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3Owv.txt
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3Owv.txt
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sbc-bench v0.9.2 bigboy (Thu, 03 Feb 2022 21:29:40 +0900)
Distributor ID: Debian
Description: Debian GNU/Linux bookworm/sid
Release: unstable
Codename: sid
Architecture: arm64
Device Info:
Manufacturer: GIGABYTE
Product Name: H270-T70-D5
Version: 0100
Family: Server
BIOS/UEFI:
Vendor: GIGABYTE
Version: F02
Release Date: 08/06/2019
BIOS Revision: 5.11
/usr/bin/gcc (Debian 11.2.0-14) 11.2.0
Uptime: 21:29:42 up 2 days, 5:14, 3 users, load average: 0.97, 18.38, 21.95
Linux 5.16.0 (bigboy) 02/03/22 _aarch64_ (96 CPU)
avg-cpu: %user %nice %system %iowait %steal %idle
0.33 0.00 0.05 0.00 0.00 99.62
Device tps kB_read/s kB_wrtn/s kB_dscd/s kB_read kB_wrtn kB_dscd
sda 5.23 4.56 153.38 0.00 874542 29395516 0
total used free shared buff/cache available
Mem: 127Gi 8.7Gi 118Gi 32Mi 414Mi 108Gi
Swap: 0B 0B 0B
##########################################################################
Checking cpufreq OPP for cpu0-cpu47 (Cavium ThunderX 88XX):
No cpufreq support available. Measured on cpu1: 2000 Mhz (1997.063/1997.236/1997.829)
Checking cpufreq OPP for cpu48-cpu95 (Cavium ThunderX 88XX):
No cpufreq support available. Measured on cpu49: 2000 Mhz (1998.175/1998.299/1997.903)
##########################################################################
Executing benchmark on cpu0 (Cavium ThunderX 88XX):
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 : 943.8 MB/s
C copy backwards (32 byte blocks) : 966.1 MB/s
C copy backwards (64 byte blocks) : 966.3 MB/s
C copy : 997.0 MB/s
C copy prefetched (32 bytes step) : 2398.5 MB/s
C copy prefetched (64 bytes step) : 2403.3 MB/s
C 2-pass copy : 803.9 MB/s
C 2-pass copy prefetched (32 bytes step) : 1361.5 MB/s
C 2-pass copy prefetched (64 bytes step) : 1434.5 MB/s
C fill : 12329.5 MB/s (0.1%)
C fill (shuffle within 16 byte blocks) : 12168.0 MB/s (0.1%)
C fill (shuffle within 32 byte blocks) : 12555.1 MB/s (0.1%)
C fill (shuffle within 64 byte blocks) : 12539.5 MB/s (0.1%)
---
standard memcpy : 4193.0 MB/s
standard memset : 16800.8 MB/s
---
NEON LDP/STP copy : 1171.9 MB/s
NEON LDP/STP copy pldl2strm (32 bytes step) : 2400.0 MB/s
NEON LDP/STP copy pldl2strm (64 bytes step) : 2761.6 MB/s
NEON LDP/STP copy pldl1keep (32 bytes step) : 3234.1 MB/s (0.1%)
NEON LDP/STP copy pldl1keep (64 bytes step) : 3286.8 MB/s
NEON LD1/ST1 copy : 874.2 MB/s
NEON STP fill : 16231.1 MB/s
NEON STNP fill : 16300.9 MB/s (0.1%)
ARM LDP/STP copy : 1177.9 MB/s
ARM STP fill : 16376.6 MB/s (0.1%)
ARM STNP fill : 16263.1 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 LDP/STP copy (from framebuffer) : 4069.3 MB/s
NEON LDP/STP 2-pass copy (from framebuffer) : 2961.5 MB/s (0.1%)
NEON LD1/ST1 copy (from framebuffer) : 1957.9 MB/s
NEON LD1/ST1 2-pass copy (from framebuffer) : 1153.8 MB/s (0.1%)
ARM LDP/STP copy (from framebuffer) : 4202.4 MB/s
ARM LDP/STP 2-pass copy (from framebuffer) : 3145.2 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, [MADV_NOHUGEPAGE]
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 : 9.7 ns / 19.8 ns
131072 : 14.6 ns / 29.6 ns
262144 : 17.0 ns / 34.7 ns
524288 : 18.2 ns / 37.1 ns
1048576 : 18.8 ns / 38.3 ns
2097152 : 19.2 ns / 38.9 ns
4194304 : 23.7 ns / 47.8 ns
8388608 : 26.1 ns / 52.3 ns
16777216 : 33.2 ns / 67.1 ns
33554432 : 78.7 ns / 157.6 ns
67108864 : 104.1 ns / 208.7 ns
block size : single random read / dual random read, [MADV_HUGEPAGE]
1024 : 0.0 ns / 0.0 ns
