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1rYm.txt
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sbc-bench v0.6.2 Khadas Captain (Thu, 15 Nov 2018 12:45:40 +0000)
Distributor ID: Ubuntu
Description: Ubuntu 18.04.1 LTS
Release: 18.04
Codename: bionic
Architecture: arm64
/usr/bin/gcc (Ubuntu/Linaro 7.3.0-27ubuntu1~18.04) 7.3.0
Uptime: 12:45:41 up 3 min, 1 user, load average: 0.09, 0.18, 0.08
Linux 4.4.154 (Khadas) 11/15/18 _aarch64_ (6 CPU)
avg-cpu: %user %nice %system %iowait %steal %idle
1.47 0.46 1.01 1.35 0.00 95.72
Device tps kB_read/s kB_wrtn/s kB_read kB_wrtn
mmcblk0 20.32 985.66 484.43 215939 106129
mmcblk1 3.19 88.59 0.00 19408 0
mmcblk1boot1 0.25 0.99 0.00 216 0
mmcblk1boot0 0.25 0.99 0.00 216 0
zram1 1.34 5.33 0.02 1168 4
zram2 1.34 5.33 0.02 1168 4
zram3 1.34 5.33 0.02 1168 4
zram4 1.34 5.33 0.02 1168 4
total used free shared buff/cache available
Mem: 3.7G 77M 3.3G 3.6M 285M 3.6G
Swap: 1.0G 0B 1.0G
Filename Type Size Used Priority
/dev/zram1 partition 262140 0 5
/dev/zram2 partition 262140 0 5
/dev/zram3 partition 262140 0 5
/dev/zram4 partition 262140 0 5
##########################################################################
Checking cpufreq OPP for cpu0-cpu3:
Cpufreq OPP: 1512 Measured: 1502.893/1503.541/1502.981
Cpufreq OPP: 1416 Measured: 1406.706/1406.967/1407.212
Cpufreq OPP: 1200 Measured: 1190.868/1190.936/1190.497
Cpufreq OPP: 1008 Measured: 998.820/998.965/998.410
Cpufreq OPP: 816 Measured: 806.524/807.036/807.184
Cpufreq OPP: 600 Measured: 591.214/591.399/590.613
Cpufreq OPP: 408 Measured: 399.104/399.071/399.193
Checking cpufreq OPP for cpu4-cpu5:
Cpufreq OPP: 1992 Measured: 1985.981/1986.103/1986.079
Cpufreq OPP: 1800 Measured: 1794.029/1794.129/1794.069
Cpufreq OPP: 1608 Measured: 1601.953/1602.291/1602.310
Cpufreq OPP: 1416 Measured: 1410.194/1410.132/1410.009
Cpufreq OPP: 1200 Measured: 1194.089/1194.241/1194.241
Cpufreq OPP: 1008 Measured: 1002.042/1002.297/1002.358
Cpufreq OPP: 816 Measured: 810.181/810.092/810.211
Cpufreq OPP: 600 Measured: 593.550/593.749/593.783
Cpufreq OPP: 408 Measured: 401.447/401.599/401.385
##########################################################################
Executing tinymembench on a little core:
tinymembench v0.4.9 (simple benchmark for memory throughput and latency)
==========================================================================
== Memory bandwidth tests ==
== ==
== Note 1: 1MB = 1000000 bytes ==
== Note 2: Results for 'copy' tests show how many bytes can be ==
== copied per second (adding together read and writen ==
== bytes would have provided twice higher numbers) ==
== Note 3: 2-pass copy means that we are using a small temporary buffer ==
== to first fetch data into it, and only then write it to the ==
== destination (source -> L1 cache, L1 cache -> destination) ==
== Note 4: If sample standard deviation exceeds 0.1%, it is shown in ==
== brackets ==
==========================================================================
C copy backwards : 1293.7 MB/s (0.8%)
C copy backwards (32 byte blocks) : 1304.0 MB/s (0.5%)
C copy backwards (64 byte blocks) : 1312.2 MB/s (1.2%)
C copy : 1373.1 MB/s (0.6%)
C copy prefetched (32 bytes step) : 1045.7 MB/s (0.9%)
C copy prefetched (64 bytes step) : 1138.7 MB/s
C 2-pass copy : 1220.5 MB/s
C 2-pass copy prefetched (32 bytes step) : 812.2 MB/s
C 2-pass copy prefetched (64 bytes step) : 714.8 MB/s (0.2%)
C fill : 4776.3 MB/s
C fill (shuffle within 16 byte blocks) : 4776.3 MB/s (1.2%)
C fill (shuffle within 32 byte blocks) : 4773.2 MB/s
C fill (shuffle within 64 byte blocks) : 4773.1 MB/s
---
standard memcpy : 1384.5 MB/s (1.4%)
standard memset : 4776.4 MB/s
---
NEON LDP/STP copy : 1424.8 MB/s (1.0%)
NEON LDP/STP copy pldl2strm (32 bytes step) : 946.4 MB/s (0.5%)
NEON LDP/STP copy pldl2strm (64 bytes step) : 1174.4 MB/s (0.2%)
NEON LDP/STP copy pldl1keep (32 bytes step) : 1510.5 MB/s (0.3%)
NEON LDP/STP copy pldl1keep (64 bytes step) : 1511.3 MB/s (0.3%)
NEON LD1/ST1 copy : 1413.7 MB/s (1.7%)
NEON STP fill : 4774.9 MB/s
NEON STNP fill : 2087.1 MB/s (1.0%)
ARM LDP/STP copy : 1425.0 MB/s (0.3%)
ARM STP fill : 4775.3 MB/s
ARM STNP fill : 2080.9 MB/s (0.9%)
==========================================================================
== Framebuffer read tests. ==
== ==
== Many ARM devices use a part of the system memory as the framebuffer, ==
== typically mapped as uncached but with write-combining enabled. ==
== Writes to such framebuffers are quite fast, but reads are much ==
== slower and very sensitive to the alignment and the selection of ==
== CPU instructions which are used for accessing memory. ==
== ==
== Many x86 systems allocate the framebuffer in the GPU memory, ==
== accessible for the CPU via a relatively slow PCI-E bus. Moreover, ==
== PCI-E is asymmetric and handles reads a lot worse than writes. ==
== ==
== If uncached framebuffer reads are reasonably fast (at least 100 MB/s ==
== or preferably >300 MB/s), then using the shadow framebuffer layer ==
== is not necessary in Xorg DDX drivers, resulting in a nice overall ==
== performance improvement. For example, the xf86-video-fbturbo DDX ==
== uses this trick. ==
==========================================================================
NEON LDP/STP copy (from framebuffer) : 189.0 MB/s
NEON LDP/STP 2-pass copy (from framebuffer) : 176.4 MB/s
NEON LD1/ST1 copy (from framebuffer) : 46.9 MB/s (0.8%)
NEON LD1/ST1 2-pass copy (from framebuffer) : 46.4 MB/s
ARM LDP/STP copy (from framebuffer) : 93.8 MB/s
