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1iLy.txt
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sbc-bench v0.4.3 Hardkernel Odroid XU4 (Mon, 30 Jul 2018 19:24:40 +0300)
Distributor ID: Ubuntu
Description: Ubuntu 18.04.1 LTS
Release: 18.04
Codename: bionic
Architecture: armhf
Uptime: 19:24:40 up 1:06, 2 users, load average: 0,99, 0,51, 1,03
Linux 4.14.55-146 (odroidxu4) 30.07.2018 _armv7l_ (8 CPU)
avg-cpu: %user %nice %system %iowait %steal %idle
10,24 0,02 0,70 0,03 0,00 89,01
Device tps kB_read/s kB_wrtn/s kB_read kB_wrtn
mmcblk0 5,96 99,25 93,15 393938 369716
mmcblk0boot1 0,01 0,05 0,00 216 0
mmcblk0boot0 0,01 0,05 0,00 216 0
zram0 0,11 0,30 0,13 1192 516
zram1 0,11 0,30 0,13 1192 516
zram2 0,11 0,30 0,13 1192 516
zram3 0,11 0,30 0,13 1192 516
zram4 0,11 0,31 0,13 1236 516
zram5 0,11 0,31 0,13 1224 516
zram6 0,10 0,31 0,08 1228 312
zram7 0,15 0,57 0,03 2276 136
всего занято свободно общая буф./врем. доступно
Память: 1,9G 102M 1,5G 3,1M 399M 1,8G
Подкачка: 997M 3,8M 993M
Имя файла Тип Размер Исп-но Приоритет
/dev/zram0 partition 127648 512 5
/dev/zram1 partition 127648 512 5
/dev/zram2 partition 127648 512 5
/dev/zram3 partition 127648 512 5
/dev/zram4 partition 127648 512 5
/dev/zram5 partition 127648 512 5
/dev/zram6 partition 127648 512 5
/dev/zram7 partition 127648 256 5
##########################################################################
Checking cpufreq OPP for cpu0-cpu3:
Cpufreq OPP: 200 Measured: 196.194/196.610/196.061
Cpufreq OPP: 300 Measured: 295.767/296.038/295.631
Cpufreq OPP: 400 Measured: 395.569/395.135/395.721
Cpufreq OPP: 500 Measured: 494.941/495.370/494.883
Cpufreq OPP: 600 Measured: 594.664/594.938/594.544
Cpufreq OPP: 700 Measured: 694.147/694.365/694.723
Cpufreq OPP: 800 Measured: 794.019/794.191/793.962
Cpufreq OPP: 900 Measured: 892.823/893.586/893.451
Cpufreq OPP: 1000 Measured: 993.226/993.155/992.713
Cpufreq OPP: 1100 Measured: 1092.494/1092.899/1092.968
Cpufreq OPP: 1200 Measured: 1191.706/1192.958/1191.953
Cpufreq OPP: 1300 Measured: 1291.594/1292.160/1292.014
Cpufreq OPP: 1400 Measured: 1391.457/1391.772/1391.772
Cpufreq OPP: 1500 Measured: 1490.886/1490.610/1491.437
Checking cpufreq OPP for cpu4-cpu7:
Cpufreq OPP: 200 Measured: 196.101/196.537/196.510
Cpufreq OPP: 300 Measured: 296.025/295.809/296.190
Cpufreq OPP: 400 Measured: 395.305/394.835/395.278
Cpufreq OPP: 500 Measured: 495.405/495.335/494.848
Cpufreq OPP: 600 Measured: 594.818/594.697/595.032
Cpufreq OPP: 700 Measured: 694.300/694.023/694.650
Cpufreq OPP: 800 Measured: 793.828/793.971/794.153
Cpufreq OPP: 900 Measured: 893.190/893.634/893.219
Cpufreq OPP: 1000 Measured: 992.857/993.417/992.129
Cpufreq OPP: 1100 Measured: 1092.853/1092.645/1092.945
Cpufreq OPP: 1200 Measured: 1191.871/1192.077/1192.490
