violations -system.cpu1.dtb.hits 4358656 # DTB hits -system.cpu1.dtb.misses 2867 # DTB misses -system.cpu1.dtb.read_accesses 201817 # DTB read accesses -system.cpu1.dtb.read_acv 26 # DTB read access violations -system.cpu1.dtb.read_hits 2507309 # DTB read hits -system.cpu1.dtb.read_misses 2546 # DTB read misses -system.cpu1.dtb.write_accesses 94901 # DTB write accesses -system.cpu1.dtb.write_acv 36 # DTB write access violations -system.cpu1.dtb.write_hits 1851347 # DTB write hits -system.cpu1.dtb.write_misses 321 # DTB write misses -system.cpu1.icache.ReadReq_accesses 13758345 # number of ReadReq accesses(hits+misses) -system.cpu1.icache.ReadReq_avg_miss_latency 12026.498126 # average ReadReq miss latency -system.cpu1.icache.ReadReq_avg_mshr_miss_latency 11026.342473 # average ReadReq mshr miss latency -system.cpu1.icache.ReadReq_hits 13421057 # number of ReadReq hits -system.cpu1.icache.ReadReq_miss_latency 4056393500 # number of ReadReq miss cycles -system.cpu1.icache.ReadReq_miss_rate 0.024515 # miss rate for ReadReq accesses -system.cpu1.icache.ReadReq_misses 337288 # number of ReadReq misses -system.cpu1.icache.ReadReq_mshr_miss_latency 3719053000 # number of ReadReq MSHR miss cycles -system.cpu1.icache.ReadReq_mshr_miss_rate 0.024515 # mshr miss rate for ReadReq accesses -system.cpu1.icache.ReadReq_mshr_misses 337288 # number of ReadReq MSHR misses +system.cpu1.dcache.tagsinuse 471.348087 # Cycle average of tags in use +system.cpu1.dcache.total_refs 4160055 # Total number of references to valid blocks. +system.cpu1.dcache.warmup_cycle 1934175560000 # Cycle when the warmup percentage was hit. +system.cpu1.dcache.writebacks 94428 # number of writebacks +system.cpu1.dtb.accesses 302878 # DTB accesses +system.cpu1.dtb.acv 84 # DTB access violations +system.cpu1.dtb.hits 4346335 # 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 2498134 # 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 1848201 # DTB write hits +system.cpu1.dtb.write_misses 356 # DTB write misses +system.cpu1.icache.ReadReq_accesses 13719733 # number of ReadReq accesses(hits+misses) +system.cpu1.icache.ReadReq_avg_miss_latency 12024.874815 # average ReadReq miss latency +system.cpu1.icache.ReadReq_avg_mshr_miss_latency 11024.732219 # average ReadReq mshr miss latency +system.cpu1.icache.ReadReq_hits 13386625 # number of ReadReq hits +system.cpu1.icache.ReadReq_miss_latency 4005582000 # number of ReadReq miss cycles +system.cpu1.icache.ReadReq_miss_rate 0.024279 # miss rate for ReadReq accesses +system.cpu1.icache.ReadReq_misses 333108 # number of ReadReq misses +system.cpu1.icache.ReadReq_mshr_miss_latency 3672426500 # number of ReadReq MSHR miss cycles +system.cpu1.icache.ReadReq_mshr_miss_rate 0.024279 # mshr miss rate for ReadReq accesses +system.cpu1.icache.ReadReq_mshr_misses 333108 # number of ReadReq MSHR misses system.cpu1.icache.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked system.cpu1.icache.avg_blocked_cycles_no_targets # average number of cycles each access was blocked -system.cpu1.icache.avg_refs 39.794511 # Average number of references to valid blocks. +system.cpu1.icache.avg_refs 40.190058 # 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 13758345 # number of demand (read+write) accesses -system.cpu1.icache.demand_avg_miss_latency 12026.498126 # average overall miss latency -system.cpu1.icache.demand_avg_mshr_miss_latency 11026.342473 # average overall mshr miss latency -system.cpu1.icache.demand_hits 13421057 # number of demand (read+write) hits -system.cpu1.icache.demand_miss_latency 4056393500 # number of demand (read+write) miss cycles -system.cpu1.icache.demand_miss_rate 0.024515 # miss rate for demand accesses -system.cpu1.icache.demand_misses 337288 # number of demand (read+write) misses +system.cpu1.icache.demand_accesses 13719733 # number of demand (read+write) accesses +system.cpu1.icache.demand_avg_miss_latency 12024.874815 # average overall miss latency +system.cpu1.icache.demand_avg_mshr_miss_latency 11024.732219 # average overall mshr miss latency +system.cpu1.icache.demand_hits 13386625 # number of demand (read+write) hits +system.cpu1.icache.demand_miss_latency 4005582000 # number of demand (read+write) miss cycles +system.cpu1.icache.demand_miss_rate 0.024279 # miss rate for demand accesses +system.cpu1.icache.demand_misses 333108 # 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 3719053000 # number of demand (read+write) MSHR miss cycles -system.cpu1.icache.demand_mshr_miss_rate 0.024515 # mshr miss rate for demand accesses -system.cpu1.icache.demand_mshr_misses 337288 # number of demand (read+write) MSHR misses +system.cpu1.icache.demand_mshr_miss_latency 3672426500 # number of demand (read+write) MSHR miss cycles +system.cpu1.icache.demand_mshr_miss_rate 0.024279 # mshr miss rate for demand accesses +system.cpu1.icache.demand_mshr_misses 333108 # 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 13758345 # number of overall (read+write) accesses -system.cpu1.icache.overall_avg_miss_latency 12026.498126 # average overall miss latency -system.cpu1.icache.overall_avg_mshr_miss_latency 11026.342473 # average overall mshr miss latency +system.cpu1.icache.overall_accesses 13719733 # number of overall (read+write) accesses +system.cpu1.icache.overall_avg_miss_latency 12024.874815 # average overall miss latency +system.cpu1.icache.overall_avg_mshr_miss_latency 11024.732219 # average overall mshr miss latency system.cpu1.icache.overall_avg_mshr_uncacheable_latency # average overall mshr uncacheable latency -system.cpu1.icache.overall_hits 13421057 # number of overall hits -system.cpu1.icache.overall_miss_latency 4056393500 # number of overall miss cycles -system.cpu1.icache.overall_miss_rate 0.024515 # miss rate for overall accesses -system.cpu1.icache.overall_misses 337288 # number of overall misses +system.cpu1.icache.overall_hits 13386625 # number of overall hits +system.cpu1.icache.overall_miss_latency 4005582000 # number of overall miss cycles +system.cpu1.icache.overall_miss_rate 0.024279 # miss rate for overall accesses +system.cpu1.icache.overall_misses 333108 # number of overall misses system.cpu1.icache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu1.icache.overall_mshr_miss_latency 3719053000 # number of overall MSHR miss cycles -system.cpu1.icache.overall_mshr_miss_rate 0.024515 # mshr miss rate for overall accesses -system.cpu1.icache.overall_mshr_misses 337288 # number of overall MSHR misses +system.cpu1.icache.overall_mshr_miss_latency 3672426500 # number of overall MSHR miss cycles +system.cpu1.icache.overall_mshr_miss_rate 0.024279 # mshr miss rate for overall accesses +system.cpu1.icache.overall_mshr_misses 333108 # 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 @@ -439,98 +439,98 @@ 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 336747 # number of replacements -system.cpu1.icache.sampled_refs 337259 # Sample count of references to valid blocks. +system.cpu1.icache.replacements 332571 # number of replacements +system.cpu1.icache.sampled_refs 333083 # 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 445.859240 # Cycle average of tags in use -system.cpu1.icache.total_refs 13421057 # Total number of references to valid blocks. -system.cpu1.icache.warmup_cycle 1946103109000 # Cycle when the warmup percentage was hit. +system.cpu1.icache.tagsinuse 445.823850 # Cycle average of tags in use +system.cpu1.icache.total_refs 13386625 # Total number of references to valid blocks. +system.cpu1.icache.warmup_cycle 1934417088000 # Cycle when the warmup percentage was hit. system.cpu1.icache.writebacks 0 # number of writebacks -system.cpu1.idle_fraction 0.987201 # Percentage of idle cycles -system.cpu1.itb.accesses 1878768 # ITB accesses -system.cpu1.itb.acv 23 # ITB acv -system.cpu1.itb.hits 1877648 # ITB hits -system.cpu1.itb.misses 1120 # ITB misses -system.cpu1.kern.callpal 75334 # number of callpals executed +system.cpu1.idle_fraction 0.987236 # Percentage of idle cycles +system.cpu1.itb.accesses 1902426 # ITB accesses +system.cpu1.itb.acv 41 # ITB acv +system.cpu1.itb.hits 1901180 # ITB hits +system.cpu1.itb.misses 1246 # ITB misses +system.cpu1.kern.callpal 74762 # number of callpals executed system.cpu1.kern.callpal_cserve 1 0.00% 0.00% # number of callpals executed -system.cpu1.kern.callpal_wripir 442 0.59% 0.59% # number of callpals executed -system.cpu1.kern.callpal_wrmces 1 0.00% 0.59% # number of callpals executed -system.cpu1.kern.callpal_wrfen 1 0.00% 0.59% # number of callpals executed -system.cpu1.kern.callpal_swpctx 2091 2.78% 3.37% # number of callpals executed -system.cpu1.kern.callpal_tbi 7 0.01% 3.38% # number of callpals executed -system.cpu1.kern.callpal_wrent 7 0.01% 3.38% # number of callpals executed -system.cpu1.kern.callpal_swpipl 66409 88.15% 91.54% # number of callpals executed -system.cpu1.kern.callpal_rdps 2344 3.11% 94.65% # number of callpals executed -system.cpu1.kern.callpal_wrkgp 1 0.00% 94.65% # number of callpals executed -system.cpu1.kern.callpal_wrusp 3 0.00% 94.65% # number of callpals executed -system.cpu1.kern.callpal_rdusp 1 0.00% 94.66% # number of callpals executed -system.cpu1.kern.callpal_whami 3 0.00% 94.66% # number of callpals executed -system.cpu1.kern.callpal_rti 3844 5.10% 99.76% # number of callpals executed -system.cpu1.kern.callpal_callsys 147 0.20% 99.96% # number of callpals executed +system.cpu1.kern.callpal_wripir 443 0.59% 0.59% # number of callpals executed +system.cpu1.kern.callpal_wrmces 1 0.00% 0.60% # number of callpals executed +system.cpu1.kern.callpal_wrfen 1 0.00% 0.60% # number of callpals executed +system.cpu1.kern.callpal_swpctx 2123 2.84% 3.44% # number of callpals executed +system.cpu1.kern.callpal_tbi 10 0.01% 3.45% # number of callpals executed +system.cpu1.kern.callpal_wrent 7 0.01% 3.46% # number of callpals executed +system.cpu1.kern.callpal_swpipl 65888 88.13% 91.59% # number of callpals executed +system.cpu1.kern.callpal_rdps 2193 2.93% 94.52% # number of callpals executed +system.cpu1.kern.callpal_wrkgp 1 0.00% 94.52% # number of callpals executed +system.cpu1.kern.callpal_wrusp 3 0.00% 94.53% # number of callpals executed +system.cpu1.kern.callpal_rdusp 2 0.00% 94.53% # number of callpals executed +system.cpu1.kern.callpal_whami 3 0.00% 94.53% # number of callpals executed +system.cpu1.kern.callpal_rti 3893 5.21% 99.74% # number of callpals executed +system.cpu1.kern.callpal_callsys 161 0.22% 99.96% # number of callpals executed system.cpu1.kern.callpal_imb 31 0.04% 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 81908 # number of hwrei instructions executed -system.cpu1.kern.inst.quiesce 2770 # number of quiesce instructions executed -system.cpu1.kern.ipl_count 72754 # number of times we switched to this ipl -system.cpu1.kern.ipl_count_0 28089 38.61% 38.61% # number of times we switched to this ipl -system.cpu1.kern.ipl_count_22 1964 2.70% 41.31% # number of times we switched to this ipl -system.cpu1.kern.ipl_count_30 536 0.74% 42.04% # number of times we switched to this ipl -system.cpu1.kern.ipl_count_31 42165 57.96% 100.00% # number of times we switched to this ipl -system.cpu1.kern.ipl_good 56376 # number of times we switched to this ipl from a different ipl -system.cpu1.kern.ipl_good_0 27206 48.26% 48.26% # number of times we switched to this ipl from a different ipl -system.cpu1.kern.ipl_good_22 1964 3.48% 51.74% # number of times we switched to this ipl from a different ipl -system.cpu1.kern.ipl_good_30 536 0.95% 52.69% # number of times we switched to this ipl from a different ipl -system.cpu1.kern.ipl_good_31 26670 47.31% 100.00% # number of times we switched to this ipl from a different ipl -system.cpu1.kern.ipl_ticks 