ARM LDP/STP 2-pass copy (from framebuffer) : 91.4 MB/s
==========================================================================
== Memory latency test ==
== ==
== Average time is measured for random memory accesses in the buffers ==
== of different sizes. The larger is the buffer, the more significant ==
== are relative contributions of TLB, L1/L2 cache misses and SDRAM ==
== accesses. For extremely large buffer sizes we are expecting to see ==
== page table walk with several requests to SDRAM for almost every ==
== memory access (though 64MiB is not nearly large enough to experience ==
== this effect to its fullest). ==
== ==
== Note 1: All the numbers are representing extra time, which needs to ==
== be added to L1 cache latency. The cycle timings for L1 cache ==
== latency can be usually found in the processor documentation. ==
== Note 2: Dual random read means that we are simultaneously performing ==
== two independent memory accesses at a time. In the case if ==
== the memory subsystem can't handle multiple outstanding ==
== requests, dual random read has the same timings as two ==
== single reads performed one after another. ==
==========================================================================
block size : single random read / dual random read
1024 : 0.0 ns / 0.0 ns
2048 : 0.0 ns / 0.0 ns
4096 : 0.0 ns / 0.0 ns
8192 : 0.0 ns / 0.0 ns
16384 : 0.0 ns / 0.0 ns
32768 : 0.1 ns / 0.1 ns
65536 : 4.6 ns / 7.7 ns
131072 : 7.0 ns / 10.6 ns
262144 : 8.3 ns / 11.9 ns
524288 : 17.1 ns / 23.8 ns
1048576 : 109.3 ns / 165.2 ns
2097152 : 156.2 ns / 205.4 ns
4194304 : 181.9 ns / 224.0 ns
8388608 : 195.5 ns / 232.1 ns
16777216 : 202.3 ns / 237.9 ns
33554432 : 206.7 ns / 242.6 ns
67108864 : 210.7 ns / 246.9 ns
Executing tinymembench on a big core:
tinymembench v0.4.9 (simple benchmark for memory throughput and latency)
==========================================================================
== Memory bandwidth tests ==
== ==
== Note 1: 1MB = 1000000 bytes ==
== Note 2: Results for 'copy' tests show how many bytes can be ==
== copied per second (adding together read and writen ==
== bytes would have provided twice higher numbers) ==
== Note 3: 2-pass copy means that we are using a small temporary buffer ==
== to first fetch data into it, and only then write it to the ==
== destination (source -> L1 cache, L1 cache -> destination) ==
== Note 4: If sample standard deviation exceeds 0.1%, it is shown in ==
== brackets ==
==========================================================================
C copy backwards : 2842.3 MB/s
C copy backwards (32 byte blocks) : 2851.5 MB/s (0.3%)
C copy backwards (64 byte blocks) : 2831.1 MB/s (0.2%)
C copy : 2796.5 MB/s (0.4%)
C copy prefetched (32 bytes step) : 2748.6 MB/s
C copy prefetched (64 bytes step) : 2754.0 MB/s (0.1%)
C 2-pass copy : 2498.5 MB/s
C 2-pass copy prefetched (32 bytes step) : 2562.1 MB/s
C 2-pass copy prefetched (64 bytes step) : 2563.6 MB/s (0.1%)
C fill : 4863.0 MB/s (0.5%)
C fill (shuffle within 16 byte blocks) : 4864.4 MB/s (0.2%)
C fill (shuffle within 32 byte blocks) : 4864.3 MB/s (0.2%)
C fill (shuffle within 64 byte blocks) : 4864.1 MB/s (0.3%)
---
standard memcpy : 2811.7 MB/s (0.2%)
standard memset : 4865.3 MB/s (0.2%)
---
NEON LDP/STP copy : 2808.3 MB/s (0.2%)
NEON LDP/STP copy pldl2strm (32 bytes step) : 2812.9 MB/s (0.1%)
NEON LDP/STP copy pldl2strm (64 bytes step) : 2809.9 MB/s
NEON LDP/STP copy pldl1keep (32 bytes step) : 2760.7 MB/s (0.3%)
NEON LDP/STP copy pldl1keep (64 bytes step) : 2760.6 MB/s (0.3%)
NEON LD1/ST1 copy : 2814.5 MB/s (0.2%)
NEON STP fill : 4860.4 MB/s (0.3%)
NEON STNP fill : 4824.1 MB/s (0.4%)
ARM LDP/STP copy : 2801.0 MB/s (0.2%)
ARM STP fill : 4862.6 MB/s (0.4%)
ARM STNP fill : 4809.5 MB/s (0.3%)
==========================================================================
== Framebuffer read tests. ==
== ==
== Many ARM devices use a part of the system memory as the framebuffer, ==
== typically mapped as uncached but with write-combining enabled. ==
== Writes to such framebuffers are quite fast, but reads are much ==
== slower and very sensitive to the alignment and the selection of ==
== CPU instructions which are used for accessing memory. ==
== ==
== Many x86 systems allocate the framebuffer in the GPU memory, ==
== accessible for the CPU via a relatively slow PCI-E bus. Moreover, ==
== PCI-E is asymmetric and handles reads a lot worse than writes. ==
== ==
== If uncached framebuffer reads are reasonably fast (at least 100 MB/s ==
== or preferably >300 MB/s), then using the shadow framebuffer layer ==
== is not necessary in Xorg DDX drivers, resulting in a nice overall ==
== performance improvement. For example, the xf86-video-fbturbo DDX ==
== uses this trick. ==
==========================================================================
NEON LDP/STP copy (from framebuffer) : 620.8 MB/s (0.1%)
NEON LDP/STP 2-pass copy (from framebuffer) : 567.5 MB/s
NEON LD1/ST1 copy (from framebuffer) : 682.1 MB/s
NEON LD1/ST1 2-pass copy (from framebuffer) : 620.0 MB/s
ARM LDP/STP copy (from framebuffer) : 451.4 MB/s (0.1%)
ARM LDP/STP 2-pass copy (from framebuffer) : 435.5 MB/s (0.1%)
==========================================================================
== Memory latency test ==
== ==
== Average time is measured for random memory accesses in the buffers ==
== of different sizes. The larger is the buffer, the more significant ==
== are relative contributions of TLB, L1/L2 cache misses and SDRAM ==