Cpufreq OPP: 1300 Measured: 1291.506/1292.113/1291.260
Cpufreq OPP: 1400 Measured: 1390.977/1391.232/1391.352
Cpufreq OPP: 1500 Measured: 1490.266/1491.333/1490.989
Cpufreq OPP: 1600 Measured: 1590.606/1589.803/1590.743
Cpufreq OPP: 1700 Measured: 1689.703/1689.916/1689.880
Cpufreq OPP: 1800 Measured: 1789.554/1789.276/1789.832
Cpufreq OPP: 1900 Measured: 1889.833/1888.948/1888.285
Cpufreq OPP: 2000 Measured: 1988.354/1987.815/1988.427
##########################################################################
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 : 219.7 MB/s
C copy backwards (32 byte blocks) : 287.5 MB/s
C copy backwards (64 byte blocks) : 298.0 MB/s
C copy : 298.3 MB/s
C copy prefetched (32 bytes step) : 544.4 MB/s
C copy prefetched (64 bytes step) : 703.0 MB/s
C 2-pass copy : 297.4 MB/s
C 2-pass copy prefetched (32 bytes step) : 401.3 MB/s
C 2-pass copy prefetched (64 bytes step) : 435.1 MB/s
C fill : 802.6 MB/s (0.1%)
C fill (shuffle within 16 byte blocks) : 802.3 MB/s
C fill (shuffle within 32 byte blocks) : 515.8 MB/s (0.2%)
C fill (shuffle within 64 byte blocks) : 513.9 MB/s
---
standard memcpy : 391.7 MB/s
standard memset : 800.5 MB/s
---
NEON read : 514.5 MB/s
NEON read prefetched (32 bytes step) : 979.8 MB/s
NEON read prefetched (64 bytes step) : 1029.7 MB/s
NEON read 2 data streams : 478.5 MB/s
NEON read 2 data streams prefetched (32 bytes step) : 980.5 MB/s
NEON read 2 data streams prefetched (64 bytes step) : 1021.9 MB/s
NEON copy : 303.7 MB/s
NEON copy prefetched (32 bytes step) : 716.5 MB/s
NEON copy prefetched (64 bytes step) : 742.2 MB/s
NEON unrolled copy : 297.0 MB/s
NEON unrolled copy prefetched (32 bytes step) : 446.0 MB/s
NEON unrolled copy prefetched (64 bytes step) : 670.6 MB/s
NEON copy backwards : 298.1 MB/s
NEON copy backwards prefetched (32 bytes step) : 711.5 MB/s
NEON copy backwards prefetched (64 bytes step) : 738.1 MB/s
NEON 2-pass copy : 295.1 MB/s
NEON 2-pass copy prefetched (32 bytes step) : 422.5 MB/s
NEON 2-pass copy prefetched (64 bytes step) : 445.4 MB/s
NEON unrolled 2-pass copy : 279.4 MB/s
NEON unrolled 2-pass copy prefetched (32 bytes step) : 374.6 MB/s
NEON unrolled 2-pass copy prefetched (64 bytes step) : 417.9 MB/s
NEON fill : 802.4 MB/s (0.1%)
NEON fill backwards : 802.5 MB/s
VFP copy : 298.3 MB/s
VFP 2-pass copy : 284.0 MB/s
ARM fill (STRD) : 801.0 MB/s (0.1%)
ARM fill (STM with 8 registers) : 802.3 MB/s
ARM fill (STM with 4 registers) : 801.9 MB/s
ARM copy prefetched (incr pld) : 714.2 MB/s
ARM copy prefetched (wrap pld) : 658.6 MB/s
ARM 2-pass copy prefetched (incr pld) : 426.2 MB/s
ARM 2-pass copy prefetched (wrap pld) : 411.4 MB/s
==========================================================================
== 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 read (from framebuffer) : 70.0 MB/s