1951174446000 # number of cycles we spent at this ipl -system.cpu1.kern.ipl_ticks_0 1904796411500 97.62% 97.62% # number of cycles we spent at this ipl -system.cpu1.kern.ipl_ticks_22 499877500 0.03% 97.65% # number of cycles we spent at this ipl -system.cpu1.kern.ipl_ticks_30 327859000 0.02% 97.67% # number of cycles we spent at this ipl -system.cpu1.kern.ipl_ticks_31 45550298000 2.33% 100.00% # number of cycles we spent at this ipl -system.cpu1.kern.ipl_used_0 0.968564 # fraction of swpipl calls that actually changed the ipl +system.cpu1.kern.inst.hwrei 81736 # number of hwrei instructions executed +system.cpu1.kern.inst.quiesce 2750 # number of quiesce instructions executed +system.cpu1.kern.ipl_count 72277 # number of times we switched to this ipl +system.cpu1.kern.ipl_count_0 27874 38.57% 38.57% # number of times we switched to this ipl +system.cpu1.kern.ipl_count_22 1963 2.72% 41.28% # number of times we switched to this ipl +system.cpu1.kern.ipl_count_30 532 0.74% 42.02% # number of times we switched to this ipl +system.cpu1.kern.ipl_count_31 41908 57.98% 100.00% # number of times we switched to this ipl +system.cpu1.kern.ipl_good 55945 # number of times we switched to this ipl from a different ipl +system.cpu1.kern.ipl_good_0 26991 48.25% 48.25% # number of times we switched to this ipl from a different ipl +system.cpu1.kern.ipl_good_22 1963 3.51% 51.75% # number of times we switched to this ipl from a different ipl +system.cpu1.kern.ipl_good_30 532 0.95% 52.71% # number of times we switched to this ipl from a different ipl +system.cpu1.kern.ipl_good_31 26459 47.29% 100.00% # number of times we switched to this ipl from a different ipl +system.cpu1.kern.ipl_ticks 1950198195000 # number of cycles we spent at this ipl +system.cpu1.kern.ipl_ticks_0 1903911128000 97.63% 97.63% # number of cycles we spent at this ipl +system.cpu1.kern.ipl_ticks_22 499586000 0.03% 97.65% # number of cycles we spent at this ipl +system.cpu1.kern.ipl_ticks_30 325119000 0.02% 97.67% # number of cycles we spent at this ipl +system.cpu1.kern.ipl_ticks_31 45462362000 2.33% 100.00% # number of cycles we spent at this ipl +system.cpu1.kern.ipl_used_0 0.968322 # 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 0.632515 # fraction of swpipl calls that actually changed the ipl -system.cpu1.kern.mode_good_kernel 924 -system.cpu1.kern.mode_good_user 463 -system.cpu1.kern.mode_good_idle 461 -system.cpu1.kern.mode_switch_kernel 2120 # number of protection mode switches -system.cpu1.kern.mode_switch_user 463 # number of protection mode switches -system.cpu1.kern.mode_switch_idle 2943 # number of protection mode switches -system.cpu1.kern.mode_switch_good 1.592492 # fraction of useful protection mode switches -system.cpu1.kern.mode_switch_good_kernel 0.435849 # fraction of useful protection mode switches +system.cpu1.kern.ipl_used_31 0.631359 # fraction of swpipl calls that actually changed the ipl +system.cpu1.kern.mode_good_kernel 973 +system.cpu1.kern.mode_good_user 516 +system.cpu1.kern.mode_good_idle 457 +system.cpu1.kern.mode_switch_kernel 2210 # number of protection mode switches +system.cpu1.kern.mode_switch_user 516 # number of protection mode switches +system.cpu1.kern.mode_switch_idle 2933 # number of protection mode switches +system.cpu1.kern.mode_switch_good 1.596085 # fraction of useful protection mode switches +system.cpu1.kern.mode_switch_good_kernel 0.440271 # 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 0.156643 # fraction of useful protection mode switches -system.cpu1.kern.mode_ticks_kernel 18594859000 0.95% 0.95% # number of ticks spent at the given mode -system.cpu1.kern.mode_ticks_user 1499702000 0.08% 1.03% # number of ticks spent at the given mode -system.cpu1.kern.mode_ticks_idle 1930131145000 98.97% 100.00% # number of ticks spent at the given mode -system.cpu1.kern.swap_context 2092 # number of times the context was actually changed -system.cpu1.kern.syscall 98 # number of syscalls executed -system.cpu1.kern.syscall_2 1 1.02% 1.02% # number of syscalls executed -system.cpu1.kern.syscall_3 11 11.22% 12.24% # number of syscalls executed -system.cpu1.kern.syscall_4 1 1.02% 13.27% # number of syscalls executed -system.cpu1.kern.syscall_6 11 11.22% 24.49% # number of syscalls executed -system.cpu1.kern.syscall_17 5 5.10% 29.59% # number of syscalls executed -system.cpu1.kern.syscall_19 4 4.08% 33.67% # number of syscalls executed -system.cpu1.kern.syscall_20 2 2.04% 35.71% # number of syscalls executed -system.cpu1.kern.syscall_23 2 2.04% 37.76% # number of syscalls executed -system.cpu1.kern.syscall_24 2 2.04% 39.80% # number of syscalls executed -system.cpu1.kern.syscall_33 3 3.06% 42.86% # number of syscalls executed -system.cpu1.kern.syscall_45 15 15.31% 58.16% # number of syscalls executed -system.cpu1.kern.syscall_47 2 2.04% 60.20% # number of syscalls executed -system.cpu1.kern.syscall_48 2 2.04% 62.24% # number of syscalls executed -system.cpu1.kern.syscall_54 1 1.02% 63.27% # number of syscalls executed -system.cpu1.kern.syscall_59 1 1.02% 64.29% # number of syscalls executed -system.cpu1.kern.syscall_71 22 22.45% 86.73% # number of syscalls executed -system.cpu1.kern.syscall_74 7 7.14% 93.88% # number of syscalls executed -system.cpu1.kern.syscall_90 1 1.02% 94.90% # number of syscalls executed -system.cpu1.kern.syscall_92 2 2.04% 96.94% # number of syscalls executed -system.cpu1.kern.syscall_132 2 2.04% 98.98% # number of syscalls executed -system.cpu1.kern.syscall_144 1 1.02% 100.00% # number of syscalls executed -system.cpu1.not_idle_fraction 0.012799 # Percentage of non-idle cycles -system.cpu1.numCycles 1951174476000 # number of cpu cycles simulated -system.cpu1.num_insts 13758345 # Number of instructions executed -system.cpu1.num_refs 4385954 # Number of memory references +system.cpu1.kern.mode_switch_good_idle 0.155813 # fraction of useful protection mode switches +system.cpu1.kern.mode_ticks_kernel 18488731000 0.95% 0.95% # number of ticks spent at the given mode +system.cpu1.kern.mode_ticks_user 1533794000 0.08% 1.03% # number of ticks spent at the given mode +system.cpu1.kern.mode_ticks_idle 1929494996000 98.97% 100.00% # number of ticks spent at the given mode +system.cpu1.kern.swap_context 2124 # 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 +system.cpu1.kern.syscall_3 11 10.78% 12.75% # number of syscalls executed +system.cpu1.kern.syscall_4 1 0.98% 13.73% # number of syscalls executed +system.cpu1.kern.syscall_6 12 11.76% 25.49% # number of syscalls executed +system.cpu1.kern.syscall_17 5 4.90% 30.39% # number of syscalls executed +system.cpu1.kern.syscall_19 4 3.92% 34.31% # number of syscalls executed +system.cpu1.kern.syscall_20 2 1.96% 36.27% # number of syscalls executed +system.cpu1.kern.syscall_23 2 1.96% 38.24% # number of syscalls executed +system.cpu1.kern.syscall_24 2 1.96% 40.20% # number of syscalls executed +system.cpu1.kern.syscall_33 3 2.94% 43.14% # number of syscalls executed +system.cpu1.kern.syscall_45 15 14.71% 57.84% # number of syscalls executed +system.cpu1.kern.syscall_47 2 1.96% 59.80% # number of syscalls executed +system.cpu1.kern.syscall_48 3 2.94% 62.75% # number of syscalls executed +system.cpu1.kern.syscall_54 1 0.98% 63.73% # number of syscalls executed +system.cpu1.kern.syscall_59 2 1.96% 65.69% # number of syscalls executed +system.cpu1.kern.syscall_71 22 21.57% 87.25% # number of syscalls executed +system.cpu1.kern.syscall_74 7 6.86% 94.12% # number of syscalls executed +system.cpu1.kern.syscall_90 1 0.98% 95.10% # number of syscalls executed +system.cpu1.kern.syscall_92 2 1.96% 97.06% # number of syscalls executed +system.cpu1.kern.syscall_132 2 1.96% 99.02% # number of syscalls executed +system.cpu1.kern.syscall_144 1 0.98% 100.00% # number of syscalls executed +system.cpu1.not_idle_fraction 0.012764 # Percentage of non-idle cycles +system.cpu1.numCycles 1950198225000 # number of cpu cycles simulated +system.cpu1.num_insts 13719733 # Number of instructions executed +system.cpu1.num_refs 4374283 # 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). @@ -543,79 +543,149 @@ system.disk2.dma_read_txs 0 # Nu system.disk2.dma_write_bytes 8192 # Number of bytes transfered via DMA writes. system.disk2.dma_write_full_pages 1 # Number of full page size DMA writes. system.disk2.dma_write_txs 1 # Number of DMA write transactions. -system.l2c.ReadExReq_accesses 297979 # number of ReadExReq accesses(hits+misses) -system.l2c.ReadExReq_avg_miss_latency 12000.808782 # average ReadExReq miss latency -system.l2c.ReadExReq_avg_mshr_miss_latency 11000.808782 # average ReadExReq mshr miss latency -system.l2c.ReadExReq_miss_latency 3575989000 # number of ReadExReq miss cycles +system.iocache.ReadReq_accesses 174 # number of ReadReq accesses(hits+misses) +system.iocache.ReadReq_avg_miss_latency 61942.517241 # average ReadReq miss latency +system.iocache.ReadReq_avg_mshr_miss_latency 60942.517241 # average ReadReq mshr miss latency +system.iocache.ReadReq_miss_latency 10777998 # number of ReadReq miss cycles +system.iocache.ReadReq_miss_rate 1 # miss rate for ReadReq accesses +system.iocache.ReadReq_misses 174 # number of ReadReq misses +system.iocache.ReadReq_mshr_miss_latency 10603998 # number of ReadReq MSHR miss cycles +system.iocache.ReadReq_mshr_miss_rate 1 # mshr miss rate for ReadReq accesses +system.iocache.ReadReq_mshr_misses 174 # number of ReadReq MSHR misses +system.iocache.WriteReq_accesses 41552 # number of WriteReq accesses(hits+misses) +system.iocache.WriteReq_avg_miss_latency 55516.962023 # average WriteReq miss latency +system.iocache.WriteReq_avg_mshr_miss_latency 54516.962023 # average WriteReq mshr miss latency +system.iocache.WriteReq_miss_latency 2306840806 # 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 2265288806 # 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 4139.072214 # average number of cycles each access was blocked +system.iocache.avg_blocked_cycles_no_targets # 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 10455 # number of cycles access was blocked +system.iocache.blocked_no_targets 0 # number of cycles access was blocked +system.iocache.blocked_cycles_no_mshrs 43274000 # 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 41726 # number of demand (read+write) accesses +system.iocache.demand_avg_miss_latency 55543.756986 # average overall miss latency +system.iocache.demand_avg_mshr_miss_latency 54543.756986 # average overall mshr miss latency +system.iocache.demand_hits 0 # number of demand (read+write) hits +system.iocache.demand_miss_latency 2317618804 # number of demand (read+write) miss cycles +system.iocache.demand_miss_rate 1 # miss rate for demand accesses +system.iocache.demand_misses 41726 # 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 2275892804 # 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 41726 # 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 41726 # number of overall (read+write) accesses +system.iocache.overall_avg_miss_latency 55543.756986 # average overall miss latency +system.iocache.overall_avg_mshr_miss_latency 54543.756986 # average overall mshr miss latency +system.iocache.overall_avg_mshr_uncacheable_latency # average overall mshr uncacheable latency +system.iocache.overall_hits 0 # number of overall hits +system.iocache.overall_miss_latency 2317618804 # number of overall miss cycles +system.iocache.overall_miss_rate 1 # miss rate for overall accesses +system.iocache.overall_misses 41726 # number of overall misses +system.iocache.overall_mshr_hits 0 # number of overall MSHR hits +system.iocache.overall_mshr_miss_latency 2275892804 # number of overall MSHR miss cycles +system.iocache.overall_mshr_miss_rate 1 # mshr miss rate for overall accesses +system.iocache.overall_mshr_misses 41726 # number of overall MSHR misses +system.iocache.overall_mshr_uncacheable_latency 0 # number of overall MSHR uncacheable cycles +system.iocache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses +system.iocache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache +system.iocache.