2048 : 0.0 ns / 0.0 ns
4096 : 0.1 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 : 9.7 ns / 19.9 ns
131072 : 14.6 ns / 29.6 ns
262144 : 17.0 ns / 34.7 ns
524288 : 18.2 ns / 37.1 ns
1048576 : 18.8 ns / 38.3 ns
2097152 : 19.1 ns / 38.9 ns
4194304 : 23.5 ns / 47.8 ns
8388608 : 25.8 ns / 52.3 ns
16777216 : 33.1 ns / 66.5 ns
33554432 : 78.7 ns / 157.6 ns
67108864 : 104.1 ns / 208.6 ns
Executing benchmark on cpu48 (Cavium ThunderX 88XX):
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 : 962.4 MB/s
C copy backwards (32 byte blocks) : 981.6 MB/s
C copy backwards (64 byte blocks) : 981.6 MB/s
C copy : 1009.3 MB/s
C copy prefetched (32 bytes step) : 2458.3 MB/s
C copy prefetched (64 bytes step) : 2465.0 MB/s
C 2-pass copy : 809.7 MB/s
C 2-pass copy prefetched (32 bytes step) : 1429.8 MB/s
C 2-pass copy prefetched (64 bytes step) : 1505.0 MB/s
C fill : 12478.3 MB/s
C fill (shuffle within 16 byte blocks) : 12313.0 MB/s
C fill (shuffle within 32 byte blocks) : 12714.2 MB/s
C fill (shuffle within 64 byte blocks) : 12696.5 MB/s
---
standard memcpy : 4281.5 MB/s
standard memset : 17026.2 MB/s
---
NEON LDP/STP copy : 1190.1 MB/s
NEON LDP/STP copy pldl2strm (32 bytes step) : 2453.5 MB/s
NEON LDP/STP copy pldl2strm (64 bytes step) : 2813.2 MB/s
NEON LDP/STP copy pldl1keep (32 bytes step) : 3302.5 MB/s
NEON LDP/STP copy pldl1keep (64 bytes step) : 3359.6 MB/s
NEON LD1/ST1 copy : 897.2 MB/s
NEON STP fill : 16441.4 MB/s
NEON STNP fill : 16505.9 MB/s
ARM LDP/STP copy : 1206.2 MB/s
ARM STP fill : 16580.7 MB/s
ARM STNP fill : 16474.4 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 LDP/STP copy (from framebuffer) : 4116.5 MB/s
NEON LDP/STP 2-pass copy (from framebuffer) : 2994.8 MB/s
NEON LD1/ST1 copy (from framebuffer) : 1979.9 MB/s
NEON LD1/ST1 2-pass copy (from framebuffer) : 1166.6 MB/s
ARM LDP/STP copy (from framebuffer) : 4253.8 MB/s
ARM LDP/STP 2-pass copy (from framebuffer) : 3182.8 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, [MADV_NOHUGEPAGE]
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 : 9.5 ns / 19.5 ns
131072 : 14.3 ns / 29.3 ns
262144 : 16.7 ns / 34.2 ns
524288 : 17.9 ns / 36.6 ns
1048576 : 18.5 ns / 37.9 ns
2097152 : 18.9 ns / 38.5 ns
4194304 : 23.3 ns / 47.2 ns
8388608 : 25.3 ns / 51.7 ns
16777216 : 31.8 ns / 64.4 ns
33554432 : 77.5 ns / 155.5 ns
67108864 : 102.6 ns / 206.0 ns
block size : single random read / dual random read, [MADV_HUGEPAGE]
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 : 9.5 ns / 19.5 ns
131072 : 14.3 ns / 29.3 ns
262144 : 16.7 ns / 34.2 ns
524288 : 17.9 ns / 36.6 ns
1048576 : 18.5 ns / 37.9 ns
2097152 : 18.8 ns / 38.5 ns
4194304 : 23.2 ns / 47.2 ns
8388608 : 25.3 ns / 51.7 ns
16777216 : 31.8 ns / 63.4 ns
33554432 : 77.6 ns / 155.9 ns
67108864 : 102.6 ns / 206.0 ns
##########################################################################
Executing benchmark on each cluster individually
OpenSSL 1.1.1m, built on 14 Dec 2021
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes 16384 bytes
aes-128-cbc 108973.43k 261392.00k 400944.55k 466615.30k 489788.76k 491301.55k
aes-128-cbc 109940.27k 264490.77k 405785.77k 472175.62k 495747.07k 497582.08k
aes-192-cbc 102758.06k 231715.67k 336456.79k 381708.97k 397423.96k 398387.88k
aes-192-cbc 105135.29k 237195.18k 342089.81k 386852.18k 402330.97k 403374.08k
aes-256-cbc 100149.62k 212456.49k 293998.85k 326743.04k 337849.00k 338782.89k
aes-256-cbc 101484.01k 215188.05k 297491.88k 330886.49k 342070.61k 342796.97k
##########################################################################