NEON copy (from framebuffer) : 69.5 MB/s
NEON 2-pass copy (from framebuffer) : 64.0 MB/s
NEON unrolled copy (from framebuffer) : 65.9 MB/s
NEON 2-pass unrolled copy (from framebuffer) : 63.5 MB/s (0.3%)
VFP copy (from framebuffer) : 321.4 MB/s
VFP 2-pass copy (from framebuffer) : 293.3 MB/s
ARM copy (from framebuffer) : 259.6 MB/s
ARM 2-pass copy (from framebuffer) : 195.4 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 : 0.0 ns / 0.0 ns
65536 : 3.9 ns / 7.0 ns
131072 : 6.0 ns / 10.1 ns
262144 : 7.1 ns / 11.5 ns
524288 : 9.7 ns / 15.2 ns
1048576 : 76.7 ns / 119.2 ns
2097152 : 116.0 ns / 156.9 ns
4194304 : 136.5 ns / 170.7 ns
8388608 : 147.9 ns / 178.5 ns
16777216 : 156.4 ns / 186.2 ns
33554432 : 164.9 ns / 197.5 ns
67108864 : 176.2 ns / 217.2 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 : 1182.9 MB/s
C copy backwards (32 byte blocks) : 1206.5 MB/s
C copy backwards (64 byte blocks) : 2463.5 MB/s
C copy : 2685.7 MB/s
C copy prefetched (32 bytes step) : 2955.6 MB/s
C copy prefetched (64 bytes step) : 3034.4 MB/s
C 2-pass copy : 1401.3 MB/s
C 2-pass copy prefetched (32 bytes step) : 1658.3 MB/s
C 2-pass copy prefetched (64 bytes step) : 1671.2 MB/s
C fill : 4873.8 MB/s (0.8%)
C fill (shuffle within 16 byte blocks) : 1710.5 MB/s
C fill (shuffle within 32 byte blocks) : 1710.7 MB/s
C fill (shuffle within 64 byte blocks) : 1811.4 MB/s
---
standard memcpy : 2236.7 MB/s
standard memset : 4881.5 MB/s (1.1%)
---
NEON read : 3351.6 MB/s
NEON read prefetched (32 bytes step) : 4218.7 MB/s (0.1%)
NEON read prefetched (64 bytes step) : 4224.3 MB/s
NEON read 2 data streams : 3384.6 MB/s (1.1%)
NEON read 2 data streams prefetched (32 bytes step) : 4342.9 MB/s
NEON read 2 data streams prefetched (64 bytes step) : 4347.7 MB/s
NEON copy : 2521.2 MB/s
NEON copy prefetched (32 bytes step) : 2820.5 MB/s
NEON copy prefetched (64 bytes step) : 2808.2 MB/s
NEON unrolled copy : 2174.3 MB/s (0.2%)
NEON unrolled copy prefetched (32 bytes step) : 3148.1 MB/s (0.2%)
NEON unrolled copy prefetched (64 bytes step) : 3163.7 MB/s
NEON copy backwards : 1171.6 MB/s
NEON copy backwards prefetched (32 bytes step) : 1368.8 MB/s
NEON copy backwards prefetched (64 bytes step) : 1368.7 MB/s
NEON 2-pass copy : 2081.1 MB/s
NEON 2-pass copy prefetched (32 bytes step) : 2145.8 MB/s
NEON 2-pass copy prefetched (64 bytes step) : 2148.1 MB/s
NEON unrolled 2-pass copy : 1353.5 MB/s
NEON unrolled 2-pass copy prefetched (32 bytes step) : 1715.8 MB/s
NEON unrolled 2-pass copy prefetched (64 bytes step) : 1735.5 MB/s
NEON fill : 4865.8 MB/s (1.4%)
NEON fill backwards : 1718.4 MB/s
VFP copy : 2381.0 MB/s
VFP 2-pass copy : 1301.1 MB/s
ARM fill (STRD) : 4878.9 MB/s (0.9%)
ARM fill (STM with 8 registers) : 4877.9 MB/s (0.2%)
ARM fill (STM with 4 registers) : 4884.6 MB/s (0.2%)