== accesses. For extremely large buffer sizes we are expecting to see ==
== page table walk with several requests to SDRAM for almost every ==
== memory access (though 64MiB is not nearly large enough to experience ==
== this effect to its fullest). ==
== ==
== Note 1: All the numbers are representing extra time, which needs to ==
== be added to L1 cache latency. The cycle timings for L1 cache ==
== latency can be usually found in the processor documentation. ==
== Note 2: Dual random read means that we are simultaneously performing ==
== two independent memory accesses at a time. In the case if ==
== the memory subsystem can't handle multiple outstanding ==
== requests, dual random read has the same timings as two ==
== single reads performed one after another. ==
==========================================================================
block size : single random read / dual random read
1024 : 0.0 ns / 0.0 ns
2048 : 0.0 ns / 0.0 ns
4096 : 0.0 ns / 0.0 ns
8192 : 0.0 ns / 0.0 ns
16384 : 0.0 ns / 0.0 ns
32768 : 0.0 ns / 0.0 ns
65536 : 4.1 ns / 6.5 ns
131072 : 6.2 ns / 8.7 ns
262144 : 8.9 ns / 11.6 ns
524288 : 10.3 ns / 13.2 ns
1048576 : 15.2 ns / 20.9 ns
2097152 : 113.0 ns / 173.0 ns
4194304 : 160.0 ns / 217.6 ns
8388608 : 187.9 ns / 237.6 ns
16777216 : 202.4 ns / 248.1 ns
33554432 : 210.3 ns / 251.9 ns
67108864 : 221.2 ns / 264.8 ns
##########################################################################
OpenSSL 1.1.0g, built on 2 Nov 2017
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes 16384 bytes
aes-128-cbc 134816.40k 399116.59k 760779.01k 1017151.83k 1127230.12k 1132156.25k
aes-128-cbc 402155.72k 904539.54k 1289325.57k 1420055.89k 1489608.70k 1493669.21k
aes-192-cbc 99240.82k 294396.57k 568963.58k 761818.45k 845302.44k 842896.73k
aes-192-cbc 378201.88k 830513.94k 1097082.37k 1258811.05k 1309310.98k 1308180.48k
aes-256-cbc 123433.79k 325183.10k 538032.55k 655633.07k 700186.62k 702715.22k
aes-256-cbc 369212.73k 751998.31k 995322.11k 1087338.50k 1126785.02k 1130397.70k
##########################################################################
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=en_US.UTF-8,Utf16=on,HugeFiles=on,64 bits,6 CPUs LE)
LE
CPU Freq: 1490 1503 1500 1503 1503 1503 1503 1503 1503
RAM size: 3784 MB, # CPU hardware threads: 6
RAM usage: 1323 MB, # Benchmark threads: 6
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 723 100 705 704 | 15839 100 1352 1351
23: 695 100 710 709 | 15451 100 1338 1337
24: 671 100 723 722 | 15101 100 1326 1325
25: 642 100 734 733 | 14666 100 1306 1305
---------------------------------- | ------------------------------
Avr: 100 718 717 | 100 1331 1330
Tot: 100 1024 1023
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=en_US.UTF-8,Utf16=on,HugeFiles=on,64 bits,6 CPUs LE)
LE
CPU Freq: 1984 1986 1985 1985 1986 1985 1985 1985 1985
RAM size: 3784 MB, # CPU hardware threads: 6
RAM usage: 1323 MB, # Benchmark threads: 6
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 1461 100 1422 1422 | 23920 100 2040 2040
23: 1410 100 1437 1437 | 23358 100 2021 2021
24: 1335 100 1436 1436 | 22829 100 2004 2004
25: 1265 100 1445 1445 | 22108 100 1968 1968
---------------------------------- | ------------------------------
Avr: 100 1435 1435 | 100 2008 2008
Tot: 100 1722 1721
##########################################################################
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=en_US.UTF-8,Utf16=on,HugeFiles=on,64 bits,6 CPUs LE)
LE
CPU Freq: 1508 1979 1985 1986 1986 1986 1986 1985 1986
RAM size: 3784 MB, # CPU hardware threads: 6
RAM usage: 1323 MB, # Benchmark threads: 6
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 4896 524 909 4763 | 100325 520 1646 8556
23: 4597 536 874 4684 | 97540 521 1621 8440
24: 4526 558 873 4867 | 95105 520 1607 8348
25: 4248 562 863 4851 | 92256 521 1574 8210
---------------------------------- | ------------------------------
Avr: 545 879 4791 | 520 1612 8388
Tot: 533 1246 6590
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=en_US.UTF-8,Utf16=on,HugeFiles=on,64 bits,6 CPUs LE)
LE
CPU Freq: 1985 1986 1985 1986 1985 1986 1986 1985 1986
RAM size: 3784 MB, # CPU hardware threads: 6
RAM usage: 1323 MB, # Benchmark threads: 6
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 4641 487 926 4515 | 100604 520 1650 8580
23: 4500 519 884 4585 | 97788 519 1630 8462
24: 4485 549 878 4822 | 94885 519 1605 8328
25: 4201 549 874 4797 | 91898 519 1575 8178
---------------------------------- | ------------------------------
Avr: 526 891 4680 | 519 1615 8387
Tot: 523 1253 6533
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=en_US.UTF-8,Utf16=on,HugeFiles=on,64 bits,6 CPUs LE)
LE
CPU Freq: 1925 1985 1985 1985 1985 1985 1985 1986 1986
RAM size: 3784 MB, # CPU hardware threads: 6
RAM usage: 1323 MB, # Benchmark threads: 6
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 4633 494 912 4508 | 100116 519 1646 8538
23: 4486 516 886 4572 | 97681 519 1629 8452
24: 4300 524 882 4624 | 95157 519 1608 8352
25: 4136 537 879 4722 | 91982 520 1576 8186
---------------------------------- | ------------------------------
Avr: 518 889 4607 | 519 1615 8382
Tot: 519 1252 6494
Compression: 4791,4680,4607
Decompression: 8388,8387,8382
Total: 6590,6533,6494
##########################################################################
** cpuminer-multi 1.3.3 by tpruvot@github **
BTC donation address: 1FhDPLPpw18X4srecguG3MxJYe4a1JsZnd (tpruvot)
[2018-11-15 13:16:02] 6 miner threads started, using 'scrypt' algorithm.