Executing benchmark single-threaded on cpu0 (Cavium ThunderX 88XX)
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,64 bits,96 CPUs LE)
LE
CPU Freq: - - - - - - 512000000 1024000000 -
RAM size: 130768 MB, # CPU hardware threads: 96
RAM usage: 435 MB, # Benchmark threads: 1
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 1576 100 1537 1534 | 23734 100 2030 2026
23: 1456 100 1487 1484 | 23424 100 2031 2028
24: 1376 100 1483 1480 | 22968 100 2020 2016
25: 1327 100 1519 1516 | 22633 100 2018 2015
---------------------------------- | ------------------------------
Avr: 100 1507 1504 | 100 2025 2021
Tot: 100 1766 1762
Executing benchmark single-threaded on cpu48 (Cavium ThunderX 88XX)
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,64 bits,96 CPUs LE)
LE
CPU Freq: - - - - - 256000000 - - -
RAM size: 130768 MB, # CPU hardware threads: 96
RAM usage: 435 MB, # Benchmark threads: 1
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 1597 100 1557 1554 | 24040 100 2056 2053
23: 1475 100 1506 1503 | 23767 100 2061 2057
24: 1394 100 1502 1499 | 23221 100 2042 2039
25: 1345 100 1539 1536 | 22916 100 2043 2040
---------------------------------- | ------------------------------
Avr: 100 1526 1523 | 100 2051 2047
Tot: 100 1788 1785
##########################################################################
Executing benchmark 3 times multi-threaded
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,64 bits,96 CPUs LE)
LE
CPU Freq: - - - - - - - - -
RAM size: 130768 MB, # CPU hardware threads: 96
RAM usage: 21180 MB, # Benchmark threads: 96
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 72384 8564 823 70416 | 2059268 9225 1905 175601
23: 68608 8153 857 69904 | 1950519 8956 1886 168774
24: 66642 8497 844 71654 | 1965737 9188 1879 172525
25: 62027 7784 910 70820 | 1507775 7232 1856 134169
---------------------------------- | ------------------------------
Avr: 8250 859 70698 | 8650 1881 162767
Tot: 8450 1370 116733
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,64 bits,96 CPUs LE)
LE
CPU Freq: 64000000 64000000 - - - 256000000 - - -
RAM size: 130768 MB, # CPU hardware threads: 96
RAM usage: 21180 MB, # Benchmark threads: 96
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 73665 8650 829 71662 | 2074446 9297 1904 176895
23: 71526 8579 850 72877 | 1914988 8839 1876 165699
24: 61867 7706 864 66520 | 1859774 8850 1845 163225
25: 59756 7083 964 68228 | 1735926 8303 1861 154471
---------------------------------- | ------------------------------
Avr: 8004 877 69822 | 8822 1872 165073
Tot: 8413 1374 117447
7-Zip (a) [64] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,64 bits,96 CPUs LE)
LE
CPU Freq: - - - - - - - - -
RAM size: 130768 MB, # CPU hardware threads: 96
RAM usage: 21180 MB, # Benchmark threads: 96
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 73598 8250 868 71597 | 1888140 8465 1903 161008
23: 68564 8514 821 69859 | 1940303 8932 1881 167890
24: 67881 8642 845 72986 | 1882253 8933 1850 165198
25: 65465 7972 938 74746 | 1523868 7426 1827 135601
---------------------------------- | ------------------------------
Avr: 8344 868 72297 | 8439 1865 157424
Tot: 8392 1367 114861
Compression: 70698,69822,72297
Decompression: 162767,165073,157424
Total: 116733,117447,114861
##########################################################################
** cpuminer-multi 1.3.7 by tpruvot@github **
BTC donation address: 1FhDPLPpw18X4srecguG3MxJYe4a1JsZnd (tpruvot)
[2022-02-03 21:51:33] 96 miner threads started, using 'scrypt' algorithm.