ARM copy prefetched (incr pld) : 2890.5 MB/s
ARM copy prefetched (wrap pld) : 2719.8 MB/s
ARM 2-pass copy prefetched (incr pld) : 1652.4 MB/s
ARM 2-pass copy prefetched (wrap pld) : 1607.4 MB/s
==========================================================================
== 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 read (from framebuffer) : 245.6 MB/s (0.8%)
NEON copy (from framebuffer) : 246.2 MB/s
NEON 2-pass copy (from framebuffer) : 234.6 MB/s (1.2%)
NEON unrolled copy (from framebuffer) : 236.8 MB/s
NEON 2-pass unrolled copy (from framebuffer) : 219.7 MB/s
VFP copy (from framebuffer) : 448.4 MB/s (0.2%)
VFP 2-pass copy (from framebuffer) : 402.4 MB/s
ARM copy (from framebuffer) : 218.7 MB/s
ARM 2-pass copy (from framebuffer) : 204.8 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 : 0.0 ns / 0.1 ns
65536 : 4.4 ns / 6.8 ns
131072 : 6.7 ns / 9.0 ns
262144 : 9.6 ns / 11.9 ns
524288 : 11.1 ns / 13.6 ns
1048576 : 12.0 ns / 14.5 ns
2097152 : 20.3 ns / 28.7 ns
4194304 : 95.9 ns / 143.3 ns
8388608 : 134.5 ns / 181.4 ns
16777216 : 154.2 ns / 197.8 ns
33554432 : 170.4 ns / 216.6 ns
67108864 : 180.2 ns / 231.5 ns
##########################################################################
OpenSSL (version 1.1.0g, built on 2 Nov 2017)
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes 16384 bytes
aes-128-cbc 29132.33k 35299.97k 37795.75k 38396.59k 38677.16k 38682.62k
aes-128-cbc 74724.59k 86841.64k 93391.36k 95174.31k 95666.18k 95933.78k
aes-192-cbc 25960.59k 30558.78k 32356.35k 32820.91k 32890.88k 32964.61k
aes-192-cbc 66393.24k 75637.27k 80367.45k 81737.05k 82119.34k 82051.07k
aes-256-cbc 23190.50k 27172.86k 28367.02k 28755.97k 28871.34k 28895.91k
aes-256-cbc 59359.98k 66782.42k 70469.97k 71398.06k 71740.07k 71527.08k
##########################################################################
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=ru_RU.UTF-8,Utf16=on,HugeFiles=on,32 bits,8 CPUs LE)
LE
CPU Freq: 1376 1448 1478 1472 1478 1477 1478 1478 1478
RAM size: 1994 MB, # CPU hardware threads: 8
RAM usage: 1765 MB, # Benchmark threads: 8
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 668 99 659 650 | 13873 99 1196 1183
23: 652 99 674 665 | 13607 99 1190 1178
24: 636 99 693 684 | 13320 99 1182 1169
25: 618 99 716 707 | 12941 99 1164 1152
---------------------------------- | ------------------------------
Avr: 99 685 676 | 99 1183 1170
Tot: 99 934 923
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=ru_RU.UTF-8,Utf16=on,HugeFiles=on,32 bits,8 CPUs LE)
LE
CPU Freq: 1982 1987 1987 1987 1987 1987 1988 1987 1987
RAM size: 1994 MB, # CPU hardware threads: 8
RAM usage: 1765 MB, # Benchmark threads: 8
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 1297 99 1272 1262 | 23343 99 2005 1991
23: 1264 99 1299 1288 | 22835 99 1991 1976