[2018-11-15 13:16:02] CPU #4: 2.32 kH/s
[2018-11-15 13:16:02] CPU #5: 2.32 kH/s
[2018-11-15 13:16:02] CPU #2: 1.47 kH/s
[2018-11-15 13:16:02] CPU #1: 1.47 kH/s
[2018-11-15 13:16:02] CPU #0: 1.44 kH/s
[2018-11-15 13:16:02] CPU #3: 1.46 kH/s
[2018-11-15 13:16:07] Total: 10.48 kH/s
[2018-11-15 13:16:12] CPU #4: 2.32 kH/s
[2018-11-15 13:16:12] CPU #5: 2.32 kH/s
[2018-11-15 13:16:12] Total: 10.49 kH/s
[2018-11-15 13:16:12] CPU #0: 1.46 kH/s
[2018-11-15 13:16:12] CPU #1: 1.48 kH/s
[2018-11-15 13:16:12] CPU #2: 1.48 kH/s
[2018-11-15 13:16:12] CPU #3: 1.46 kH/s
[2018-11-15 13:16:17] Total: 10.52 kH/s
[2018-11-15 13:16:22] CPU #5: 2.32 kH/s
[2018-11-15 13:16:22] Total: 10.51 kH/s
[2018-11-15 13:16:22] CPU #4: 2.31 kH/s
[2018-11-15 13:16:22] CPU #0: 1.46 kH/s
[2018-11-15 13:16:22] CPU #1: 1.48 kH/s
[2018-11-15 13:16:22] CPU #2: 1.47 kH/s
[2018-11-15 13:16:22] CPU #3: 1.46 kH/s
[2018-11-15 13:16:27] Total: 10.50 kH/s
[2018-11-15 13:16:32] CPU #5: 2.32 kH/s
[2018-11-15 13:16:32] Total: 10.49 kH/s
[2018-11-15 13:16:32] CPU #4: 2.32 kH/s
[2018-11-15 13:16:32] CPU #0: 1.46 kH/s
[2018-11-15 13:16:32] CPU #1: 1.48 kH/s
[2018-11-15 13:16:32] CPU #2: 1.48 kH/s
[2018-11-15 13:16:32] CPU #3: 1.47 kH/s
[2018-11-15 13:16:37] Total: 10.52 kH/s
[2018-11-15 13:16:42] CPU #5: 2.32 kH/s
[2018-11-15 13:16:42] Total: 10.52 kH/s
[2018-11-15 13:16:42] CPU #4: 2.31 kH/s
[2018-11-15 13:16:42] CPU #1: 1.48 kH/s
[2018-11-15 13:16:42] CPU #2: 1.48 kH/s
[2018-11-15 13:16:42] CPU #3: 1.47 kH/s
[2018-11-15 13:16:42] CPU #0: 1.44 kH/s
[2018-11-15 13:16:47] Total: 10.49 kH/s
[2018-11-15 13:16:52] CPU #4: 2.32 kH/s
[2018-11-15 13:16:52] CPU #5: 2.31 kH/s
[2018-11-15 13:16:52] Total: 10.51 kH/s
[2018-11-15 13:16:52] CPU #0: 1.46 kH/s
[2018-11-15 13:16:52] CPU #1: 1.48 kH/s
[2018-11-15 13:16:52] CPU #2: 1.48 kH/s
[2018-11-15 13:16:52] CPU #3: 1.47 kH/s
[2018-11-15 13:16:57] Total: 10.52 kH/s
[2018-11-15 13:17:02] CPU #4: 2.31 kH/s
[2018-11-15 13:17:02] CPU #5: 2.31 kH/s
[2018-11-15 13:17:02] Total: 10.50 kH/s
[2018-11-15 13:17:02] CPU #0: 1.46 kH/s
[2018-11-15 13:17:02] CPU #1: 1.48 kH/s
[2018-11-15 13:17:02] CPU #2: 1.48 kH/s
[2018-11-15 13:17:02] CPU #3: 1.46 kH/s
[2018-11-15 13:17:07] Total: 10.51 kH/s
[2018-11-15 13:17:12] CPU #4: 2.31 kH/s
[2018-11-15 13:17:12] CPU #5: 2.31 kH/s
[2018-11-15 13:17:12] Total: 10.50 kH/s
[2018-11-15 13:17:12] CPU #0: 1.46 kH/s
[2018-11-15 13:17:12] CPU #1: 1.48 kH/s
[2018-11-15 13:17:12] CPU #2: 1.48 kH/s
[2018-11-15 13:17:12] CPU #3: 1.46 kH/s
[2018-11-15 13:17:17] Total: 10.51 kH/s
[2018-11-15 13:17:22] CPU #4: 2.32 kH/s
[2018-11-15 13:17:22] CPU #5: 2.32 kH/s
[2018-11-15 13:17:22] Total: 10.48 kH/s
[2018-11-15 13:17:22] CPU #0: 1.46 kH/s
[2018-11-15 13:17:22] CPU #1: 1.48 kH/s
[2018-11-15 13:17:22] CPU #2: 1.48 kH/s
[2018-11-15 13:17:22] CPU #3: 1.46 kH/s
[2018-11-15 13:17:27] Total: 10.51 kH/s
[2018-11-15 13:17:32] CPU #5: 2.31 kH/s
[2018-11-15 13:17:32] Total: 10.50 kH/s
[2018-11-15 13:17:32] CPU #4: 2.30 kH/s
[2018-11-15 13:17:32] CPU #0: 1.46 kH/s
[2018-11-15 13:17:32] CPU #1: 1.48 kH/s
[2018-11-15 13:17:32] CPU #2: 1.48 kH/s
[2018-11-15 13:17:32] CPU #3: 1.46 kH/s
[2018-11-15 13:17:37] Total: 10.51 kH/s
[2018-11-15 13:17:42] CPU #4: 2.32 kH/s
[2018-11-15 13:17:42] CPU #5: 2.32 kH/s
[2018-11-15 13:17:42] Total: 10.52 kH/s
[2018-11-15 13:17:42] CPU #0: 1.46 kH/s
[2018-11-15 13:17:42] CPU #1: 1.48 kH/s
[2018-11-15 13:17:42] CPU #2: 1.48 kH/s
[2018-11-15 13:17:42] CPU #3: 1.47 kH/s
[2018-11-15 13:17:47] Total: 10.52 kH/s
[2018-11-15 13:17:52] CPU #4: 2.32 kH/s
[2018-11-15 13:17:52] CPU #5: 2.30 kH/s
[2018-11-15 13:17:52] Total: 10.49 kH/s
[2018-11-15 13:17:52] CPU #1: 1.48 kH/s