[2022-02-03 21:51:34] CPU #32: 1.73 kH/s
[2022-02-03 21:51:34] CPU #33: 1.73 kH/s
[2022-02-03 21:51:34] CPU #35: 1.73 kH/s
[2022-02-03 21:51:34] CPU #34: 1.73 kH/s
[2022-02-03 21:51:34] CPU #36: 1.73 kH/s
[2022-02-03 21:51:34] CPU #37: 1.73 kH/s
[2022-02-03 21:51:34] CPU #39: 1.73 kH/s
[2022-02-03 21:51:34] CPU #38: 1.73 kH/s
[2022-02-03 21:51:34] CPU #41: 1.73 kH/s
[2022-02-03 21:51:34] CPU #40: 1.73 kH/s
[2022-02-03 21:51:34] CPU #42: 1.73 kH/s
[2022-02-03 21:51:34] CPU #44: 1.73 kH/s
[2022-02-03 21:51:34] CPU #43: 1.72 kH/s
[2022-02-03 21:51:34] CPU #45: 1.73 kH/s
[2022-02-03 21:51:34] CPU #46: 1.73 kH/s
[2022-02-03 21:51:34] CPU #49: 1.73 kH/s
[2022-02-03 21:51:34] CPU #48: 1.73 kH/s
[2022-02-03 21:51:34] CPU #47: 1.73 kH/s
[2022-02-03 21:51:34] CPU #50: 1.73 kH/s
[2022-02-03 21:51:34] CPU #51: 1.73 kH/s
[2022-02-03 21:51:34] CPU #52: 1.73 kH/s
[2022-02-03 21:51:34] CPU #53: 1.73 kH/s
[2022-02-03 21:51:34] CPU #54: 1.73 kH/s
[2022-02-03 21:51:34] CPU #55: 1.73 kH/s
[2022-02-03 21:51:34] CPU #56: 1.73 kH/s
[2022-02-03 21:51:34] CPU #57: 1.73 kH/s
[2022-02-03 21:51:34] CPU #58: 1.73 kH/s
[2022-02-03 21:51:34] CPU #59: 1.73 kH/s
[2022-02-03 21:51:34] CPU #60: 1.73 kH/s
[2022-02-03 21:51:34] CPU #61: 1.73 kH/s
[2022-02-03 21:51:34] CPU #62: 1.73 kH/s
[2022-02-03 21:51:34] CPU #63: 1.73 kH/s
[2022-02-03 21:51:34] CPU #29: 0.96 kH/s
[2022-02-03 21:51:34] CPU #31: 0.95 kH/s
[2022-02-03 21:51:34] CPU #30: 0.94 kH/s
[2022-02-03 21:51:34] CPU #16: 0.93 kH/s
[2022-02-03 21:51:34] CPU #17: 0.93 kH/s
[2022-02-03 21:51:34] CPU #18: 0.93 kH/s
[2022-02-03 21:51:34] CPU #19: 0.93 kH/s
[2022-02-03 21:51:34] CPU #20: 0.93 kH/s
[2022-02-03 21:51:34] CPU #21: 0.93 kH/s
[2022-02-03 21:51:34] CPU #22: 0.93 kH/s
[2022-02-03 21:51:34] CPU #23: 0.93 kH/s
[2022-02-03 21:51:34] CPU #26: 0.93 kH/s
[2022-02-03 21:51:34] CPU #28: 0.93 kH/s
[2022-02-03 21:51:34] CPU #25: 0.93 kH/s
[2022-02-03 21:51:34] CPU #27: 0.93 kH/s
[2022-02-03 21:51:34] CPU #15: 0.91 kH/s
[2022-02-03 21:51:34] CPU #24: 0.91 kH/s
[2022-02-03 21:51:34] CPU #12: 0.91 kH/s
[2022-02-03 21:51:34] CPU #10: 0.90 kH/s
[2022-02-03 21:51:34] CPU #1: 0.90 kH/s
[2022-02-03 21:51:34] CPU #14: 0.90 kH/s
[2022-02-03 21:51:34] CPU #6: 0.89 kH/s
[2022-02-03 21:51:34] CPU #3: 0.89 kH/s
[2022-02-03 21:51:34] CPU #2: 0.88 kH/s
[2022-02-03 21:51:34] CPU #7: 0.89 kH/s
[2022-02-03 21:51:34] CPU #13: 0.89 kH/s
[2022-02-03 21:51:34] CPU #9: 0.89 kH/s
[2022-02-03 21:51:34] CPU #4: 0.89 kH/s
[2022-02-03 21:51:34] CPU #5: 0.89 kH/s
[2022-02-03 21:51:34] CPU #8: 0.89 kH/s
[2022-02-03 21:51:34] CPU #11: 0.89 kH/s
[2022-02-03 21:51:34] CPU #0: 0.87 kH/s
[2022-02-03 21:51:34] CPU #65: 0.87 kH/s