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr +system.iocache.prefetcher.num_hwpf_already_in_prefetcher 0 # number of hwpf that were already in the prefetch queue +system.iocache.prefetcher.num_hwpf_evicted 0 # number of hwpf removed due to no buffer left +system.iocache.prefetcher.num_hwpf_identified 0 # number of hwpf identified +system.iocache.prefetcher.num_hwpf_issued 0 # number of hwpf issued +system.iocache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated +system.iocache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page +system.iocache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time +system.iocache.replacements 41694 # number of replacements +system.iocache.sampled_refs 41710 # 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 0.551457 # Cycle average of tags in use +system.iocache.total_refs 0 # Total number of references to valid blocks. +system.iocache.warmup_cycle 1746599945000 # Cycle when the warmup percentage was hit. +system.iocache.writebacks 41520 # number of writebacks +system.l2c.ReadExReq_accesses 298324 # number of ReadExReq accesses(hits+misses) +system.l2c.ReadExReq_avg_miss_latency 12003.110712 # average ReadExReq miss latency +system.l2c.ReadExReq_avg_mshr_miss_latency 11003.110712 # average ReadExReq mshr miss latency +system.l2c.ReadExReq_miss_latency 3580816000 # number of ReadExReq miss cycles system.l2c.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses -system.l2c.ReadExReq_misses 297979 # number of ReadExReq misses -system.l2c.ReadExReq_mshr_miss_latency 3278010000 # number of ReadExReq MSHR miss cycles +system.l2c.ReadExReq_misses 298324 # number of ReadExReq misses +system.l2c.ReadExReq_mshr_miss_latency 3282492000 # number of ReadExReq MSHR miss cycles system.l2c.ReadExReq_mshr_miss_rate 1 # mshr miss rate for ReadExReq accesses -system.l2c.ReadExReq_mshr_misses 297979 # number of ReadExReq MSHR misses -system.l2c.ReadReq_accesses 2726406 # number of ReadReq accesses(hits+misses) -system.l2c.ReadReq_avg_miss_latency 12000.355770 # average ReadReq miss latency -system.l2c.ReadReq_avg_mshr_miss_latency 11000.235046 # average ReadReq mshr miss latency +system.l2c.ReadExReq_mshr_misses 298324 # number of ReadExReq MSHR misses +system.l2c.ReadReq_accesses 2723731 # number of ReadReq accesses(hits+misses) +system.l2c.ReadReq_avg_miss_latency 12011.836900 # average ReadReq miss latency +system.l2c.ReadReq_avg_mshr_miss_latency 11011.716218 # average ReadReq mshr miss latency system.l2c.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.l2c.ReadReq_hits 1633004 # number of ReadReq hits -system.l2c.ReadReq_miss_latency 13121213000 # number of ReadReq miss cycles -system.l2c.ReadReq_miss_rate 0.401042 # miss rate for ReadReq accesses -system.l2c.ReadReq_misses 1093402 # number of ReadReq misses +system.l2c.ReadReq_hits 1629948 # number of ReadReq hits +system.l2c.ReadReq_miss_latency 13138343000 # number of ReadReq miss cycles +system.l2c.ReadReq_miss_rate 0.401575 # miss rate for ReadReq accesses +system.l2c.ReadReq_misses 1093783 # number of ReadReq misses system.l2c.ReadReq_mshr_hits 12 # number of ReadReq MSHR hits -system.l2c.ReadReq_mshr_miss_latency 12027679000 # number of ReadReq MSHR miss cycles -system.l2c.ReadReq_mshr_miss_rate 0.401042 # mshr miss rate for ReadReq accesses -system.l2c.ReadReq_mshr_misses 1093402 # number of ReadReq MSHR misses -system.l2c.ReadReq_mshr_uncacheable_latency 779744500 # number of ReadReq MSHR uncacheable cycles -system.l2c.UpgradeReq_accesses 125211 # number of UpgradeReq accesses(hits+misses) -system.l2c.UpgradeReq_avg_miss_latency 11388.943463 # average UpgradeReq miss latency -system.l2c.UpgradeReq_avg_mshr_miss_latency 11003.410244 # average UpgradeReq mshr miss latency -system.l2c.UpgradeReq_miss_latency 1426021000 # number of UpgradeReq miss cycles +system.l2c.ReadReq_mshr_miss_latency 12044428000 # number of ReadReq MSHR miss cycles +system.l2c.ReadReq_mshr_miss_rate 0.401575 # mshr miss rate for ReadReq accesses +system.l2c.ReadReq_mshr_misses 1093783 # number of ReadReq MSHR misses +system.l2c.ReadReq_mshr_uncacheable_latency 779851500 # number of ReadReq MSHR uncacheable cycles +system.l2c.UpgradeReq_accesses 125534 # number of UpgradeReq accesses(hits+misses) +system.l2c.UpgradeReq_avg_miss_latency 11396.557905 # average UpgradeReq miss latency +system.l2c.UpgradeReq_avg_mshr_miss_latency 11005.795243 # average UpgradeReq mshr miss latency +system.l2c.UpgradeReq_miss_latency 1430655500 # number of UpgradeReq miss cycles system.l2c.UpgradeReq_miss_rate 1 # miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_misses 125211 # number of UpgradeReq misses -system.l2c.UpgradeReq_mshr_miss_latency 1377748000 # number of UpgradeReq MSHR miss cycles +system.l2c.UpgradeReq_misses 125534 # number of UpgradeReq misses +system.l2c.UpgradeReq_mshr_miss_latency 1381601500 # number of UpgradeReq MSHR miss cycles system.l2c.UpgradeReq_mshr_miss_rate 1 # mshr miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_mshr_misses 125211 # number of UpgradeReq MSHR misses +system.l2c.UpgradeReq_mshr_misses 125534 # number of UpgradeReq MSHR misses system.l2c.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.l2c.WriteReq_mshr_uncacheable_latency 1551434500 # number of WriteReq MSHR uncacheable cycles -system.l2c.Writeback_accesses 416193 # number of Writeback accesses(hits+misses) +system.l2c.WriteReq_mshr_uncacheable_latency 1550658000 # number of WriteReq MSHR uncacheable cycles +system.l2c.Writeback_accesses 416899 # number of Writeback accesses(hits+misses) system.l2c.Writeback_miss_rate 1 # miss rate for Writeback accesses -system.l2c.Writeback_misses 416193 # number of Writeback misses +system.l2c.Writeback_misses 416899 # number of Writeback misses system.l2c.Writeback_mshr_miss_rate 1 # mshr miss rate for Writeback accesses -system.l2c.Writeback_mshr_misses 416193 # number of Writeback MSHR misses +system.l2c.Writeback_mshr_misses 416899 # number of Writeback MSHR misses system.l2c.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked system.l2c.avg_blocked_cycles_no_targets # average number of cycles each access was blocked -system.l2c.avg_refs 1.713697 # Average number of references to valid blocks. +system.l2c.avg_refs 1.716036 # 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 3024385 # number of demand (read+write) accesses -system.l2c.demand_avg_miss_latency 12000.452788 # average overall miss latency -system.l2c.demand_avg_mshr_miss_latency 11000.357918 # average overall mshr miss latency -system.l2c.demand_hits 1633004 # number of demand (read+write) hits -system.l2c.demand_miss_latency 16697202000 # number of demand (read+write) miss cycles -system.l2c.demand_miss_rate 0.460054 # miss rate for demand accesses -system.l2c.demand_misses 1391381 # number of demand (read+write) misses +system.l2c.demand_accesses 3022055 # number of demand (read+write) accesses +system.l2c.demand_avg_miss_latency 12009.966906 # average overall miss latency +system.l2c.demand_avg_mshr_miss_latency 11009.872086 # average overall mshr miss latency +system.l2c.demand_hits 1629948 # number of demand (read+write) hits +system.l2c.demand_miss_latency 16719159000 # number of demand (read+write) miss cycles +system.l2c.demand_miss_rate 0.460649 # miss rate for demand accesses +system.l2c.demand_misses 1392107 # number of demand (read+write) misses system.l2c.demand_mshr_hits 12 # number of demand (read+write) MSHR hits -system.l2c.demand_mshr_miss_latency 15305689000 # number of demand (read+write) MSHR miss cycles -system.l2c.demand_mshr_miss_rate 0.460054 # mshr miss rate for demand accesses -system.l2c.demand_mshr_misses 1391381 # number of demand (read+write) MSHR misses +system.l2c.demand_mshr_miss_latency 15326920000 # number of demand (read+write) MSHR miss cycles +system.l2c.demand_mshr_miss_rate 0.460649 # mshr miss rate for demand accesses +system.l2c.demand_mshr_misses 1392107 # 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 3024385 # number of overall (read+write) accesses -system.l2c.overall_avg_miss_latency 12000.452788 # average overall miss latency -system.l2c.overall_avg_mshr_miss_latency 11000.357918 # average overall mshr miss latency +system.l2c.overall_accesses 3022055 # number of overall (read+write) accesses +system.l2c.overall_avg_miss_latency 12009.966906 # average overall miss latency +system.l2c.overall_avg_mshr_miss_latency 11009.872086 # average overall mshr miss latency system.l2c.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.l2c.overall_hits 1633004 # number of overall hits -system.l2c.overall_miss_latency 16697202000 # number of overall miss cycles -system.l2c.overall_miss_rate 0.460054 # miss rate for overall accesses -system.l2c.overall_misses 1391381 # number of overall misses +system.l2c.overall_hits 1629948 # number of overall hits +system.l2c.overall_miss_latency 16719159000 # number of overall miss cycles +system.l2c.overall_miss_rate 0.460649 # miss rate for overall accesses +system.l2c.overall_misses 1392107 # number of overall misses system.l2c.overall_mshr_hits 12 # number of overall MSHR hits -system.l2c.overall_mshr_miss_latency 15305689000 # number of overall MSHR miss cycles -system.l2c.overall_mshr_miss_rate 0.460054 # mshr miss rate for overall accesses -system.l2c.overall_mshr_misses 1391381 # number of overall MSHR misses -system.l2c.overall_mshr_uncacheable_latency 2331179000 # number of overall MSHR uncacheable cycles +system.l2c.overall_mshr_miss_latency 15326920000 # number of overall MSHR miss cycles +system.l2c.overall_mshr_miss_rate 0.460649 # mshr miss rate for overall accesses +system.l2c.overall_mshr_misses 1392107 # number of overall MSHR misses +system.l2c.overall_mshr_uncacheable_latency 2330509500 # 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 @@ -626,11 +696,11 @@ 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 947502 # number of replacements -system.l2c.sampled_refs 965785 # Sample count of references to valid blocks. +system.l2c.replacements 947805 # number of replacements +system.l2c.sampled_refs 965383 # 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 16369.951624 # Cycle average of tags in use -system.l2c.total_refs 1655063 # Total number of references to valid blocks. +system.l2c.tagsinuse 16367.051710 # Cycle average of tags in use +system.l2c.total_refs 1656632 # Total number of references to valid blocks. system.l2c.warmup_cycle 5421925000 # Cycle when the warmup percentage was hit. system.l2c.writebacks 0 # number of writebacks system.tsunami.ethernet.coalescedRxDesc # average number of RxDesc's coalesced into each post diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stderr b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stderr index e6ad9b469..50b440aad 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stderr +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stderr @@ -1,5 +1,5 @@ -Listening for system connection on port 3457 +Listening for system connection on port 3456 +0: system.remote_gdb.listener: listening for remote gdb on port 7000 0: system.remote_gdb.listener: listening for remote gdb on port 7001 -0: system.remote_gdb.listener: listening for remote gdb on port 7002 warn: Entering event queue @ 0. Starting simulation... warn: 427086000: Trying to launch CPU number 1! diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stdout