[2018-11-15 13:17:52] CPU #2: 1.48 kH/s
[2018-11-15 13:17:52] CPU #3: 1.46 kH/s
[2018-11-15 13:17:52] CPU #0: 1.44 kH/s
[2018-11-15 13:17:57] Total: 10.49 kH/s
[2018-11-15 13:18:02] CPU #4: 2.32 kH/s
[2018-11-15 13:18:02] CPU #5: 2.32 kH/s
[2018-11-15 13:18:02] Total: 10.52 kH/s
[2018-11-15 13:18:02] CPU #0: 1.46 kH/s
[2018-11-15 13:18:02] CPU #1: 1.48 kH/s
[2018-11-15 13:18:02] CPU #2: 1.48 kH/s
[2018-11-15 13:18:02] CPU #3: 1.47 kH/s
[2018-11-15 13:18:07] Total: 10.52 kH/s
[2018-11-15 13:18:12] CPU #4: 2.32 kH/s
[2018-11-15 13:18:12] CPU #5: 2.32 kH/s
[2018-11-15 13:18:12] Total: 10.52 kH/s
[2018-11-15 13:18:12] CPU #0: 1.46 kH/s
[2018-11-15 13:18:12] CPU #1: 1.48 kH/s
[2018-11-15 13:18:12] CPU #2: 1.48 kH/s
[2018-11-15 13:18:12] CPU #3: 1.47 kH/s
[2018-11-15 13:18:17] Total: 10.51 kH/s
[2018-11-15 13:18:22] CPU #4: 2.32 kH/s
[2018-11-15 13:18:22] CPU #5: 2.32 kH/s
[2018-11-15 13:18:22] Total: 10.51 kH/s
[2018-11-15 13:18:22] CPU #0: 1.46 kH/s
[2018-11-15 13:18:22] CPU #1: 1.48 kH/s
[2018-11-15 13:18:22] CPU #2: 1.48 kH/s
[2018-11-15 13:18:22] CPU #3: 1.47 kH/s
[2018-11-15 13:18:27] Total: 10.52 kH/s
[2018-11-15 13:18:32] CPU #5: 2.32 kH/s
[2018-11-15 13:18:32] Total: 10.50 kH/s
[2018-11-15 13:18:32] CPU #4: 2.31 kH/s
[2018-11-15 13:18:32] CPU #1: 1.48 kH/s
[2018-11-15 13:18:32] CPU #0: 1.46 kH/s
[2018-11-15 13:18:32] CPU #2: 1.48 kH/s
[2018-11-15 13:18:32] CPU #3: 1.46 kH/s
[2018-11-15 13:18:37] Total: 10.50 kH/s
[2018-11-15 13:18:42] CPU #5: 2.32 kH/s
[2018-11-15 13:18:42] Total: 10.48 kH/s
[2018-11-15 13:18:42] CPU #4: 2.32 kH/s
[2018-11-15 13:18:42] CPU #0: 1.46 kH/s
[2018-11-15 13:18:42] CPU #1: 1.48 kH/s
[2018-11-15 13:18:42] CPU #2: 1.48 kH/s
[2018-11-15 13:18:42] CPU #3: 1.47 kH/s
[2018-11-15 13:18:47] Total: 10.52 kH/s
[2018-11-15 13:18:52] CPU #4: 2.32 kH/s
[2018-11-15 13:18:52] CPU #5: 2.32 kH/s
[2018-11-15 13:18:52] Total: 10.52 kH/s
[2018-11-15 13:18:52] CPU #0: 1.46 kH/s
[2018-11-15 13:18:52] CPU #1: 1.48 kH/s
[2018-11-15 13:18:52] CPU #2: 1.48 kH/s
[2018-11-15 13:18:52] CPU #3: 1.47 kH/s
[2018-11-15 13:18:57] Total: 10.51 kH/s
[2018-11-15 13:19:02] CPU #5: 2.31 kH/s
[2018-11-15 13:19:02] Total: 10.51 kH/s
[2018-11-15 13:19:02] CPU #4: 2.30 kH/s
[2018-11-15 13:19:02] CPU #0: 1.46 kH/s
[2018-11-15 13:19:02] CPU #1: 1.48 kH/s
[2018-11-15 13:19:02] CPU #2: 1.48 kH/s
[2018-11-15 13:19:02] CPU #3: 1.46 kH/s
[2018-11-15 13:19:07] Total: 10.51 kH/s
[2018-11-15 13:19:12] CPU #4: 2.32 kH/s
[2018-11-15 13:19:12] CPU #5: 2.32 kH/s
[2018-11-15 13:19:12] Total: 10.50 kH/s
[2018-11-15 13:19:12] CPU #0: 1.46 kH/s
[2018-11-15 13:19:12] CPU #1: 1.48 kH/s
[2018-11-15 13:19:12] CPU #2: 1.48 kH/s
[2018-11-15 13:19:12] CPU #3: 1.46 kH/s
[2018-11-15 13:19:17] Total: 10.52 kH/s
[2018-11-15 13:19:22] CPU #5: 2.32 kH/s
[2018-11-15 13:19:22] Total: 10.52 kH/s
[2018-11-15 13:19:22] CPU #4: 2.29 kH/s
[2018-11-15 13:19:22] CPU #0: 1.46 kH/s
[2018-11-15 13:19:22] CPU #1: 1.48 kH/s
[2018-11-15 13:19:22] CPU #2: 1.48 kH/s
[2018-11-15 13:19:22] CPU #3: 1.46 kH/s
[2018-11-15 13:19:27] Total: 10.52 kH/s
[2018-11-15 13:19:32] CPU #4: 2.32 kH/s
[2018-11-15 13:19:32] CPU #5: 2.31 kH/s
[2018-11-15 13:19:32] Total: 10.51 kH/s
[2018-11-15 13:19:32] CPU #1: 1.48 kH/s
[2018-11-15 13:19:32] CPU #0: 1.46 kH/s
[2018-11-15 13:19:32] CPU #2: 1.48 kH/s
[2018-11-15 13:19:32] CPU #3: 1.46 kH/s
[2018-11-15 13:19:37] Total: 10.51 kH/s
[2018-11-15 13:19:42] CPU #4: 2.31 kH/s
[2018-11-15 13:19:42] CPU #5: 2.31 kH/s
[2018-11-15 13:19:42] Total: 10.48 kH/s
[2018-11-15 13:19:42] CPU #0: 1.46 kH/s
[2018-11-15 13:19:42] CPU #1: 1.48 kH/s
[2018-11-15 13:19:42] CPU #2: 1.48 kH/s
[2018-11-15 13:19:42] CPU #3: 1.47 kH/s
[2018-11-15 13:19:47] Total: 10.51 kH/s