[2022-02-03 21:51:34] CPU #76: 0.89 kH/s
[2022-02-03 21:51:34] CPU #78: 0.88 kH/s
[2022-02-03 21:51:34] CPU #70: 0.88 kH/s
[2022-02-03 21:51:34] CPU #69: 0.88 kH/s
[2022-02-03 21:51:34] CPU #74: 0.88 kH/s
[2022-02-03 21:51:34] CPU #72: 0.88 kH/s
[2022-02-03 21:51:34] CPU #77: 0.88 kH/s
[2022-02-03 21:51:34] CPU #71: 0.88 kH/s
[2022-02-03 21:51:34] CPU #66: 0.88 kH/s
[2022-02-03 21:51:34] CPU #80: 0.89 kH/s
[2022-02-03 21:51:34] CPU #89: 0.89 kH/s
[2022-02-03 21:51:34] CPU #86: 0.89 kH/s
[2022-02-03 21:51:34] CPU #87: 0.89 kH/s
[2022-02-03 21:51:34] CPU #81: 0.89 kH/s
[2022-02-03 21:51:34] CPU #84: 0.89 kH/s
[2022-02-03 21:51:34] CPU #79: 0.89 kH/s
[2022-02-03 21:51:34] CPU #90: 0.89 kH/s
[2022-02-03 21:51:34] CPU #83: 0.89 kH/s
[2022-02-03 21:51:34] CPU #92: 0.89 kH/s
[2022-02-03 21:51:34] CPU #73: 0.88 kH/s
[2022-02-03 21:51:34] CPU #75: 0.88 kH/s
[2022-02-03 21:51:34] CPU #68: 0.88 kH/s
[2022-02-03 21:51:34] CPU #64: 0.88 kH/s
[2022-02-03 21:51:34] CPU #67: 0.88 kH/s
[2022-02-03 21:51:34] CPU #95: 0.90 kH/s
[2022-02-03 21:51:34] CPU #88: 0.87 kH/s
[2022-02-03 21:51:34] CPU #91: 0.89 kH/s
[2022-02-03 21:51:34] CPU #82: 0.89 kH/s
[2022-02-03 21:51:34] CPU #85: 0.89 kH/s
[2022-02-03 21:51:34] CPU #93: 0.87 kH/s
[2022-02-03 21:51:34] CPU #94: 0.88 kH/s
[2022-02-03 21:51:38] Total: 111.90 kH/s
[2022-02-03 21:51:43] CPU #35: 1.73 kH/s
[2022-02-03 21:51:43] CPU #33: 1.73 kH/s
[2022-02-03 21:51:43] CPU #32: 1.73 kH/s
[2022-02-03 21:51:43] CPU #34: 1.73 kH/s
[2022-02-03 21:51:43] CPU #41: 1.73 kH/s
[2022-02-03 21:51:43] CPU #37: 1.73 kH/s
[2022-02-03 21:51:43] CPU #39: 1.73 kH/s
[2022-02-03 21:51:43] CPU #38: 1.73 kH/s
[2022-02-03 21:51:43] CPU #36: 1.73 kH/s
[2022-02-03 21:51:43] CPU #42: 1.73 kH/s
[2022-02-03 21:51:43] CPU #44: 1.73 kH/s
[2022-02-03 21:51:43] CPU #45: 1.73 kH/s
[2022-02-03 21:51:43] CPU #46: 1.73 kH/s
[2022-02-03 21:51:43] CPU #47: 1.73 kH/s
[2022-02-03 21:51:43] CPU #49: 1.73 kH/s
[2022-02-03 21:51:43] CPU #43: 1.73 kH/s
[2022-02-03 21:51:43] CPU #48: 1.73 kH/s
[2022-02-03 21:51:43] CPU #40: 1.73 kH/s
[2022-02-03 21:51:43] CPU #52: 1.73 kH/s
[2022-02-03 21:51:43] CPU #50: 1.73 kH/s
[2022-02-03 21:51:43] CPU #51: 1.73 kH/s
[2022-02-03 21:51:43] CPU #53: 1.73 kH/s
[2022-02-03 21:51:43] CPU #55: 1.73 kH/s
[2022-02-03 21:51:43] CPU #54: 1.73 kH/s
[2022-02-03 21:51:43] CPU #57: 1.73 kH/s
[2022-02-03 21:51:43] CPU #58: 1.73 kH/s
[2022-02-03 21:51:43] CPU #63: 1.73 kH/s
[2022-02-03 21:51:43] CPU #59: 1.73 kH/s
[2022-02-03 21:51:43] CPU #61: 1.73 kH/s
[2022-02-03 21:51:43] CPU #56: 1.73 kH/s
[2022-02-03 21:51:43] CPU #60: 1.73 kH/s
[2022-02-03 21:51:43] CPU #62: 1.73 kH/s