b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stdout index 99539f3ea..1e296342a 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stdout +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing-dual/stdout @@ -5,9 +5,9 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Aug 3 2007 04:02:11 -M5 started Fri Aug 3 04:25:10 2007 -M5 executing on zizzer.eecs.umich.edu +M5 compiled Aug 10 2007 16:03:34 +M5 started Fri Aug 10 16:05:34 2007 +M5 executing on zeep command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-timing-dual tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-timing-dual Global frequency set at 1000000000000 ticks per second -Exiting @ tick 1951367346000 because m5_exit instruction encountered +Exiting @ tick 1950343222000 because m5_exit instruction encountered diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/config.ini b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/config.ini index 1992f65a2..24a7dfec3 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/config.ini +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/config.ini @@ -5,7 +5,7 @@ dummy=0 [system] type=LinuxAlphaSystem -children=bridge cpu disk0 disk2 intrctrl iobus l2c membus physmem sim_console simple_disk toL2Bus tsunami +children=bridge cpu disk0 disk2 intrctrl iobus iocache l2c membus physmem sim_console simple_disk toL2Bus tsunami boot_cpu_frequency=500 boot_osflags=root=/dev/hda1 console=ttyS0 console=/dist/m5/system/binaries/console @@ -22,8 +22,8 @@ system_type=34 [system.bridge] type=Bridge delay=50000 -fix_partial_write_a=false -fix_partial_write_b=true +filter_ranges_a=0:18446744073709551615 +filter_ranges_b=0:8589934591 nack_delay=4000 req_size_a=16 req_size_b=16 @@ -63,10 +63,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=4 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -101,10 +103,12 @@ type=BaseCache addr_range=0:18446744073709551615 assoc=1 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=1000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=4 prefetch_access=false prefetch_cache_check_push=true @@ -187,17 +191,55 @@ clock=1000 responder_set=true width=64 default=system.tsunami.pciconfig.pio -port=system.bridge.side_a system.tsunami.cchip.pio system.tsunami.pchip.pio system.tsunami.fake_sm_chip.pio system.tsunami.fake_uart1.pio system.tsunami.fake_uart2.pio system.tsunami.fake_uart3.pio system.tsunami.fake_uart4.pio system.tsunami.fake_ppc.pio system.tsunami.fake_OROM.pio system.tsunami.fake_pnp_addr.pio system.tsunami.fake_pnp_write.pio system.tsunami.fake_pnp_read0.pio system.tsunami.fake_pnp_read1.pio system.tsunami.fake_pnp_read2.pio system.tsunami.fake_pnp_read3.pio system.tsunami.fake_pnp_read4.pio system.tsunami.fake_pnp_read5.pio system.tsunami.fake_pnp_read6.pio system.tsunami.fake_pnp_read7.pio system.tsunami.fake_ata0.pio system.tsunami.fake_ata1.pio system.tsunami.fb.pio system.tsunami.io.pio system.tsunami.uart.pio system.tsunami.console.pio system.tsunami.ide.pio system.tsunami.ethernet.pio system.tsunami.ethernet.config system.tsunami.ethernet.dma system.tsunami.ide.config system.tsunami.ide.dma +port=system.bridge.side_a system.tsunami.cchip.pio system.tsunami.pchip.pio system.tsunami.fake_sm_chip.pio system.tsunami.fake_uart1.pio system.tsunami.fake_uart2.pio system.tsunami.fake_uart3.pio system.tsunami.fake_uart4.pio system.tsunami.fake_ppc.pio system.tsunami.fake_OROM.pio system.tsunami.fake_pnp_addr.pio system.tsunami.fake_pnp_write.pio system.tsunami.fake_pnp_read0.pio system.tsunami.fake_pnp_read1.pio system.tsunami.fake_pnp_read2.pio system.tsunami.fake_pnp_read3.pio system.tsunami.fake_pnp_read4.pio system.tsunami.fake_pnp_read5.pio system.tsunami.fake_pnp_read6.pio system.tsunami.fake_pnp_read7.pio system.tsunami.fake_ata0.pio system.tsunami.fake_ata1.pio system.tsunami.fb.pio system.tsunami.io.pio system.tsunami.uart.pio system.tsunami.console.pio system.tsunami.ide.pio system.tsunami.ethernet.pio system.iocache.cpu_side system.tsunami.ethernet.config system.tsunami.ethernet.dma system.tsunami.ide.config system.tsunami.ide.dma + +[system.iocache] +type=BaseCache +addr_range=0:18446744073709551615 +assoc=8 +block_size=64 +cpu_side_filter_ranges=549755813888:18446744073709551615 +hash_delay=1 +latency=50000 +lifo=false +max_miss_count=0 +mem_side_filter_ranges=0:18446744073709551615 +mshrs=20 +prefetch_access=false +prefetch_cache_check_push=true +prefetch_data_accesses_only=false +prefetch_degree=1 +prefetch_latency=500000 +prefetch_miss=false +prefetch_past_page=false +prefetch_policy=none +prefetch_serial_squash=false +prefetch_use_cpu_id=true +prefetcher_size=100 +prioritizeRequests=false +repl=Null +size=1024 +split=false +split_size=0 +subblock_size=0 +tgts_per_mshr=12 +trace_addr=0 +two_queue=false +write_buffers=8 +cpu_side=system.iobus.port[28] +mem_side=system.membus.port[2] [system.l2c] type=BaseCache addr_range=0:18446744073709551615 assoc=8 block_size=64 +cpu_side_filter_ranges= hash_delay=1 latency=10000 lifo=false max_miss_count=0 +mem_side_filter_ranges= mshrs=92 prefetch_access=false prefetch_cache_check_push=true @@ -221,7 +263,7 @@ trace_addr=0 two_queue=false write_buffers=8 cpu_side=system.toL2Bus.port[0] -mem_side=system.membus.port[2] +mem_side=system.membus.port[3] [system.membus] type=Bus @@ -232,7 +274,7 @@ clock=1000 responder_set=false width=64 default=system.membus.responder.pio -port=system.bridge.side_b system.physmem.port[0] system.l2c.mem_side +port=system.bridge.side_b system.physmem.port[0] system.iocache.mem_side system.l2c.mem_side [system.membus.responder] type=IsaFake @@ -366,8 +408,8 @@ system=system tx_delay=1000000 tx_fifo_size=524288 tx_thread=false -config=system.iobus.port[28] -dma=system.iobus.port[29] +config=system.iobus.port[29] +dma=system.iobus.port[30] pio=system.iobus.port[27] [system.tsunami.ethernet.configdata] @@ -732,8 +774,8 @@ pci_func=0 pio_latency=1000 platform=system.tsunami system=system -config=system.iobus.port[30] -dma=system.iobus.port[31] +config=system.iobus.port[31] +dma=system.iobus.port[32] pio=system.iobus.port[26] [system.tsunami.ide.configdata] diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/console.system.sim_console b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/console.system.sim_console index 5461cc4ab..7930e9e46 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/console.system.sim_console +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/console.system.sim_console @@ -72,7 +72,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 hdb: M5 IDE Disk, ATA DISK drive ide0 at 0x8410-0x8417,0x8422 on irq 31 hda: max request size: 128KiB - hda: 511056 sectors (261 MB), CHS=507/16/63, UDMA(33) + hda: 101808 sectors (52 MB), CHS=101/16/63, UDMA(33) hda: cache flushes not supported hda: hda1 hdb: max request size: 128KiB @@ -99,6 +99,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 All bugs added by David S. Miller VFS: Mounted root (ext2 filesystem) readonly. Freeing unused kernel memory: 224k freed - init started: BusyBox v1.1.0 (2006.08.17-02:54+0000) multi-call binary -mounting filesystems... -loading script... + init started: BusyBox v1.1.0 (2007.03.04-01:07+0000) multi-call binary +mounting filesystems... +EXT2-fs warning: checktime reached, running e2fsck is recommended + loading script... diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/m5stats.txt b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/m5stats.txt index 958246a30..bf5eb8731 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/m5stats.txt +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/m5stats.txt @@ -1,92 +1,92 @@ ---------- Begin Simulation Statistics ---------- -host_inst_rate 631972 # Simulator instruction rate (inst/s) -host_mem_usage 219140 # Number of bytes of host memory used -host_seconds 95.00 # Real time elapsed on the host -host_tick_rate 20109299069 # Simulator tick rate (ticks/s) +host_inst_rate 1028480 # Simulator instruction rate (inst/s) +host_mem_usage 285368 # Number of bytes of host memory used +host_seconds 58.37 # Real time elapsed on the host +host_tick_rate 32711130426 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks -sim_insts 60034774 # Number of instructions simulated -sim_seconds 1.910310 # Number of seconds simulated -sim_ticks 1910309711000 # Number of ticks simulated -system.cpu.dcache.LoadLockedReq_accesses 200211 # number of LoadLockedReq accesses(hits+misses) -system.cpu.dcache.LoadLockedReq_avg_miss_latency 13960.656682 # average LoadLockedReq miss latency -system.cpu.dcache.LoadLockedReq_avg_mshr_miss_latency 12960.656682 # average LoadLockedReq mshr miss latency -system.cpu.dcache.LoadLockedReq_hits 182851 # number of LoadLockedReq hits -system.cpu.dcache.LoadLockedReq_miss_latency 242357000 # number of LoadLockedReq miss cycles -system.cpu.dcache.LoadLockedReq_miss_rate 0.086709 # miss rate for LoadLockedReq accesses -system.cpu.dcache.LoadLockedReq_misses 17360 # number of LoadLockedReq misses -system.cpu.dcache.LoadLockedReq_mshr_miss_latency 224997000 # number of LoadLockedReq MSHR miss cycles -system.cpu.dcache.LoadLockedReq_mshr_miss_rate 0.086709 # mshr miss rate for LoadLockedReq accesses -system.cpu.dcache.LoadLockedReq_mshr_misses 17360 # number of LoadLockedReq MSHR misses -system.cpu.dcache.ReadReq_accesses 9525872 # number of ReadReq accesses(hits+misses) -system.cpu.dcache.ReadReq_avg_miss_latency 13240.454388 # average ReadReq miss latency -system.cpu.dcache.ReadReq_avg_mshr_miss_latency 12240.427719 # average ReadReq mshr miss latency +sim_insts 60031203 # Number of instructions simulated +sim_seconds 1.909320 # Number of seconds simulated +sim_ticks 1909320028000 # Number of ticks simulated +system.cpu.dcache.LoadLockedReq_accesses 200196 # number of LoadLockedReq accesses(hits+misses) +system.cpu.dcache.LoadLockedReq_avg_miss_latency 13961.565057 # average LoadLockedReq miss latency +system.cpu.dcache.LoadLockedReq_avg_mshr_miss_latency 12961.565057 # average LoadLockedReq mshr miss latency +system.cpu.dcache.LoadLockedReq_hits 182842 # number of LoadLockedReq hits +system.cpu.dcache.LoadLockedReq_miss_latency 242289000 # number of LoadLockedReq miss cycles +system.cpu.dcache.LoadLockedReq_miss_rate 0.086685 # miss rate for LoadLockedReq accesses +system.cpu.dcache.LoadLockedReq_misses 17354 # number of LoadLockedReq misses +system.cpu.dcache.LoadLockedReq_mshr_miss_latency 224935000 # number of LoadLockedReq MSHR miss cycles +system.cpu.dcache.LoadLockedReq_mshr_miss_rate 0.086685 # mshr miss rate for LoadLockedReq accesses +system.cpu.dcache.LoadLockedReq_mshr_misses 17354 # number of LoadLockedReq MSHR misses +system.cpu.dcache.ReadReq_accesses 9525051 # number of ReadReq accesses(hits+misses) +system.cpu.dcache.ReadReq_avg_miss_latency 13247.769109 # average ReadReq miss latency +system.cpu.dcache.ReadReq_avg_mshr_miss_latency 12247.742435 # average ReadReq mshr miss latency system.cpu.dcache.