[2018-11-15 13:19:52] CPU #4: 2.32 kH/s
[2018-11-15 13:19:52] CPU #5: 2.32 kH/s
[2018-11-15 13:19:52] Total: 10.52 kH/s
[2018-11-15 13:19:52] CPU #0: 1.46 kH/s
[2018-11-15 13:19:52] CPU #1: 1.48 kH/s
[2018-11-15 13:19:52] CPU #2: 1.48 kH/s
[2018-11-15 13:19:52] CPU #3: 1.46 kH/s
[2018-11-15 13:19:57] Total: 10.52 kH/s
[2018-11-15 13:20:02] CPU #4: 2.32 kH/s
[2018-11-15 13:20:02] CPU #5: 2.32 kH/s
[2018-11-15 13:20:02] Total: 10.52 kH/s
[2018-11-15 13:20:02] CPU #0: 1.46 kH/s
[2018-11-15 13:20:02] CPU #1: 1.48 kH/s
[2018-11-15 13:20:02] CPU #2: 1.48 kH/s
[2018-11-15 13:20:02] CPU #3: 1.47 kH/s
[2018-11-15 13:20:07] Total: 10.49 kH/s
[2018-11-15 13:20:12] CPU #4: 2.32 kH/s
[2018-11-15 13:20:12] CPU #5: 2.32 kH/s
[2018-11-15 13:20:12] Total: 10.51 kH/s
[2018-11-15 13:20:12] CPU #1: 1.48 kH/s
[2018-11-15 13:20:12] CPU #2: 1.48 kH/s
[2018-11-15 13:20:12] CPU #3: 1.46 kH/s
[2018-11-15 13:20:12] CPU #0: 1.44 kH/s
[2018-11-15 13:20:17] Total: 10.50 kH/s
[2018-11-15 13:20:22] CPU #4: 2.32 kH/s
[2018-11-15 13:20:22] CPU #5: 2.32 kH/s
[2018-11-15 13:20:22] Total: 10.52 kH/s
[2018-11-15 13:20:22] CPU #0: 1.46 kH/s
[2018-11-15 13:20:22] CPU #1: 1.48 kH/s
[2018-11-15 13:20:22] CPU #2: 1.48 kH/s
[2018-11-15 13:20:22] CPU #3: 1.47 kH/s
[2018-11-15 13:20:27] Total: 10.49 kH/s
[2018-11-15 13:20:32] CPU #4: 2.32 kH/s
[2018-11-15 13:20:32] CPU #5: 2.32 kH/s
[2018-11-15 13:20:32] Total: 10.51 kH/s
[2018-11-15 13:20:32] CPU #1: 1.48 kH/s
[2018-11-15 13:20:32] CPU #0: 1.46 kH/s
[2018-11-15 13:20:32] CPU #2: 1.48 kH/s
[2018-11-15 13:20:32] CPU #3: 1.47 kH/s
[2018-11-15 13:20:37] Total: 10.51 kH/s
[2018-11-15 13:20:42] CPU #4: 2.32 kH/s
[2018-11-15 13:20:42] CPU #5: 2.32 kH/s
[2018-11-15 13:20:42] Total: 10.51 kH/s
[2018-11-15 13:20:42] CPU #1: 1.48 kH/s
[2018-11-15 13:20:42] CPU #0: 1.46 kH/s
[2018-11-15 13:20:42] CPU #2: 1.48 kH/s
[2018-11-15 13:20:42] CPU #3: 1.47 kH/s
[2018-11-15 13:20:47] Total: 10.51 kH/s
[2018-11-15 13:20:52] CPU #4: 2.30 kH/s
[2018-11-15 13:20:52] CPU #5: 2.31 kH/s
[2018-11-15 13:20:52] Total: 10.47 kH/s
[2018-11-15 13:20:52] CPU #1: 1.48 kH/s
[2018-11-15 13:20:52] CPU #0: 1.46 kH/s
[2018-11-15 13:20:52] CPU #2: 1.48 kH/s
[2018-11-15 13:20:52] CPU #3: 1.46 kH/s
[2018-11-15 13:20:57] Total: 10.50 kH/s
Total Scores: 10.52,10.51,10.50,10.49,10.48,10.47
##########################################################################
Testing clockspeeds again. System health now:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
13:20:49: 1992/1512MHz 6.12 100% 0% 99% 0% 0% 0% 84.4°C
Checking cpufreq OPP for cpu0-cpu3:
Cpufreq OPP: 1512 Measured: 1503.488/1503.261/1502.946
Cpufreq OPP: 1416 Measured: 1406.844/1407.166/1406.798
Cpufreq OPP: 1200 Measured: 1191.678/1191.074/1191.128
Cpufreq OPP: 1008 Measured: 999.074/998.832/998.989
Cpufreq OPP: 816 Measured: 807.746/806.869/807.332
Cpufreq OPP: 600 Measured: 582.836/591.353/591.307
Cpufreq OPP: 408 Measured: 398.921/399.005/398.338
Checking cpufreq OPP for cpu4-cpu5:
Cpufreq OPP: 1992 Measured: 1986.030/1985.688/1986.592
Cpufreq OPP: 1800 Measured: 1794.229/1794.109/1793.949
Cpufreq OPP: 1608 Measured: 1602.191/1602.330/1602.291
Cpufreq OPP: 1416 Measured: 1410.240/1410.055/1410.348
Cpufreq OPP: 1200 Measured: 1194.254/1194.033/1193.813
Cpufreq OPP: 1008 Measured: 1002.309/1002.309/1002.358
Cpufreq OPP: 816 Measured: 809.923/810.231/810.012
Cpufreq OPP: 600 Measured: 593.396/593.663/593.510
Cpufreq OPP: 408 Measured: 401.747/401.699/401.718
##########################################################################
System health while running tinymembench:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
12:45:52: 1992/1512MHz 0.29 4% 1% 2% 0% 1% 0% 33.3°C