[2022-02-03 21:51:43] CPU #65: 0.87 kH/s
[2022-02-03 21:51:43] CPU #7: 0.87 kH/s
[2022-02-03 21:51:43] CPU #77: 0.87 kH/s
[2022-02-03 21:51:43] CPU #66: 0.87 kH/s
[2022-02-03 21:51:43] CPU #93: 0.87 kH/s
[2022-02-03 21:51:43] CPU #5: 0.87 kH/s
[2022-02-03 21:51:43] CPU #9: 0.87 kH/s
[2022-02-03 21:51:43] CPU #3: 0.87 kH/s
[2022-02-03 21:51:43] CPU #0: 0.86 kH/s
[2022-02-03 21:51:43] CPU #2: 0.87 kH/s
[2022-02-03 21:51:43] CPU #78: 0.87 kH/s
[2022-02-03 21:51:43] CPU #4: 0.87 kH/s
[2022-02-03 21:51:43] CPU #74: 0.87 kH/s
[2022-02-03 21:51:43] CPU #69: 0.87 kH/s
[2022-02-03 21:51:43] CPU #75: 0.87 kH/s
[2022-02-03 21:51:43] CPU #88: 0.87 kH/s
[2022-02-03 21:51:43] CPU #6: 0.87 kH/s
[2022-02-03 21:51:43] CPU #72: 0.86 kH/s
[2022-02-03 21:51:43] CPU #70: 0.87 kH/s
[2022-02-03 21:51:43] CPU #71: 0.86 kH/s
[2022-02-03 21:51:43] CPU #68: 0.87 kH/s
[2022-02-03 21:51:43] CPU #94: 0.87 kH/s
[2022-02-03 21:51:43] CPU #13: 0.87 kH/s
[2022-02-03 21:51:43] CPU #11: 0.86 kH/s
[2022-02-03 21:51:43] CPU #73: 0.86 kH/s
[2022-02-03 21:51:43] CPU #67: 0.86 kH/s
[2022-02-03 21:51:43] CPU #76: 0.87 kH/s
[2022-02-03 21:51:43] CPU #8: 0.86 kH/s
[2022-02-03 21:51:43] CPU #14: 0.87 kH/s
[2022-02-03 21:51:43] CPU #10: 0.87 kH/s
[2022-02-03 21:51:43] CPU #1: 0.86 kH/s
[2022-02-03 21:51:43] CPU #79: 0.87 kH/s
[2022-02-03 21:51:43] CPU #92: 0.87 kH/s
[2022-02-03 21:51:43] CPU #86: 0.87 kH/s
[2022-02-03 21:51:43] CPU #83: 0.87 kH/s
[2022-02-03 21:51:43] CPU #84: 0.87 kH/s
[2022-02-03 21:51:43] CPU #90: 0.87 kH/s
[2022-02-03 21:51:43] CPU #81: 0.87 kH/s
[2022-02-03 21:51:43] CPU #87: 0.87 kH/s
[2022-02-03 21:51:43] CPU #82: 0.87 kH/s
[2022-02-03 21:51:43] CPU #89: 0.86 kH/s
[2022-02-03 21:51:43] CPU #91: 0.87 kH/s
[2022-02-03 21:51:43] CPU #64: 0.85 kH/s
[2022-02-03 21:51:43] CPU #80: 0.87 kH/s
[2022-02-03 21:51:43] CPU #12: 0.86 kH/s
[2022-02-03 21:51:43] CPU #85: 0.86 kH/s
[2022-02-03 21:51:43] CPU #15: 0.87 kH/s
[2022-02-03 21:51:43] CPU #24: 0.87 kH/s
[2022-02-03 21:51:43] CPU #95: 0.87 kH/s
[2022-02-03 21:51:43] Total: 110.89 kH/s
[2022-02-03 21:51:43] CPU #17: 0.87 kH/s
[2022-02-03 21:51:43] CPU #21: 0.87 kH/s
[2022-02-03 21:51:43] CPU #23: 0.87 kH/s
[2022-02-03 21:51:43] CPU #20: 0.87 kH/s
[2022-02-03 21:51:43] CPU #25: 0.87 kH/s
[2022-02-03 21:51:43] CPU #26: 0.87 kH/s
[2022-02-03 21:51:43] CPU #27: 0.87 kH/s
[2022-02-03 21:51:43] CPU #28: 0.87 kH/s
[2022-02-03 21:51:43] CPU #22: 0.86 kH/s
[2022-02-03 21:51:43] CPU #16: 0.87 kH/s
[2022-02-03 21:51:43] CPU #19: 0.86 kH/s
[2022-02-03 21:51:43] CPU #18: 0.86 kH/s
[2022-02-03 21:51:43] CPU #30: 0.87 kH/s
[2022-02-03 21:51:43] CPU #31: 0.87 kH/s
[2022-02-03 21:51:43] CPU #29: 0.87 kH/s