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.cpu.dcache.ReadReq_hits 7801048 # number of ReadReq hits -system.cpu.dcache.ReadReq_miss_latency 22837453500 # number of ReadReq miss cycles -system.cpu.dcache.ReadReq_miss_rate 0.181067 # miss rate for ReadReq accesses -system.cpu.dcache.ReadReq_misses 1724824 # number of ReadReq misses -system.cpu.dcache.ReadReq_mshr_miss_latency 21112583500 # number of ReadReq MSHR miss cycles -system.cpu.dcache.ReadReq_mshr_miss_rate 0.181067 # mshr miss rate for ReadReq accesses -system.cpu.dcache.ReadReq_mshr_misses 1724824 # number of ReadReq MSHR misses +system.cpu.dcache.ReadReq_hits 7800516 # number of ReadReq hits +system.cpu.dcache.ReadReq_miss_latency 22846241500 # number of ReadReq miss cycles +system.cpu.dcache.ReadReq_miss_rate 0.181053 # miss rate for ReadReq accesses +system.cpu.dcache.ReadReq_misses 1724535 # number of ReadReq misses +system.cpu.dcache.ReadReq_mshr_miss_latency 21121660500 # number of ReadReq MSHR miss cycles +system.cpu.dcache.ReadReq_mshr_miss_rate 0.181053 # mshr miss rate for ReadReq accesses +system.cpu.dcache.ReadReq_mshr_misses 1724535 # number of ReadReq MSHR misses system.cpu.dcache.ReadReq_mshr_uncacheable_latency 830826000 # number of ReadReq MSHR uncacheable cycles -system.cpu.dcache.StoreCondReq_accesses 199189 # number of StoreCondReq accesses(hits+misses) -system.cpu.dcache.StoreCondReq_avg_miss_latency 14000.798456 # average StoreCondReq miss latency -system.cpu.dcache.StoreCondReq_avg_mshr_miss_latency 13000.798456 # average StoreCondReq mshr miss latency +system.cpu.dcache.StoreCondReq_accesses 199174 # number of StoreCondReq accesses(hits+misses) +system.cpu.dcache.StoreCondReq_avg_miss_latency 14002.263422 # average StoreCondReq miss latency +system.cpu.dcache.StoreCondReq_avg_mshr_miss_latency 13002.263422 # average StoreCondReq mshr miss latency system.cpu.dcache.StoreCondReq_hits 169131 # number of StoreCondReq hits -system.cpu.dcache.StoreCondReq_miss_latency 420836000 # number of StoreCondReq miss cycles -system.cpu.dcache.StoreCondReq_miss_rate 0.150902 # miss rate for StoreCondReq accesses -system.cpu.dcache.StoreCondReq_misses 30058 # number of StoreCondReq misses -system.cpu.dcache.StoreCondReq_mshr_miss_latency 390778000 # number of StoreCondReq MSHR miss cycles -system.cpu.dcache.StoreCondReq_mshr_miss_rate 0.150902 # mshr miss rate for StoreCondReq accesses -system.cpu.dcache.StoreCondReq_mshr_misses 30058 # number of StoreCondReq MSHR misses -system.cpu.dcache.WriteReq_accesses 6151132 # number of WriteReq accesses(hits+misses) -system.cpu.dcache.WriteReq_avg_miss_latency 14000.947966 # average WriteReq miss latency -system.cpu.dcache.WriteReq_avg_mshr_miss_latency 13000.947966 # average WriteReq mshr miss latency +system.cpu.dcache.StoreCondReq_miss_latency 420670000 # number of StoreCondReq miss cycles +system.cpu.dcache.StoreCondReq_miss_rate 0.150838 # miss rate for StoreCondReq accesses +system.cpu.dcache.StoreCondReq_misses 30043 # number of StoreCondReq misses +system.cpu.dcache.StoreCondReq_mshr_miss_latency 390627000 # number of StoreCondReq MSHR miss cycles +system.cpu.dcache.StoreCondReq_mshr_miss_rate 0.150838 # mshr miss rate for StoreCondReq accesses +system.cpu.dcache.StoreCondReq_mshr_misses 30043 # number of StoreCondReq MSHR misses +system.cpu.dcache.WriteReq_accesses 6150630 # number of WriteReq accesses(hits+misses) +system.cpu.dcache.WriteReq_avg_miss_latency 14004.147760 # average WriteReq miss latency +system.cpu.dcache.WriteReq_avg_mshr_miss_latency 13004.147760 # average WriteReq mshr miss latency system.cpu.dcache.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.cpu.dcache.WriteReq_hits 5750801 # number of WriteReq hits -system.cpu.dcache.WriteReq_miss_latency 5605013500 # number of WriteReq miss cycles -system.cpu.dcache.WriteReq_miss_rate 0.065082 # miss rate for WriteReq accesses -system.cpu.dcache.WriteReq_misses 400331 # number of WriteReq misses -system.cpu.dcache.WriteReq_mshr_miss_latency 5204682500 # number of WriteReq MSHR miss cycles -system.cpu.dcache.WriteReq_mshr_miss_rate 0.065082 # mshr miss rate for WriteReq accesses -system.cpu.dcache.WriteReq_mshr_misses 400331 # number of WriteReq MSHR misses -system.cpu.dcache.WriteReq_mshr_uncacheable_latency 1164414500 # number of WriteReq MSHR uncacheable cycles +system.cpu.dcache.WriteReq_hits 5750414 # number of WriteReq hits +system.cpu.dcache.WriteReq_miss_latency 5604684000 # number of WriteReq miss cycles +system.cpu.dcache.WriteReq_miss_rate 0.065069 # miss rate for WriteReq accesses +system.cpu.dcache.WriteReq_misses 400216 # number of WriteReq misses +system.cpu.dcache.WriteReq_mshr_miss_latency 5204468000 # number of WriteReq MSHR miss cycles +system.cpu.dcache.WriteReq_mshr_miss_rate 0.065069 # mshr miss rate for WriteReq accesses +system.cpu.dcache.WriteReq_mshr_misses 400216 # number of WriteReq MSHR misses +system.cpu.dcache.WriteReq_mshr_uncacheable_latency 1164291500 # number of WriteReq MSHR uncacheable cycles system.cpu.dcache.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked system.cpu.dcache.avg_blocked_cycles_no_targets # average number of cycles each access was blocked -system.cpu.dcache.avg_refs 6.854770 # Average number of references to valid blocks. +system.cpu.dcache.avg_refs 6.855501 # 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 15677004 # number of demand (read+write) accesses -system.cpu.dcache.demand_avg_miss_latency 13383.714129 # average overall miss latency -system.cpu.dcache.demand_avg_mshr_miss_latency 12383.692484 # average overall mshr miss latency -system.cpu.dcache.demand_hits 13551849 # number of demand (read+write) hits -system.cpu.dcache.demand_miss_latency 28442467000 # number of demand (read+write) miss cycles -system.cpu.dcache.demand_miss_rate 0.135559 # miss rate for demand accesses -system.cpu.dcache.demand_misses 2125155 # number of demand (read+write) misses +system.cpu.dcache.demand_accesses 15675681 # number of demand (read+write) accesses +system.cpu.dcache.demand_avg_miss_latency 13390.239845 # average overall miss latency +system.cpu.dcache.demand_avg_mshr_miss_latency 12390.218195 # average overall mshr miss latency +system.cpu.dcache.demand_hits 13550930 # number of demand (read+write) hits +system.cpu.dcache.demand_miss_latency 28450925500 # number of demand (read+write) miss cycles +system.cpu.dcache.demand_miss_rate 0.135544 # miss rate for demand accesses +system.cpu.dcache.demand_misses 2124751 # 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 26317266000 # number of demand (read+write) MSHR miss cycles -system.cpu.dcache.demand_mshr_miss_rate 0.135559 # mshr miss rate for demand accesses -system.cpu.dcache.demand_mshr_misses 2125155 # number of demand (read+write) MSHR misses +system.cpu.dcache.demand_mshr_miss_latency 26326128500 # number of demand (read+write) MSHR miss cycles +system.cpu.dcache.demand_mshr_miss_rate 0.135544 # mshr miss rate for demand accesses +system.cpu.dcache.demand_mshr_misses 2124751 # 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 15677004 # number of overall (read+write) accesses -system.cpu.dcache.overall_avg_miss_latency 13383.714129 # average overall miss latency -system.cpu.dcache.overall_avg_mshr_miss_latency 12383.692484 # average overall mshr miss latency +system.cpu.dcache.overall_accesses 15675681 # number of overall (read+write) accesses +system.cpu.dcache.overall_avg_miss_latency 13390.239845 # average overall miss latency +system.cpu.dcache.overall_avg_mshr_miss_latency 12390.218195 # average overall mshr miss latency system.cpu.dcache.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.cpu.dcache.overall_hits 13551849 # number of overall hits -system.cpu.dcache.overall_miss_latency 28442467000 # number of overall miss cycles -system.cpu.dcache.overall_miss_rate 0.135559 # miss rate for overall accesses -system.cpu.dcache.overall_misses 2125155 # number of overall misses +system.cpu.dcache.overall_hits 13550930 # number of overall hits +system.cpu.dcache.overall_miss_latency 28450925500 # number of overall miss cycles +system.cpu.dcache.overall_miss_rate 0.135544 # miss rate for overall accesses +system.cpu.dcache.overall_misses 2124751 # number of overall misses system.cpu.dcache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu.dcache.overall_mshr_miss_latency 26317266000 # number of overall MSHR miss cycles -system.cpu.dcache.overall_mshr_miss_rate 0.135559 # mshr miss rate for overall accesses -system.cpu.dcache.overall_mshr_misses 2125155 # number of overall MSHR misses -system.cpu.dcache.overall_mshr_uncacheable_latency 1995240500 # number of overall MSHR uncacheable cycles +system.cpu.dcache.overall_mshr_miss_latency 26326128500 # number of overall MSHR miss cycles +system.cpu.dcache.overall_mshr_miss_rate 0.135544 # mshr miss rate for overall accesses +system.cpu.dcache.overall_mshr_misses 2124751 # number of overall MSHR misses +system.cpu.dcache.overall_mshr_uncacheable_latency 1995117500 # 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 2046194 # number of replacements -system.cpu.dcache.sampled_refs 2046706 # Sample count of references to valid blocks. +system.cpu.dcache.replacements 2045831 # number of replacements +system.cpu.dcache.sampled_refs 2046343 # 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 511.987834 # Cycle average of tags in use -system.cpu.dcache.total_refs 14029698 # Total number of references to valid blocks. +system.cpu.dcache.tagsinuse 511.987794 # Cycle average of tags in use +system.cpu.dcache.total_refs 14028706 # Total number of references to valid blocks. system.cpu.dcache.warmup_cycle 58297000 # Cycle when the warmup percentage was hit. -system.cpu.dcache.writebacks 429991 # number of writebacks +system.cpu.dcache.writebacks 429859 # number of writebacks system.cpu.dtb.accesses 1020787 # DTB accesses system.cpu.dtb.acv 367 # DTB access violations -system.cpu.dtb.hits 16056951 # DTB hits +system.cpu.dtb.hits 16055629 # 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 9706492 # DTB read hits +system.cpu.dtb.read_hits 9705676 # 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 6350459 # DTB write hits +system.cpu.dtb.write_hits 6349953 # DTB write hits system.cpu.dtb.write_misses 1142 # DTB write misses -system.cpu.icache.ReadReq_accesses 60034775 # number of ReadReq accesses(hits+misses) -system.cpu.icache.ReadReq_avg_miss_latency 12033.060657 # average ReadReq miss latency -system.cpu.icache.ReadReq_avg_mshr_miss_latency 11032.326155 # average ReadReq mshr miss latency -system.cpu.icache.ReadReq_hits 59106935 # number of ReadReq hits -system.cpu.icache.ReadReq_miss_latency 11164755000 # number of ReadReq miss cycles -system.cpu.icache.ReadReq_miss_rate 0.015455 # miss rate for ReadReq accesses -system.cpu.icache.ReadReq_misses 927840 # number of ReadReq misses -system.cpu.icache.ReadReq_mshr_miss_latency 10236233500 # number of ReadReq MSHR miss cycles -system.cpu.icache.ReadReq_mshr_miss_rate 0.015455 # mshr miss rate for ReadReq accesses -system.cpu.icache.ReadReq_mshr_misses 927840 # number of ReadReq MSHR misses +system.cpu.icache.ReadReq_accesses 60031204 # number of ReadReq accesses(hits+misses) +system.cpu.icache.ReadReq_avg_miss_latency 12033.101057 # average ReadReq miss latency +system.cpu.icache.ReadReq_avg_mshr_miss_latency 11032.368005 # average ReadReq mshr miss latency +system.cpu.icache.ReadReq_hits 59103575 # number of ReadReq hits +system.cpu.icache.ReadReq_miss_latency 11162253500 # number of ReadReq miss cycles +system.cpu.icache.ReadReq_miss_rate 0.015452 # miss rate for ReadReq accesses +system.cpu.icache.ReadReq_misses 927629 # number of ReadReq misses +system.cpu.icache.ReadReq_mshr_miss_latency 10233944500 # number of ReadReq MSHR miss cycles +system.cpu.icache.ReadReq_mshr_miss_rate 0.015452 # mshr miss rate for ReadReq accesses +system.cpu.icache.ReadReq_mshr_misses 927629 # number of ReadReq MSHR misses system.cpu.icache.