12:47:52: 1992/1512MHz 0.91 16% 0% 16% 0% 0% 0% 33.3°C
12:49:52: 1992/1512MHz 0.99 16% 0% 16% 0% 0% 0% 32.2°C
12:51:52: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 31.7°C
12:53:52: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 41.1°C
12:55:53: 1992/1512MHz 1.07 16% 0% 16% 0% 0% 0% 42.8°C
12:57:53: 1992/1512MHz 1.05 16% 0% 16% 0% 0% 0% 37.5°C
12:59:53: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 36.9°C
System health while running OpenSSL benchmark:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
13:00:29: 1992/1512MHz 1.00 14% 0% 13% 0% 0% 0% 37.5°C
13:00:39: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 34.4°C
13:00:49: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 39.4°C
13:00:59: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 40.6°C
13:01:09: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 36.9°C
13:01:19: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 35.0°C
13:01:29: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 40.6°C
13:01:40: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 41.7°C
13:01:50: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 35.6°C
13:02:00: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 38.1°C
13:02:10: 1992/1512MHz 1.00 16% 0% 16% 0% 0% 0% 41.7°C
System health while running 7-zip single core benchmark:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
13:02:17: 1992/1512MHz 1.00 14% 0% 13% 0% 0% 0% 42.2°C
13:03:17: 1992/1512MHz 3.16 16% 0% 16% 0% 0% 0% 33.3°C
13:04:17: 1992/1512MHz 3.89 16% 0% 16% 0% 0% 0% 32.8°C
13:05:17: 1992/1512MHz 3.56 16% 0% 16% 0% 0% 0% 32.8°C
13:06:17: 1992/1512MHz 3.87 16% 0% 16% 0% 0% 0% 33.3°C
13:07:18: 1992/1512MHz 3.63 16% 0% 16% 0% 0% 0% 32.8°C
13:08:18: 1992/1512MHz 3.72 16% 0% 16% 0% 0% 0% 32.2°C
13:09:18: 1992/1512MHz 4.89 16% 0% 16% 0% 0% 0% 40.0°C
13:10:18: 1992/1512MHz 4.57 16% 0% 16% 0% 0% 0% 40.6°C
13:11:18: 1992/1512MHz 4.27 16% 0% 16% 0% 0% 0% 41.1°C
13:12:18: 1992/1512MHz 4.04 16% 0% 16% 0% 0% 0% 41.1°C
System health while running 7-zip multi core benchmark:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
13:12:38: 1992/1512MHz 4.59 15% 0% 14% 0% 0% 0% 43.3°C
13:12:59: 1992/1512MHz 5.06 81% 0% 80% 0% 0% 0% 57.2°C
13:13:19: 1992/1512MHz 5.05 81% 1% 80% 0% 0% 0% 55.0°C
13:13:39: 1992/1512MHz 5.38 95% 1% 93% 0% 0% 0% 56.1°C
13:13:59: 1992/1512MHz 5.22 77% 0% 76% 0% 0% 0% 58.3°C
13:14:21: 1992/1512MHz 5.32 87% 1% 86% 0% 0% 0% 61.2°C
13:14:42: 1992/1512MHz 5.76 88% 1% 87% 0% 0% 0% 57.8°C
13:15:02: 1992/1512MHz 5.35 78% 0% 77% 0% 0% 0% 62.5°C
13:15:23: 1992/1512MHz 5.53 83% 1% 82% 0% 0% 0% 59.4°C
13:15:43: 1992/1512MHz 5.08 83% 1% 82% 0% 0% 0% 59.4°C
System health while running cpuminer:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
13:16:02: 1992/1512MHz 5.11 22% 0% 21% 0% 0% 0% 58.3°C
13:16:23: 1992/1512MHz 5.36 99% 0% 99% 0% 0% 0% 72.8°C
13:16:46: 1992/1512MHz 5.64 100% 0% 99% 0% 0% 0% 75.6°C
13:17:08: 1992/1512MHz 5.74 100% 0% 99% 0% 0% 0% 77.5°C
13:17:30: 1992/1512MHz 5.89 100% 0% 99% 0% 0% 0% 79.4°C
13:17:52: 1992/1512MHz 5.92 100% 0% 99% 0% 0% 0% 80.6°C
13:18:14: 1992/1512MHz 6.00 100% 0% 99% 0% 0% 0% 81.1°C
13:18:36: 1992/1512MHz 6.00 100% 0% 99% 0% 0% 0% 82.2°C
13:18:58: 1992/1512MHz 6.00 100% 0% 99% 0% 0% 0% 82.8°C
13:19:20: 1992/1512MHz 6.06 100% 0% 99% 0% 0% 0% 83.3°C
13:19:42: 1992/1512MHz 6.04 100% 0% 99% 0% 0% 0% 83.3°C
13:20:05: 1992/1512MHz 6.14 100% 0% 99% 0% 0% 0% 83.9°C
13:20:27: 1992/1512MHz 6.10 100% 0% 99% 0% 0% 0% 84.4°C
13:20:49: 1992/1512MHz 6.12 100% 0% 99% 0% 0% 0% 84.4°C
Throttling statistics (time spent on each cpufreq OPP) for CPUs 4-5:
1992 MHz: 2109.54 sec
1800 MHz: 0 sec