[2022-02-03 21:51:48] Total: 110.87 kH/s
[2022-02-03 21:51:53] CPU #35: 1.73 kH/s
[2022-02-03 21:51:53] CPU #33: 1.73 kH/s
[2022-02-03 21:51:53] CPU #32: 1.73 kH/s
[2022-02-03 21:51:53] CPU #34: 1.73 kH/s
[2022-02-03 21:51:53] CPU #41: 1.73 kH/s
[2022-02-03 21:51:53] CPU #38: 1.73 kH/s
[2022-02-03 21:51:53] CPU #39: 1.73 kH/s
[2022-02-03 21:51:53] CPU #37: 1.73 kH/s
[2022-02-03 21:51:53] CPU #36: 1.73 kH/s
[2022-02-03 21:51:53] CPU #42: 1.73 kH/s
[2022-02-03 21:51:53] CPU #44: 1.73 kH/s
[2022-02-03 21:51:53] CPU #49: 1.73 kH/s
[2022-02-03 21:51:53] CPU #45: 1.73 kH/s
[2022-02-03 21:51:53] CPU #47: 1.73 kH/s
[2022-02-03 21:51:53] CPU #46: 1.73 kH/s
[2022-02-03 21:51:53] CPU #40: 1.73 kH/s
[2022-02-03 21:51:53] CPU #48: 1.73 kH/s
[2022-02-03 21:51:53] CPU #43: 1.73 kH/s
[2022-02-03 21:51:53] CPU #52: 1.73 kH/s
[2022-02-03 21:51:53] CPU #51: 1.73 kH/s
[2022-02-03 21:51:53] CPU #50: 1.73 kH/s
[2022-02-03 21:51:53] CPU #53: 1.73 kH/s
[2022-02-03 21:51:53] CPU #55: 1.73 kH/s
[2022-02-03 21:51:53] CPU #54: 1.73 kH/s
[2022-02-03 21:51:53] CPU #57: 1.73 kH/s
[2022-02-03 21:51:53] CPU #58: 1.73 kH/s
[2022-02-03 21:51:53] CPU #59: 1.73 kH/s
[2022-02-03 21:51:53] CPU #63: 1.73 kH/s
[2022-02-03 21:51:53] CPU #61: 1.73 kH/s
[2022-02-03 21:51:53] CPU #62: 1.73 kH/s
[2022-02-03 21:51:53] CPU #60: 1.73 kH/s
[2022-02-03 21:51:53] CPU #56: 1.73 kH/s
[2022-02-03 21:51:53] CPU #65: 0.87 kH/s
[2022-02-03 21:51:53] CPU #93: 0.87 kH/s
[2022-02-03 21:51:53] CPU #0: 0.86 kH/s
[2022-02-03 21:51:53] CPU #72: 0.87 kH/s
[2022-02-03 21:51:53] CPU #74: 0.87 kH/s
[2022-02-03 21:51:53] CPU #8: 0.87 kH/s
[2022-02-03 21:51:53] CPU #5: 0.87 kH/s
[2022-02-03 21:51:53] CPU #2: 0.87 kH/s
[2022-02-03 21:51:53] CPU #7: 0.87 kH/s
[2022-02-03 21:51:53] CPU #3: 0.87 kH/s
[2022-02-03 21:51:53] CPU #77: 0.87 kH/s
[2022-02-03 21:51:53] CPU #9: 0.87 kH/s
[2022-02-03 21:51:53] CPU #69: 0.87 kH/s
[2022-02-03 21:51:53] CPU #6: 0.87 kH/s
[2022-02-03 21:51:53] CPU #66: 0.87 kH/s
[2022-02-03 21:51:53] CPU #71: 0.87 kH/s
[2022-02-03 21:51:53] CPU #78: 0.87 kH/s
[2022-02-03 21:51:53] CPU #11: 0.87 kH/s
[2022-02-03 21:51:53] CPU #68: 0.87 kH/s
[2022-02-03 21:51:53] CPU #4: 0.86 kH/s
[2022-02-03 21:51:53] CPU #75: 0.87 kH/s
[2022-02-03 21:51:53] CPU #70: 0.87 kH/s
[2022-02-03 21:51:53] CPU #73: 0.87 kH/s
[2022-02-03 21:51:53] CPU #67: 0.87 kH/s
[2022-02-03 21:51:53] CPU #13: 0.87 kH/s
[2022-02-03 21:51:53] CPU #88: 0.86 kH/s
[2022-02-03 21:51:53] CPU #94: 0.87 kH/s
[2022-02-03 21:51:53] CPU #1: 0.87 kH/s
[2022-02-03 21:51:53] CPU #76: 0.87 kH/s
[2022-02-03 21:51:53] CPU #14: 0.87 kH/s
[2022-02-03 21:51:53] CPU #10: 0.87 kH/s