24: 1218 99 1322 1310 | 22259 99 1968 1954
25: 1194 99 1376 1364 | 21546 99 1931 1918
---------------------------------- | ------------------------------
Avr: 99 1317 1306 | 99 1974 1960
Tot: 99 1646 1633
##########################################################################
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=ru_RU.UTF-8,Utf16=on,HugeFiles=on,32 bits,8 CPUs LE)
LE
CPU Freq: 1962 1966 1979 1985 1986 1986 1986 1986 1986
RAM size: 1994 MB, # CPU hardware threads: 8
RAM usage: 1765 MB, # Benchmark threads: 8
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 4083 463 859 3972 | 111005 627 1511 9468
23: 6589 670 1003 6714 | 108971 629 1500 9430
24: 3990 480 894 4291 | 106430 628 1487 9341
25: 4275 506 964 4881 | 102821 630 1453 9151
---------------------------------- | ------------------------------
Avr: 530 930 4965 | 628 1488 9348
Tot: 579 1209 7156
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=ru_RU.UTF-8,Utf16=on,HugeFiles=on,32 bits,8 CPUs LE)
LE
CPU Freq: 1985 1988 1988 1986 1987 1987 1987 1987 1987
RAM size: 1994 MB, # CPU hardware threads: 8
RAM usage: 1765 MB, # Benchmark threads: 8
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 5665 564 977 5512 | 111203 628 1511 9485
23: 4303 506 866 4385 | 108913 627 1503 9425
24: 4092 467 941 4400 | 106440 629 1485 9342
25: 4831 558 988 5516 | 102940 630 1454 9161
---------------------------------- | ------------------------------
Avr: 524 943 4953 | 628 1488 9353
Tot: 576 1216 7153
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=ru_RU.UTF-8,Utf16=on,HugeFiles=on,32 bits,8 CPUs LE)
LE
CPU Freq: 1985 1988 1985 1988 1987 1986 1988 1988 1988
RAM size: 1994 MB, # CPU hardware threads: 8
RAM usage: 1765 MB, # Benchmark threads: 8
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 4129 468 859 4017 | 111142 626 1515 9480
23: 5509 564 995 5614 | 109271 628 1506 9456
24: 3983 507 845 4283 | 106525 629 1487 9350
25: 4007 478 957 4576 | 102813 630 1452 9150
---------------------------------- | ------------------------------
Avr: 504 914 4623 | 628 1490 9359
Tot: 566 1202 6991
Compression: 4965,4953,4623
Decompression: 9348,9353,9359
Total: 7156,7153,6991
##########################################################################
Testing clockspeeds again. System health now:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
19:56:06: 2000/1500MHz 6.04 73% 2% 69% 0% 0% 1% 63.0°C
Checking cpufreq OPP for cpu0-cpu3:
Cpufreq OPP: 200 Measured: 196.310/195.917/196.285
Cpufreq OPP: 300 Measured: 295.683/295.818/295.822
Cpufreq OPP: 400 Measured: 395.684/395.287/395.029
Cpufreq OPP: 500 Measured: 494.791/495.312/494.848
Cpufreq OPP: 600 Measured: 594.403/594.985/594.898
Cpufreq OPP: 700 Measured: 694.482/694.030/694.256
Cpufreq OPP: 800 Measured: 794.229/794.172/794.258