1608 MHz: 0.12 sec
1416 MHz: 0.05 sec
1200 MHz: 0 sec
1008 MHz: 0 sec
816 MHz: 0 sec
600 MHz: 0 sec
408 MHz: 0 sec
##########################################################################
dmesg output while running the benchmarks:
[ 233.157748] wl_run_escan: LEGACY_SCAN sync ID: 6, bssidx: 0
[ 296.143381] wl_run_escan: LEGACY_SCAN sync ID: 7, bssidx: 0
[ 359.105988] wl_run_escan: LEGACY_SCAN sync ID: 8, bssidx: 0
[ 422.163818] wl_run_escan: LEGACY_SCAN sync ID: 9, bssidx: 0
[ 485.165887] wl_run_escan: LEGACY_SCAN sync ID: 10, bssidx: 0
[ 548.150264] wl_run_escan: LEGACY_SCAN sync ID: 11, bssidx: 0
[ 611.113023] wl_run_escan: LEGACY_SCAN sync ID: 12, bssidx: 0
[ 674.175224] wl_run_escan: LEGACY_SCAN sync ID: 13, bssidx: 0
[ 737.125855] wl_run_escan: LEGACY_SCAN sync ID: 14, bssidx: 0
[ 800.157179] wl_run_escan: LEGACY_SCAN sync ID: 15, bssidx: 0
[ 801.387168] EVENT_LOG_HDR[0x1]: Set: 0x00000000 length = 1028
[ 863.120822] wl_run_escan: LEGACY_SCAN sync ID: 16, bssidx: 0
[ 926.131824] wl_run_escan: LEGACY_SCAN sync ID: 17, bssidx: 0
[ 989.182257] wl_run_escan: LEGACY_SCAN sync ID: 18, bssidx: 0
[ 1052.164299] wl_run_escan: LEGACY_SCAN sync ID: 19, bssidx: 0
[ 1115.129158] wl_run_escan: LEGACY_SCAN sync ID: 20, bssidx: 0
[ 1178.188098] wl_run_escan: LEGACY_SCAN sync ID: 21, bssidx: 0
[ 1241.157870] wl_run_escan: LEGACY_SCAN sync ID: 22, bssidx: 0
[ 1304.175933] wl_run_escan: LEGACY_SCAN sync ID: 23, bssidx: 0
[ 1367.195633] wl_run_escan: LEGACY_SCAN sync ID: 24, bssidx: 0
[ 1430.198115] wl_run_escan: LEGACY_SCAN sync ID: 25, bssidx: 0
[ 1493.176438] wl_run_escan: LEGACY_SCAN sync ID: 26, bssidx: 0
[ 1493.177851] EVENT_LOG_HDR[0x2]: Set: 0x00000000 length = 1028
[ 1556.181904] wl_run_escan: LEGACY_SCAN sync ID: 27, bssidx: 0
[ 1619.163163] wl_run_escan: LEGACY_SCAN sync ID: 28, bssidx: 0
[ 1682.144637] wl_run_escan: LEGACY_SCAN sync ID: 29, bssidx: 0
[ 1745.207219] wl_run_escan: LEGACY_SCAN sync ID: 30, bssidx: 0
[ 1808.191449] wl_run_escan: LEGACY_SCAN sync ID: 31, bssidx: 0
[ 1871.205819] wl_run_escan: LEGACY_SCAN sync ID: 32, bssidx: 0
[ 1934.211859] wl_run_escan: LEGACY_SCAN sync ID: 33, bssidx: 0
[ 1997.215628] wl_run_escan: LEGACY_SCAN sync ID: 34, bssidx: 0
[ 2060.216167] wl_run_escan: LEGACY_SCAN sync ID: 35, bssidx: 0
[ 2123.166215] wl_run_escan: LEGACY_SCAN sync ID: 36, bssidx: 0
[ 2124.327018] EVENT_LOG_HDR[0x3]: Set: 0x00000000 length = 1028
[ 2186.221253] wl_run_escan: LEGACY_SCAN sync ID: 37, bssidx: 0
[ 2249.222669] wl_run_escan: LEGACY_SCAN sync ID: 38, bssidx: 0
[ 2312.226513] wl_run_escan: LEGACY_SCAN sync ID: 39, bssidx: 0
##########################################################################
Linux 4.4.154 (Khadas) 11/15/18 _aarch64_ (6 CPU)
avg-cpu: %user %nice %system %iowait %steal %idle
31.56 0.05 0.36 0.14 0.00 67.89
Device tps kB_read/s kB_wrtn/s kB_read kB_wrtn
mmcblk0 4.53 95.57 57.65 224787 135593
mmcblk1 0.30 8.25 0.00 19408 0
mmcblk1boot1 0.02 0.09 0.00 216 0
mmcblk1boot0 0.02 0.09 0.00 216 0
zram1 0.12 0.50 0.00 1168 4
zram2 0.12 0.50 0.00 1168 4
zram3 0.12 0.50 0.00 1168 4
zram4 0.12 0.50 0.00 1168 4
total used free shared buff/cache available
Mem: 3.7G 82M 3.3G 3.7M 299M 3.6G
Swap: 1.0G 0B 1.0G
Filename Type Size Used Priority
/dev/zram1 partition 262140 0 5
/dev/zram2 partition 262140 0 5
/dev/zram3 partition 262140 0 5
/dev/zram4 partition 262140 0 5
Architecture: aarch64
Byte Order: Little Endian
CPU(s): 6
On-line CPU(s) list: 0-5
Thread(s) per core: 1
Core(s) per socket: 3
Socket(s): 2
Vendor ID: ARM
Model: 4
Model name: Cortex-A53
Stepping: r0p4
CPU max MHz: 1992.0000
CPU min MHz: 408.0000
BogoMIPS: 48.00
Flags: fp asimd evtstrm aes pmull sha1 sha2 crc32