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked system.cpu.icache.avg_blocked_cycles_no_targets # average number of cycles each access was blocked -system.cpu.icache.avg_refs 63.714789 # Average number of references to valid blocks. +system.cpu.icache.avg_refs 63.725661 # 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 60034775 # number of demand (read+write) accesses -system.cpu.icache.demand_avg_miss_latency 12033.060657 # average overall miss latency -system.cpu.icache.demand_avg_mshr_miss_latency 11032.326155 # average overall mshr miss latency -system.cpu.icache.demand_hits 59106935 # number of demand (read+write) hits -system.cpu.icache.demand_miss_latency 11164755000 # number of demand (read+write) miss cycles -system.cpu.icache.demand_miss_rate 0.015455 # miss rate for demand accesses -system.cpu.icache.demand_misses 927840 # number of demand (read+write) misses +system.cpu.icache.demand_accesses 60031204 # number of demand (read+write) accesses +system.cpu.icache.demand_avg_miss_latency 12033.101057 # average overall miss latency +system.cpu.icache.demand_avg_mshr_miss_latency 11032.368005 # average overall mshr miss latency +system.cpu.icache.demand_hits 59103575 # number of demand (read+write) hits +system.cpu.icache.demand_miss_latency 11162253500 # number of demand (read+write) miss cycles +system.cpu.icache.demand_miss_rate 0.015452 # miss rate for demand accesses +system.cpu.icache.demand_misses 927629 # 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 10236233500 # number of demand (read+write) MSHR miss cycles -system.cpu.icache.demand_mshr_miss_rate 0.015455 # mshr miss rate for demand accesses -system.cpu.icache.demand_mshr_misses 927840 # number of demand (read+write) MSHR misses +system.cpu.icache.demand_mshr_miss_latency 10233944500 # number of demand (read+write) MSHR miss cycles +system.cpu.icache.demand_mshr_miss_rate 0.015452 # mshr miss rate for demand accesses +system.cpu.icache.demand_mshr_misses 927629 # 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 60034775 # number of overall (read+write) accesses -system.cpu.icache.overall_avg_miss_latency 12033.060657 # average overall miss latency -system.cpu.icache.overall_avg_mshr_miss_latency 11032.326155 # average overall mshr miss latency +system.cpu.icache.overall_accesses 60031204 # number of overall (read+write) accesses +system.cpu.icache.overall_avg_miss_latency 12033.101057 # average overall miss latency +system.cpu.icache.overall_avg_mshr_miss_latency 11032.368005 # average overall mshr miss latency system.cpu.icache.overall_avg_mshr_uncacheable_latency # average overall mshr uncacheable latency -system.cpu.icache.overall_hits 59106935 # number of overall hits -system.cpu.icache.overall_miss_latency 11164755000 # number of overall miss cycles -system.cpu.icache.overall_miss_rate 0.015455 # miss rate for overall accesses -system.cpu.icache.overall_misses 927840 # number of overall misses +system.cpu.icache.overall_hits 59103575 # number of overall hits +system.cpu.icache.overall_miss_latency 11162253500 # number of overall miss cycles +system.cpu.icache.overall_miss_rate 0.015452 # miss rate for overall accesses +system.cpu.icache.overall_misses 927629 # number of overall misses system.cpu.icache.overall_mshr_hits 0 # number of overall MSHR hits -system.cpu.icache.overall_mshr_miss_latency 10236233500 # number of overall MSHR miss cycles -system.cpu.icache.overall_mshr_miss_rate 0.015455 # mshr miss rate for overall accesses -system.cpu.icache.overall_mshr_misses 927840 # number of overall MSHR misses +system.cpu.icache.overall_mshr_miss_latency 10233944500 # number of overall MSHR miss cycles +system.cpu.icache.overall_mshr_miss_rate 0.015452 # mshr miss rate for overall accesses +system.cpu.icache.overall_mshr_misses 927629 # 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 @@ -171,71 +171,71 @@ 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 927169 # number of replacements -system.cpu.icache.sampled_refs 927680 # Sample count of references to valid blocks. +system.cpu.icache.replacements 926958 # number of replacements +system.cpu.icache.sampled_refs 927469 # 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 508.749374 # Cycle average of tags in use -system.cpu.icache.total_refs 59106935 # Total number of references to valid blocks. +system.cpu.icache.tagsinuse 508.747859 # Cycle average of tags in use +system.cpu.icache.total_refs 59103575 # Total number of references to valid blocks. system.cpu.icache.warmup_cycle 35000367000 # Cycle when the warmup percentage was hit. system.cpu.icache.writebacks 0 # number of writebacks -system.cpu.idle_fraction 0.939637 # Percentage of idle cycles -system.cpu.itb.accesses 4978395 # ITB accesses +system.cpu.idle_fraction 0.939605 # Percentage of idle cycles +system.cpu.itb.accesses 4978081 # ITB accesses system.cpu.itb.acv 184 # ITB acv -system.cpu.itb.hits 4973389 # ITB hits +system.cpu.itb.hits 4973075 # ITB hits system.cpu.itb.misses 5006 # ITB misses -system.cpu.kern.callpal 192813 # number of callpals executed +system.cpu.kern.callpal 192799 # 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 system.cpu.kern.callpal_wrvptptr 1 0.00% 0.00% # number of callpals executed -system.cpu.kern.callpal_swpctx 4176 2.17% 2.17% # number of callpals executed -system.cpu.kern.callpal_tbi 54 0.03% 2.20% # number of callpals executed +system.cpu.kern.callpal_swpctx 4172 2.16% 2.17% # 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% 2.20% # number of callpals executed -system.cpu.kern.callpal_swpipl 175877 91.22% 93.42% # number of callpals executed -system.cpu.kern.callpal_rdps 6828 3.54% 96.96% # number of callpals executed +system.cpu.kern.callpal_swpipl 175869 91.22% 93.42% # number of callpals executed +system.cpu.kern.callpal_rdps 6827 3.54% 96.96% # 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 system.cpu.kern.callpal_rdusp 9 0.00% 96.97% # number of callpals executed system.cpu.kern.callpal_whami 2 0.00% 96.97% # number of callpals executed -system.cpu.kern.callpal_rti 5152 2.67% 99.64% # number of callpals executed +system.cpu.kern.callpal_rti 5151 2.67% 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 211901 # number of hwrei instructions executed -system.cpu.kern.inst.quiesce 6181 # number of quiesce instructions executed -system.cpu.kern.ipl_count 183088 # number of times we switched to this ipl -system.cpu.kern.ipl_count_0 74875 40.90% 40.90% # number of times we switched to this ipl +system.cpu.kern.inst.hwrei 211886 # number of hwrei instructions executed +system.cpu.kern.inst.quiesce 6177 # number of quiesce instructions executed +system.cpu.kern.ipl_count 183078 # number of times we switched to this ipl +system.cpu.kern.ipl_count_0 74873 40.90% 40.90% # number of times we switched to this ipl system.cpu.kern.ipl_count_21 131 0.07% 40.97% # number of times we switched to this ipl -system.cpu.kern.ipl_count_22 1927 1.05% 42.02% # number of times we switched to this ipl -system.cpu.kern.ipl_count_31 106155 57.98% 100.00% # number of times we switched to this ipl -system.cpu.kern.ipl_good 149074 # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_good_0 73508 49.31% 49.31% # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_count_22 1926 1.05% 42.02% # number of times we switched to this ipl +system.cpu.kern.ipl_count_31 106148 57.98% 100.00% # number of times we switched to this ipl +system.cpu.kern.ipl_good 149069 # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_good_0 73506 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% 49.40% # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_good_22 1927 1.29% 50.69% # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_good_31 73508 49.31% 100.00% # number of times we switched to this ipl from a different ipl -system.cpu.kern.ipl_ticks 1910308997000 # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_0 1853401678500 97.02% 97.02% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_21 78202500 0.00% 97.03% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_22 538133000 0.03% 97.05% # number of cycles we spent at this ipl -system.cpu.kern.ipl_ticks_31 56290983000 2.95% 100.00% # number of cycles we spent at this ipl -system.cpu.kern.ipl_used_0 0.981743 # fraction of swpipl calls that actually changed the ipl +system.cpu.kern.ipl_good_22 1926 1.29% 50.69% # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_good_31 73506 49.31% 100.00% # number of times we switched to this ipl from a different ipl +system.cpu.kern.ipl_ticks 1909319316000 # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_0 1852420057000 97.02% 97.02% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_21 77949500 0.00% 97.02% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_22 537776500 0.03% 97.05% # number of cycles we spent at this ipl +system.cpu.kern.ipl_ticks_31 56283533000 2.95% 100.00% # number of cycles we spent at this ipl +system.cpu.kern.ipl_used_0 0.981742 # 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 0.692459 # fraction of swpipl calls that actually changed the ipl -system.cpu.kern.mode_good_kernel 1908 -system.cpu.kern.mode_good_user 1738 -system.cpu.kern.mode_good_idle 170 -system.cpu.kern.mode_switch_kernel 5896 # number of protection mode switches -system.cpu.kern.mode_switch_user 1738 # number of protection mode switches -system.cpu.kern.mode_switch_idle 2098 # number of protection mode switches -system.cpu.kern.mode_switch_good 1.404639 # fraction of useful protection mode switches -system.cpu.kern.mode_switch_good_kernel 0.323609 # fraction of useful protection mode switches +system.cpu.kern.ipl_used_31 0.692486 # fraction of swpipl calls that actually changed the ipl +system.cpu.kern.mode_good_kernel 1907 +system.cpu.kern.mode_good_user 1739 +system.cpu.kern.mode_good_idle 168 +system.cpu.kern.mode_switch_kernel 5895 # number of protection mode switches +system.cpu.kern.mode_switch_user 1739 # number of protection mode switches +system.cpu.kern.mode_switch_idle 2094 # number of protection mode switches +system.cpu.kern.mode_switch_good 1.403724 # fraction of useful protection mode switches +system.cpu.kern.mode_switch_good_kernel 0.323494 # 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 0.081030 # fraction of useful protection mode switches -system.cpu.kern.mode_ticks_kernel 43115749000 2.26% 2.26% # number of ticks spent at the given mode -system.cpu.kern.mode_ticks_user 4716926000 0.25% 2.50% # number of ticks spent at the given mode -system.cpu.kern.mode_ticks_idle 1862476320000 97.50% 100.00% # number of ticks spent at the given mode -system.cpu.kern.swap_context 4177 # number of times the context was actually changed +system.cpu.kern.mode_switch_good_idle 0.080229 # fraction of useful protection mode switches +system.cpu.kern.mode_ticks_kernel 43141321000 2.26% 2.26% # number of ticks spent at the given mode +system.cpu.kern.mode_ticks_user 4716637000 0.25% 2.51% # number of ticks spent at the given mode +system.cpu.kern.mode_ticks_idle 1861461356000 97.49% 100.00% # number of ticks spent at the given mode +system.cpu.kern.swap_context 4173 # 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 system.cpu.kern.syscall_3 30 9.20% 11.66% # 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 0.060363 # Percentage of non-idle cycles -system.cpu.numCycles 1910309711000 # number of cpu cycles simulated -system.cpu.num_insts 60034774 # Number of instructions executed -system.cpu.num_refs 16305091 # Number of memory references +system.cpu.not_idle_fraction 0.060395 # Percentage of non-idle cycles +system.cpu.numCycles 1909320028000 # number of cpu cycles simulated +system.cpu.num_insts 60031203 # Number of instructions executed +system.cpu.num_refs 16303737 # 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). @@ -283,78 +283,148 @@ system.disk2.dma_read_txs 0 # Nu system.disk2.dma_write_bytes 8192 # Number of bytes transfered via DMA writes. system.disk2.dma_write_full_pages 1 # Number of full page size DMA writes. system.disk2.dma_write_txs 1 # Number of DMA write transactions. -system.l2c.ReadExReq_accesses 304522 # number of ReadExReq accesses(hits+misses) -system.l2c.ReadExReq_avg_miss_latency 