Cpufreq OPP: 900 Measured: 893.470/893.808/893.509
Cpufreq OPP: 1000 Measured: 992.916/993.621/992.570
Cpufreq OPP: 1100 Measured: 1092.518/1093.119/1092.691
Cpufreq OPP: 1200 Measured: 1191.994/1192.765/1192.476
Cpufreq OPP: 1300 Measured: 1291.901/1291.562/1291.933
Cpufreq OPP: 1400 Measured: 1391.457/1391.832/1391.457
Cpufreq OPP: 1500 Measured: 1491.041/1491.092/1490.851
Checking cpufreq OPP for cpu4-cpu7:
Cpufreq OPP: 200 Measured: 196.123/196.639/196.479
Cpufreq OPP: 300 Measured: 295.883/296.262/295.877
Cpufreq OPP: 400 Measured: 395.024/395.555/395.426
Cpufreq OPP: 500 Measured: 495.086/495.178/495.039
Cpufreq OPP: 600 Measured: 595.019/594.617/594.530
Cpufreq OPP: 700 Measured: 694.241/694.409/694.322
Cpufreq OPP: 800 Measured: 793.809/794.010/793.828
Cpufreq OPP: 900 Measured: 893.586/893.644/893.915
Cpufreq OPP: 1000 Measured: 993.716/992.785/993.191
Cpufreq OPP: 1100 Measured: 1092.864/1092.679/1092.876
Cpufreq OPP: 1200 Measured: 1191.857/1192.311/1192.545
Cpufreq OPP: 1300 Measured: 1292.139/1291.648/1291.699
Cpufreq OPP: 1400 Measured: 1391.127/1391.127/1390.977
Cpufreq OPP: 1500 Measured: 1490.679/1491.282/1490.817
Cpufreq OPP: 1600 Measured: 1590.371/1590.900/1590.391
Cpufreq OPP: 1700 Measured: 1690.199/1690.022/1689.986
Cpufreq OPP: 1800 Measured: 1789.157/1789.058/1789.455
Cpufreq OPP: 1900 Measured: 1888.860/1888.860/1888.926
Cpufreq OPP: 2000 Measured: 1989.212/1988.525/1988.746
##########################################################################
System health while running tinymembench:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
19:25:02: 2000/1500MHz 0.93 10% 0% 10% 0% 0% 0% 39.0°C
19:26:02: 2000/1500MHz 0.98 12% 0% 12% 0% 0% 0% 38.0°C
19:27:02: 2000/1500MHz 0.99 12% 0% 12% 0% 0% 0% 38.0°C
19:28:02: 2000/1500MHz 1.03 12% 0% 12% 0% 0% 0% 36.0°C
19:29:02: 2000/1500MHz 1.01 12% 0% 12% 0% 0% 0% 37.0°C
19:30:02: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 37.0°C
19:31:02: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 44.0°C
19:32:02: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 45.0°C
19:33:02: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 42.0°C
19:34:02: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 41.0°C
19:35:02: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 40.0°C
System health while running OpenSSL benchmark:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
19:35:34: 2000/1500MHz 1.00 11% 0% 10% 0% 0% 0% 41.0°C
19:35:44: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 37.0°C
19:35:54: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 41.0°C
19:36:04: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 41.0°C
19:36:14: 2000/1500MHz 1.00 12% 0% 12% 0% 0% 0% 38.0°C
19:36:24: 2000/1500MHz 1.07 12% 0% 12% 0% 0% 0% 36.0°C
19:36:34: 2000/1500MHz 1.06 12% 0% 12% 0% 0% 0% 42.0°C
19:36:45: 2000/1500MHz 1.05 12% 0% 12% 0% 0% 0% 42.0°C
19:36:55: 2000/1500MHz 1.04 12% 0% 12% 0% 0% 0% 37.0°C
19:37:05: 2000/1500MHz 1.03 12% 0% 12% 0% 0% 0% 39.0°C
19:37:15: 2000/1500MHz 1.03 12% 0% 12% 0% 0% 0% 42.0°C
System health while running 7-zip single core benchmark:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
19:37:22: 2000/1500MHz 1.02 11% 0% 10% 0% 0% 0% 45.0°C
19:37:37: 2000/1500MHz 1.56 12% 0% 11% 0% 0% 0% 38.0°C
19:37:52: 2000/1500MHz 2.10 12% 0% 11% 0% 0% 0% 37.0°C
19:38:07: 2000/1500MHz 3.41 12% 0% 12% 0% 0% 0% 36.0°C
19:38:22: 2000/1500MHz 4.43 12% 0% 12% 0% 0% 0% 36.0°C
19:38:38: 2000/1500MHz 4.54 12% 0% 11% 0% 0% 0% 37.0°C
19:38:53: 2000/1500MHz 4.56 12% 0% 11% 0% 0% 0% 36.0°C
19:39:08: 2000/1500MHz 4.59 12% 0% 11% 0% 0% 0% 36.0°C
19:39:23: 2000/1500MHz 4.46 12% 0% 11% 0% 0% 0% 36.0°C
19:39:38: 2000/1500MHz 5.24 12% 0% 12% 0% 0% 0% 36.0°C
19:39:53: 2000/1500MHz 5.85 12% 0% 12% 0% 0% 0% 36.0°C
19:40:08: 2000/1500MHz 5.57 12% 0% 11% 0% 0% 0% 36.0°C
19:40:23: 2000/1500MHz 5.36 12% 0% 11% 0% 0% 0% 36.0°C
19:40:38: 2000/1500MHz 5.27 12% 0% 11% 0% 0% 0% 37.0°C
19:40:53: 2000/1500MHz 4.99 12% 0% 12% 0% 0% 0% 36.0°C
19:41:08: 2000/1500MHz 5.07 12% 0% 11% 0% 0% 0% 36.0°C
19:41:23: 2000/1500MHz 4.90 12% 0% 12% 0% 0% 0% 36.0°C
19:41:38: 2000/1500MHz 4.77 12% 0% 12% 0% 0% 0% 36.0°C
19:41:53: 2000/1500MHz 5.21 12% 0% 11% 0% 0% 0% 36.0°C
19:42:08: 2000/1500MHz 5.83 12% 0% 12% 0% 0% 0% 36.0°C
19:42:23: 2000/1500MHz 6.31 12% 0% 12% 0% 0% 0% 36.0°C
19:42:38: 2000/1500MHz 5.82 12% 1% 11% 0% 0% 0% 36.0°C
19:42:53: 2000/1500MHz 5.49 12% 0% 12% 0% 0% 0% 36.0°C
19:43:09: 2000/1500MHz 5.32 12% 0% 11% 0% 0% 0% 36.0°C
19:43:24: 2000/1500MHz 5.10 12% 0% 12% 0% 0% 0% 36.0°C
19:43:39: 2000/1500MHz 4.93 12% 0% 11% 0% 0% 0% 36.0°C
19:43:54: 2000/1500MHz 4.87 12% 0% 12% 0% 0% 0% 36.0°C
19:44:09: 2000/1500MHz 4.75 12% 0% 12% 0% 0% 0% 36.0°C
19:44:24: 2000/1500MHz 4.67 12% 0% 12% 0% 0% 0% 36.0°C
19:44:39: 2000/1500MHz 4.59 12% 0% 12% 0% 0% 0% 36.0°C
19:44:54: 2000/1500MHz 4.67 12% 0% 12% 0% 0% 0% 37.0°C
19:45:09: 2000/1500MHz 4.60 12% 0% 12% 0% 0% 0% 36.0°C
19:45:24: 2000/1500MHz 4.55 12% 0% 11% 0% 0% 0% 36.0°C
19:45:39: 2000/1500MHz 4.57 12% 0% 11% 0% 0% 0% 36.0°C
19:45:54: 2000/1500MHz 4.60 12% 0% 11% 0% 0% 0% 36.0°C
19:46:09: 2000/1500MHz 5.15 12% 0% 11% 0% 0% 0% 36.0°C
19:46:24: 2000/1500MHz 5.79 12% 0% 12% 0% 0% 0% 35.0°C
19:46:39: 2000/1500MHz 6.28 12% 0% 12% 0% 0% 0% 36.0°C
19:46:54: 2000/1500MHz 5.64 12% 0% 11% 0% 0% 0% 42.0°C
19:47:09: 2000/1500MHz 6.16 12% 0% 12% 0% 0% 0% 42.0°C
19:47:24: 2000/1500MHz 6.57 12% 0% 12% 0% 0% 0% 42.0°C
19:47:40: 2000/1500MHz 6.35 12% 0% 11% 0% 0% 0% 43.0°C
19:47:55: 2000/1500MHz 5.83 12% 0% 11% 0% 0% 0% 43.0°C
19:48:10: 2000/1500MHz 6.31 12% 0% 12% 0% 0% 0% 43.0°C