12000.719160 # average ReadExReq miss latency -system.l2c.ReadExReq_avg_mshr_miss_latency 11000.719160 # average ReadExReq mshr miss latency -system.l2c.ReadExReq_miss_latency 3654483000 # number of ReadExReq miss cycles +system.iocache.ReadReq_accesses 173 # number of ReadReq accesses(hits+misses) +system.iocache.ReadReq_avg_miss_latency 61832.358382 # average ReadReq miss latency +system.iocache.ReadReq_avg_mshr_miss_latency 60832.358382 # average ReadReq mshr miss latency +system.iocache.ReadReq_miss_latency 10696998 # number of ReadReq miss cycles +system.iocache.ReadReq_miss_rate 1 # miss rate for ReadReq accesses +system.iocache.ReadReq_misses 173 # number of ReadReq misses +system.iocache.ReadReq_mshr_miss_latency 10523998 # number of ReadReq MSHR miss cycles +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 55508.947969 # average WriteReq miss latency +system.iocache.WriteReq_avg_mshr_miss_latency 54508.947969 # average WriteReq mshr miss latency +system.iocache.WriteReq_miss_latency 2306507806 # 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 2264955806 # 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 4134.747706 # average number of cycles each access was blocked +system.iocache.avg_blocked_cycles_no_targets # 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 10464 # number of cycles access was blocked +system.iocache.blocked_no_targets 0 # number of cycles access was blocked +system.iocache.blocked_cycles_no_mshrs 43266000 # 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 55535.166064 # average overall miss latency +system.iocache.demand_avg_mshr_miss_latency 54535.166064 # average overall mshr miss latency +system.iocache.demand_hits 0 # number of demand (read+write) hits +system.iocache.demand_miss_latency 2317204804 # 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 2275479804 # 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 55535.166064 # average overall miss latency +system.iocache.overall_avg_mshr_miss_latency 54535.166064 # average overall mshr miss latency +system.iocache.overall_avg_mshr_uncacheable_latency # average overall mshr uncacheable latency +system.iocache.overall_hits 0 # number of overall hits +system.iocache.overall_miss_latency 2317204804 # 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 2275479804 # 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 +system.iocache.overall_mshr_uncacheable_misses 0 # number of overall MSHR uncacheable misses +system.iocache.prefetcher.num_hwpf_already_in_cache 0 # number of hwpf that were already in the cache +system.iocache.prefetcher.num_hwpf_already_in_mshr 0 # number of hwpf that were already in mshr +system.iocache.prefetcher.num_hwpf_already_in_prefetcher 0 # number of hwpf that were already in the prefetch queue +system.iocache.prefetcher.num_hwpf_evicted 0 # number of hwpf removed due to no buffer left +system.iocache.prefetcher.num_hwpf_identified 0 # number of hwpf identified +system.iocache.prefetcher.num_hwpf_issued 0 # number of hwpf issued +system.iocache.prefetcher.num_hwpf_removed_MSHR_hit 0 # number of hwpf removed because MSHR allocated +system.iocache.prefetcher.num_hwpf_span_page 0 # number of hwpf spanning a virtual page +system.iocache.prefetcher.num_hwpf_squashed_from_miss 0 # number of hwpf that got squashed due to a miss aborting calculation time +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 1.326249 # Cycle average of tags in use +system.iocache.total_refs 0 # Total number of references to valid blocks. +system.iocache.warmup_cycle 1746583798000 # Cycle when the warmup percentage was hit. +system.iocache.writebacks 41512 # number of writebacks +system.l2c.ReadExReq_accesses 304456 # number of ReadExReq accesses(hits+misses) +system.l2c.ReadExReq_avg_miss_latency 12004.125391 # average ReadExReq miss latency +system.l2c.ReadExReq_avg_mshr_miss_latency 11004.125391 # average ReadExReq mshr miss latency +system.l2c.ReadExReq_miss_latency 3654728000 # number of ReadExReq miss cycles system.l2c.ReadExReq_miss_rate 1 # miss rate for ReadExReq accesses -system.l2c.ReadExReq_misses 304522 # number of ReadExReq misses -system.l2c.ReadExReq_mshr_miss_latency 3349961000 # number of ReadExReq MSHR miss cycles +system.l2c.ReadExReq_misses 304456 # number of ReadExReq misses +system.l2c.ReadExReq_mshr_miss_latency 3350272000 # number of ReadExReq MSHR miss cycles system.l2c.ReadExReq_mshr_miss_rate 1 # mshr miss rate for ReadExReq accesses -system.l2c.ReadExReq_mshr_misses 304522 # number of ReadExReq MSHR misses -system.l2c.ReadReq_accesses 2670005 # number of ReadReq accesses(hits+misses) -system.l2c.ReadReq_avg_miss_latency 12000.233269 # average ReadReq miss latency -system.l2c.ReadReq_avg_mshr_miss_latency 11000.233269 # average ReadReq mshr miss latency +system.l2c.ReadExReq_mshr_misses 304456 # number of ReadExReq MSHR misses +system.l2c.ReadReq_accesses 2669499 # number of ReadReq accesses(hits+misses) +system.l2c.ReadReq_avg_miss_latency 12011.481535 # average ReadReq miss latency +system.l2c.ReadReq_avg_mshr_miss_latency 11011.481535 # average ReadReq mshr miss latency system.l2c.ReadReq_avg_mshr_uncacheable_latency inf # average ReadReq mshr uncacheable latency -system.l2c.ReadReq_hits 1568273 # number of ReadReq hits -system.l2c.ReadReq_miss_latency 13221041000 # number of ReadReq miss cycles -system.l2c.ReadReq_miss_rate 0.412633 # miss rate for ReadReq accesses -system.l2c.ReadReq_misses 1101732 # number of ReadReq misses -system.l2c.ReadReq_mshr_miss_latency 12119309000 # number of ReadReq MSHR miss cycles -system.l2c.ReadReq_mshr_miss_rate 0.412633 # mshr miss rate for ReadReq accesses -system.l2c.ReadReq_mshr_misses 1101732 # number of ReadReq MSHR misses +system.l2c.ReadReq_hits 1567817 # number of ReadReq hits +system.l2c.ReadReq_miss_latency 13232833000 # number of ReadReq miss cycles +system.l2c.ReadReq_miss_rate 0.412692 # miss rate for ReadReq accesses +system.l2c.ReadReq_misses 1101682 # number of ReadReq misses +system.l2c.ReadReq_mshr_miss_latency 12131151000 # number of ReadReq MSHR miss cycles +system.l2c.ReadReq_mshr_miss_rate 0.412692 # mshr miss rate for ReadReq accesses +system.l2c.ReadReq_mshr_misses 1101682 # number of ReadReq MSHR misses system.l2c.ReadReq_mshr_uncacheable_latency 750102000 # number of ReadReq MSHR uncacheable cycles -system.l2c.UpgradeReq_accesses 125867 # number of UpgradeReq accesses(hits+misses) -system.l2c.UpgradeReq_avg_miss_latency 11999.892744 # average UpgradeReq miss latency -system.l2c.UpgradeReq_avg_mshr_miss_latency 11000.750793 # average UpgradeReq mshr miss latency -system.l2c.UpgradeReq_miss_latency 1510390500 # number of UpgradeReq miss cycles +system.l2c.UpgradeReq_accesses 125803 # number of UpgradeReq accesses(hits+misses) +system.l2c.UpgradeReq_avg_miss_latency 12002.178008 # average UpgradeReq miss latency +system.l2c.UpgradeReq_avg_mshr_miss_latency 11003.036494 # average UpgradeReq mshr miss latency +system.l2c.UpgradeReq_miss_latency 1509910000 # number of UpgradeReq miss cycles system.l2c.UpgradeReq_miss_rate 1 # miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_misses 125867 # number of UpgradeReq misses -system.l2c.UpgradeReq_mshr_miss_latency 1384631500 # number of UpgradeReq MSHR miss cycles +system.l2c.UpgradeReq_misses 125803 # number of UpgradeReq misses +system.l2c.UpgradeReq_mshr_miss_latency 1384215000 # number of UpgradeReq MSHR miss cycles system.l2c.UpgradeReq_mshr_miss_rate 1 # mshr miss rate for UpgradeReq accesses -system.l2c.UpgradeReq_mshr_misses 125867 # number of UpgradeReq MSHR misses +system.l2c.UpgradeReq_mshr_misses 125803 # number of UpgradeReq MSHR misses system.l2c.WriteReq_avg_mshr_uncacheable_latency inf # average WriteReq mshr uncacheable latency -system.l2c.WriteReq_mshr_uncacheable_latency 1051110500 # number of WriteReq MSHR uncacheable cycles -system.l2c.Writeback_accesses 429991 # number of Writeback accesses(hits+misses) +system.l2c.WriteReq_mshr_uncacheable_latency 1050999500 # number of WriteReq MSHR uncacheable cycles +system.l2c.Writeback_accesses 429859 # number of Writeback accesses(hits+misses) system.l2c.Writeback_miss_rate 1 # miss rate for Writeback accesses -system.l2c.Writeback_misses 429991 # number of Writeback misses +system.l2c.Writeback_misses 429859 # number of Writeback misses system.l2c.Writeback_mshr_miss_rate 1 # mshr miss rate for Writeback accesses -system.l2c.Writeback_mshr_misses 429991 # number of Writeback MSHR misses +system.l2c.Writeback_mshr_misses 429859 # number of Writeback MSHR misses system.l2c.avg_blocked_cycles_no_mshrs # average number of cycles each access was blocked system.l2c.avg_blocked_cycles_no_targets # average number of cycles each access was blocked -system.l2c.avg_refs 1.660842 # Average number of references to valid blocks. +system.l2c.avg_refs 1.660129 # 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 2974527 # number of demand (read+write) accesses -system.l2c.demand_avg_miss_latency 12000.338488 # average overall miss latency -system.l2c.demand_avg_mshr_miss_latency 11000.338488 # average overall mshr miss latency -system.l2c.demand_hits 1568273 # number of demand (read+write) hits -system.l2c.demand_miss_latency 16875524000 # number of demand (read+write) miss cycles -system.l2c.demand_miss_rate 0.472766 # miss rate for demand accesses -system.l2c.demand_misses 1406254 # number of demand (read+write) misses +system.l2c.demand_accesses 2973955 # number of demand (read+write) accesses +system.l2c.demand_avg_miss_latency 12009.888788 # average overall miss latency +system.l2c.demand_avg_mshr_miss_latency 11009.888788 # average overall mshr miss latency +system.l2c.demand_hits 1567817 # number of demand (read+write) hits +system.l2c.demand_miss_latency 16887561000 # number of demand (read+write) miss cycles +system.l2c.demand_miss_rate 0.472818 # miss rate for demand accesses +system.l2c.demand_misses 1406138 # 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 15469270000 # number of demand (read+write) MSHR miss cycles -system.l2c.demand_mshr_miss_rate 0.472766 # mshr miss rate for demand accesses -system.l2c.demand_mshr_misses 1406254 # number of demand (read+write) MSHR misses +system.l2c.demand_mshr_miss_latency 15481423000 # number of demand (read+write) MSHR miss cycles +system.l2c.demand_mshr_miss_rate 0.472818 # mshr miss rate for demand accesses +system.l2c.demand_mshr_misses 1406138 # 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 2974527 # number of overall (read+write) accesses -system.l2c.overall_avg_miss_latency 12000.338488 # average overall miss latency -system.l2c.overall_avg_mshr_miss_latency 11000.338488 # average overall mshr miss latency +system.l2c.overall_accesses 2973955 # number of overall (read+write) accesses +system.l2c.overall_avg_miss_latency 12009.888788 # average overall miss latency +system.l2c.overall_avg_mshr_miss_latency 11009.888788 # average overall mshr miss latency system.l2c.overall_avg_mshr_uncacheable_latency inf # average overall mshr uncacheable latency -system.l2c.overall_hits 1568273 # number of overall hits -system.l2c.overall_miss_latency 16875524000 # number of overall miss cycles -system.l2c.overall_miss_rate 0.472766 # miss rate for overall accesses -system.l2c.overall_misses 1406254 # number of overall misses +system.l2c.overall_hits 1567817 # number of overall hits +system.l2c.overall_miss_latency 16887561000 # number of overall miss cycles +system.l2c.overall_miss_rate 0.472818 # miss rate for overall accesses +system.l2c.overall_misses 1406138 # number of overall misses system.l2c.overall_mshr_hits 0 # number of overall MSHR hits -system.l2c.overall_mshr_miss_latency 15469270000 # number of overall MSHR