19:48:25: 2000/1500MHz 6.69 12% 0% 12% 0% 0% 0% 43.0°C
19:48:40: 2000/1500MHz 5.97 12% 0% 11% 0% 0% 0% 44.0°C
19:48:55: 2000/1500MHz 5.75 12% 0% 11% 0% 0% 0% 44.0°C
19:49:10: 2000/1500MHz 5.43 12% 0% 12% 0% 0% 0% 43.0°C
19:49:25: 2000/1500MHz 5.77 12% 0% 11% 0% 0% 0% 43.0°C
19:49:40: 2000/1500MHz 6.26 12% 0% 12% 0% 0% 0% 43.0°C
19:49:55: 2000/1500MHz 5.81 12% 0% 11% 0% 0% 0% 43.0°C
19:50:10: 2000/1500MHz 5.54 12% 0% 11% 0% 0% 0% 44.0°C
19:50:25: 2000/1500MHz 5.34 12% 0% 12% 0% 0% 0% 44.0°C
19:50:40: 2000/1500MHz 5.12 12% 0% 12% 0% 0% 0% 43.0°C
19:50:55: 2000/1500MHz 5.03 12% 0% 12% 0% 0% 0% 43.0°C
19:51:10: 2000/1500MHz 5.03 12% 0% 12% 0% 0% 0% 43.0°C
19:51:26: 2000/1500MHz 4.87 12% 0% 12% 0% 0% 0% 43.0°C
19:51:41: 2000/1500MHz 4.82 12% 0% 12% 0% 0% 0% 44.0°C
19:51:56: 2000/1500MHz 5.53 12% 0% 11% 0% 0% 0% 43.0°C
System health while running 7-zip multi core benchmark:
Time big.LITTLE load %cpu %sys %usr %nice %io %irq Temp
19:52:05: 2000/1500MHz 5.91 11% 0% 10% 0% 0% 0% 44.0°C
19:52:35: 2000/1500MHz 6.17 70% 1% 67% 0% 0% 1% 65.0°C
19:53:05: 2000/1500MHz 5.96 66% 2% 62% 0% 0% 1% 69.0°C
19:53:36: 2000/1500MHz 5.52 58% 1% 55% 0% 0% 0% 70.0°C
19:54:06: 2000/1500MHz 6.05 72% 1% 69% 0% 0% 1% 68.0°C
19:54:36: 2000/1500MHz 5.83 65% 2% 62% 0% 0% 1% 69.0°C
19:55:06: 2000/1500MHz 5.40 64% 1% 62% 0% 0% 1% 70.0°C
19:55:36: 2000/1500MHz 5.53 67% 1% 65% 0% 0% 1% 57.0°C
19:56:06: 2000/1500MHz 6.04 73% 2% 69% 0% 0% 1% 63.0°C
##########################################################################
Linux 4.14.55-146 (odroidxu4) 30.07.2018 _armv7l_ (8 CPU)
avg-cpu: %user %nice %system %iowait %steal %idle
13,09 0,01 0,72 0,02 0,00 86,15
Device tps kB_read/s kB_wrtn/s kB_read kB_wrtn
mmcblk0 4,11 66,84 63,14 394138 372356
mmcblk0boot1 0,01 0,04 0,00 216 0
mmcblk0boot0 0,01 0,04 0,00 216 0
zram0 0,08 0,20 0,13 1192 772
zram1 0,08 0,20 0,13 1192 772
zram2 0,08 0,20 0,13 1192 772
zram3 0,08 0,20 0,13 1192 772
zram4 0,09 0,21 0,13 1236 772
zram5 0,08 0,21 0,13 1224 772
zram6 0,08 0,21 0,13 1228 772
zram7 0,12 0,39 0,08 2276 476
всего занято свободно общая буф./врем. доступно
Память: 1,9G 101M 1,6G 2,6M 234M 1,8G
Подкачка: 997M 6,0M 991M
Имя файла Тип Размер Исп-но Приоритет
/dev/zram0 partition 127648 768 5
/dev/zram1 partition 127648 768 5
/dev/zram2 partition 127648 768 5
/dev/zram3 partition 127648 768 5
/dev/zram4 partition 127648 768 5
/dev/zram5 partition 127648 768 5
/dev/zram6 partition 127648 768 5
/dev/zram7 partition 127648 768 5
Архитектура: armv7l
Порядок байт: Little Endian
CPU(s): 8
On-line CPU(s) list: 0-7
Потоков на ядро: 1
Ядер на сокет: 4
Сокетов: 2
ID прроизводителя: ARM
Модель: 3
Имя модели: Cortex-A7
Степпинг: r0p3
CPU max MHz: 2000,0000
CPU min MHz: 200,0000
BogoMIPS: 90.00
Флаги: half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt vfpd32 lpae