miss cycles -system.l2c.overall_mshr_miss_rate 0.472766 # mshr miss rate for overall accesses -system.l2c.overall_mshr_misses 1406254 # number of overall MSHR misses -system.l2c.overall_mshr_uncacheable_latency 1801212500 # number of overall MSHR uncacheable cycles +system.l2c.overall_mshr_miss_latency 15481423000 # number of overall MSHR miss cycles +system.l2c.overall_mshr_miss_rate 0.472818 # mshr miss rate for overall accesses +system.l2c.overall_mshr_misses 1406138 # number of overall MSHR misses +system.l2c.overall_mshr_uncacheable_latency 1801101500 # 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 @@ -365,11 +435,11 @@ 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 947259 # number of replacements -system.l2c.sampled_refs 965538 # Sample count of references to valid blocks. +system.l2c.replacements 947227 # number of replacements +system.l2c.sampled_refs 965496 # 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 15874.904757 # Cycle average of tags in use -system.l2c.total_refs 1603606 # Total number of references to valid blocks. +system.l2c.tagsinuse 15873.138648 # Cycle average of tags in use +system.l2c.total_refs 1602848 # Total number of references to valid blocks. system.l2c.warmup_cycle 4106790000 # Cycle when the warmup percentage was hit. system.l2c.writebacks 0 # number of writebacks system.tsunami.ethernet.coalescedRxDesc # average number of RxDesc's coalesced into each post diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stderr b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stderr index 32120d9d6..072cb6c8c 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stderr +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stderr @@ -1,3 +1,3 @@ -Listening for system connection on port 3457 -0: system.remote_gdb.listener: listening for remote gdb on port 7001 +Listening for system connection on port 3456 +0: system.remote_gdb.listener: listening for remote gdb on port 7000 warn: Entering event queue @ 0. Starting simulation... diff --git a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stdout b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stdout index 69f3594a5..59e425d24 100644 --- a/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stdout +++ b/tests/quick/10.linux-boot/ref/alpha/linux/tsunami-simple-timing/stdout @@ -5,9 +5,9 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Aug 3 2007 04:02:11 -M5 started Fri Aug 3 04:23:34 2007 -M5 executing on zizzer.eecs.umich.edu +M5 compiled Aug 10 2007 16:03:34 +M5 started Fri Aug 10 16:04:35 2007 +M5 executing on zeep command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/10.linux-boot/alpha/linux/tsunami-simple-timing tests/run.py quick/10.linux-boot/alpha/linux/tsunami-simple-timing Global frequency set at 1000000000000 ticks per second -Exiting @ tick 1910309711000 because m5_exit instruction encountered +Exiting @ tick 1909320028000 because m5_exit instruction encountered 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 4cbaaf71e..3385f4fea 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/stever/hg/m5.stever/configs/boot/netperf-server.rcS +readfile=/z/saidi/work/m5.bb/configs/boot/netperf-server.rcS symbolfile= system_rev=1024 system_type=34 @@ -22,8 +22,8 @@ system_type=34 [drivesys.bridge] type=Bridge delay=50000 -fix_partial_write_a=false -fix_partial_write_b=true +filter_ranges_a= +filter_ranges_b= nack_delay=4000 req_size_a=16 req_size_b=16 @@ -708,7 +708,7 @@ kernel=/dist/m5/system/binaries/vmlinux mem_mode=atomic pal=/dist/m5/system/binaries/ts_osfpal physmem=testsys.physmem -readfile=/z/stever/hg/m5.stever/configs/boot/netperf-stream-client.rcS +readfile=/z/saidi/work/m5.bb/configs/boot/netperf-stream-client.rcS symbolfile= system_rev=1024 system_type=34 @@ -716,8 +716,8 @@ system_type=34 [testsys.bridge] type=Bridge delay=50000 -fix_partial_write_a=false -fix_partial_write_b=true +filter_ranges_a= +filter_ranges_b= nack_delay=4000 req_size_a=16 req_size_b=16 diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/console.drivesys.sim_console b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/console.drivesys.sim_console index aa129d6a7..89c68d228 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/console.drivesys.sim_console +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/console.drivesys.sim_console @@ -58,7 +58,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 eth0: ns83820.c: 0x22c: 00000000, subsystem: 0000:0000 eth0: enabling optical transceiver eth0: using 64 bit addressing. - eth0: ns83820 v0.22: DP83820 v1.3: 00:90:00:00:00:02 io=0x09000000 irq=30 f=h,sg + eth0: ns83820 v0.22: DP83820 v1.3: 00:90:00:00:00:01 io=0x09000000 irq=30 f=h,sg tun: Universal TUN/TAP device driver, 1.6 tun: (C) 1999-2004 Max Krasnyansky Uniform Multi-Platform E-IDE driver Revision: 7.00alpha2 @@ -72,7 +72,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 hdb: M5 IDE Disk, ATA DISK drive ide0 at 0x8410-0x8417,0x8422 on irq 31 hda: max request size: 128KiB - hda: 511056 sectors (261 MB), CHS=507/16/63, UDMA(33) + hda: 101808 sectors (52 MB), CHS=101/16/63, UDMA(33) hda: cache flushes not supported hda: hda1 hdb: max request size: 128KiB @@ -99,13 +99,14 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 All bugs added by David S. Miller VFS: Mounted root (ext2 filesystem) readonly. Freeing unused kernel memory: 224k freed - init started: BusyBox v1.1.0 (2006.08.17-02:54+0000) multi-call binary -mounting filesystems... -loading script... -setting up network... + init started: BusyBox v1.1.0 (2007.03.04-01:07+0000) multi-call binary +mounting filesystems... +EXT2-fs warning: checktime reached, running e2fsck is recommended + loading script... +setting up network... eth0: link now 1000F mbps, full duplex and up. - running netserver... -Starting netserver at port 12865 -signal client to begin...done. -starting bash... + running netserver... +Starting netserver at port 12865 +signal client to begin...done. +starting bash... # \ No newline at end of file diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/console.testsys.sim_console b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/console.testsys.sim_console index b8f1a6cae..c1cb6aad0 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/console.testsys.sim_console +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/console.testsys.sim_console @@ -72,7 +72,7 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 hdb: M5 IDE Disk, ATA DISK drive ide0 at 0x8410-0x8417,0x8422 on irq 31 hda: max request size: 128KiB - hda: 511056 sectors (261 MB), CHS=507/16/63, UDMA(33) + hda: 101808 sectors (52 MB), CHS=101/16/63, UDMA(33) hda: cache flushes not supported hda: hda1 hdb: max request size: 128KiB @@ -99,22 +99,23 @@ M5 console: m5AlphaAccess @ 0xFFFFFD0200000000 All bugs added by David S. Miller VFS: Mounted root (ext2 filesystem) readonly. Freeing unused kernel memory: 224k freed - init started: BusyBox v1.1.0 (2006.08.17-02:54+0000) multi-call binary -mounting filesystems... -loading script... -setting up network... + init started: BusyBox v1.1.0 (2007.03.04-01:07+0000) multi-call binary +mounting filesystems... +EXT2-fs warning: checktime reached, running e2fsck is recommended + loading script... +setting up network... eth0: link now 1000F mbps, full duplex and up. - waiting for server...server ready -starting test... -netperf warmup -/benchmarks/netperf-bin/netperf -H 10.0.0.1 -t TCP_STREAM -l -100k -TCP STREAM TEST to 10.0.0.1 : dirty data -Recv Send Send -Socket Socket Message Elapsed -Size Size Size Time Throughput -bytes bytes bytes secs. 10^6bits/sec - -5000000 5000000 5000000 1.29 30.91 -netperf benchmark -/benchmarks/netperf-bin/netperf -H 10.0.0.1 -t TCP_STREAM -k16384,0 -K16384,0 -- -m 65536 -M 65536 -s 262144 -S 262144 -TCP STREAM TEST to 10.0.0.1 : dirty data + waiting for server...server ready +starting test... +netperf warmup +/benchmarks/netperf-bin/netperf -H 10.0.0.1 -t TCP_STREAM -l -100k +TCP STREAM TEST to 10.0.0.1 : dirty data +Recv Send Send +Socket Socket Message Elapsed +Size Size Size Time Throughput +bytes bytes bytes secs. 10^6bits/sec + +5000000 5000000 5000000 1.29 30.91 +netperf benchmark +/benchmarks/netperf-bin/netperf -H 10.0.0.1 -t TCP_STREAM -k16384,0 -K16384,0 -- -m 65536 -M 65536 -s 262144 -S 262144 +TCP STREAM TEST to 10.0.0.1 : dirty data diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/m5stats.txt b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/m5stats.txt index 719430102..c63520549 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/m5stats.txt +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/m5stats.txt @@ -139,10 +139,10 @@ 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 51081325 # Simulator instruction rate (inst/s) -host_mem_usage 406704 # Number of bytes of host memory used -host_seconds 5.35 # Real time elapsed on the host -host_tick_rate 37372483621 # Simulator tick rate (ticks/s) +host_inst_rate 109126509 # Simulator instruction rate (inst/s) +host_mem_usage 477016 # Number of bytes of host memory used +host_seconds 2.51 # Real time elapsed on the host +host_tick_rate 79838467246 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks sim_insts 273348482 # Number of instructions simulated sim_seconds 0.200001 # Number of seconds simulated @@ -381,10 +381,10 @@ 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 71036507796 # Simulator instruction rate (inst/s) -host_mem_usage 406704 # Number of bytes of host memory used +host_inst_rate 139108642239 # Simulator instruction rate (inst/s) +host_mem_usage 477016 # Number of bytes of host memory used host_seconds 0.00 # Real time elapsed on the host -host_tick_rate 191282064 # Simulator tick rate (ticks/s) +host_tick_rate 375168496 # Simulator tick rate (ticks/s) sim_freq 1000000000000 # Frequency of simulated ticks sim_insts 273348482 # Number of instructions simulated sim_seconds 0.000001 # Number of seconds simulated diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stderr b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stderr index 4f6a93597..891b3e205 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stderr +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stderr @@ -1,6 +1,6 @@ -Listening for testsys connection on port 3457 -Listening for drivesys connection on port 3458 -0: testsys.remote_gdb.listener: listening for remote gdb on port 7001 -0: drivesys.remote_gdb.listener: listening for remote gdb on port 7002 +Listening for testsys connection on port 3456 +Listening for drivesys connection on port 3457 +0: testsys.remote_gdb.listener: listening for remote gdb on port 7000 +0: drivesys.remote_gdb.listener: listening for remote gdb on port 7001 warn: Entering event queue @ 0. Starting simulation... warn: Obsolete M5 instruction ivlb encountered. diff --git a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stdout b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stdout index 3b074da7f..345be7558 100644 --- a/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stdout +++ b/tests/quick/80.netperf-stream/ref/alpha/linux/twosys-tsunami-simple-atomic/stdout @@ -5,9 +5,9 @@ The Regents of The University of Michigan All Rights Reserved -M5 compiled Aug 3 2007 04:02:11 -M5 started Fri Aug 3 04:26:58 2007 -M5 executing on zizzer.eecs.umich.edu +M5 compiled Aug 10 2007 16:03:34 +M5 started Fri Aug 10 16:06:35 2007 +M5 executing on zeep command line: build/ALPHA_FS/m5.fast -d build/ALPHA_FS/tests/fast/quick/80.netperf-stream/alpha/linux/twosys-tsunami-simple-atomic tests/run.py quick/80.netperf-stream/alpha/linux/twosys-tsunami-simple-atomic Global frequency set at 1000000000000 ticks per second Exiting @ tick 4300235844056 because checkpoint