[2022-02-03 21:51:53] CPU #90: 0.87 kH/s
[2022-02-03 21:51:53] CPU #83: 0.87 kH/s
[2022-02-03 21:51:53] CPU #87: 0.87 kH/s
[2022-02-03 21:51:53] CPU #89: 0.87 kH/s
[2022-02-03 21:51:53] CPU #86: 0.87 kH/s
[2022-02-03 21:51:53] CPU #84: 0.86 kH/s
[2022-02-03 21:51:53] CPU #79: 0.86 kH/s
[2022-02-03 21:51:53] CPU #12: 0.87 kH/s
[2022-02-03 21:51:53] CPU #64: 0.85 kH/s
[2022-02-03 21:51:53] CPU #91: 0.87 kH/s
[2022-02-03 21:51:53] CPU #85: 0.87 kH/s
[2022-02-03 21:51:53] CPU #81: 0.86 kH/s
[2022-02-03 21:51:53] CPU #82: 0.86 kH/s
[2022-02-03 21:51:53] CPU #92: 0.87 kH/s
[2022-02-03 21:51:53] CPU #80: 0.87 kH/s
[2022-02-03 21:51:53] CPU #15: 0.87 kH/s
[2022-02-03 21:51:53] CPU #24: 0.87 kH/s
[2022-02-03 21:51:53] CPU #95: 0.87 kH/s
[2022-02-03 21:51:53] Total: 110.90 kH/s
[2022-02-03 21:51:53] CPU #22: 0.87 kH/s
[2022-02-03 21:51:53] CPU #17: 0.87 kH/s
[2022-02-03 21:51:53] CPU #21: 0.87 kH/s
[2022-02-03 21:51:53] CPU #27: 0.87 kH/s
[2022-02-03 21:51:53] CPU #28: 0.87 kH/s
[2022-02-03 21:51:53] CPU #18: 0.87 kH/s
[2022-02-03 21:51:53] CPU #19: 0.87 kH/s
[2022-02-03 21:51:53] CPU #26: 0.87 kH/s
[2022-02-03 21:51:53] CPU #23: 0.87 kH/s
[2022-02-03 21:51:53] CPU #25: 0.87 kH/s
[2022-02-03 21:51:53] CPU #20: 0.87 kH/s
[2022-02-03 21:51:53] CPU #16: 0.87 kH/s
[2022-02-03 21:51:53] CPU #30: 0.87 kH/s
[2022-02-03 21:51:53] CPU #31: 0.87 kH/s
[2022-02-03 21:51:53] CPU #29: 0.87 kH/s
[2022-02-03 21:51:58] Total: 110.92 kH/s
[2022-02-03 21:52:03] CPU #40: 1.73 kH/s
[2022-02-03 21:52:03] CPU #35: 1.73 kH/s
[2022-02-03 21:52:03] CPU #33: 1.73 kH/s
[2022-02-03 21:52:03] CPU #34: 1.73 kH/s
[2022-02-03 21:52:03] CPU #32: 1.73 kH/s
[2022-02-03 21:52:03] CPU #41: 1.73 kH/s
[2022-02-03 21:52:03] CPU #38: 1.73 kH/s
[2022-02-03 21:52:03] CPU #39: 1.73 kH/s
[2022-02-03 21:52:03] CPU #37: 1.73 kH/s
[2022-02-03 21:52:03] CPU #36: 1.73 kH/s
[2022-02-03 21:52:03] CPU #42: 1.73 kH/s
[2022-02-03 21:52:03] CPU #49: 1.73 kH/s
[2022-02-03 21:52:03] CPU #44: 1.73 kH/s
[2022-02-03 21:52:03] CPU #45: 1.73 kH/s
[2022-02-03 21:52:03] CPU #47: 1.73 kH/s
[2022-02-03 21:52:03] CPU #46: 1.73 kH/s
[2022-02-03 21:52:03] CPU #48: 1.73 kH/s
[2022-02-03 21:52:03] CPU #43: 1.73 kH/s
[2022-02-03 21:52:03] CPU #52: 1.73 kH/s
[2022-02-03 21:52:03] CPU #51: 1.73 kH/s
[2022-02-03 21:52:03] CPU #50: 1.73 kH/s
[2022-02-03 21:52:03] CPU #53: 1.73 kH/s
[2022-02-03 21:52:03] CPU #55: 1.73 kH/s
[2022-02-03 21:52:03] CPU #54: 1.73 kH/s
[2022-02-03 21:52:03] CPU #58: 1.73 kH/s
[2022-02-03 21:52:03] CPU #57: 1.73 kH/s
[2022-02-03 21:52:03] CPU #59: 1.73 kH/s
[2022-02-03 21:52:03] CPU #63: 1.73 kH/s
[2022-02-03 21:52:03] CPU #61: 1.73 kH/s
[2022-02-03 21:52:03] CPU #62: 1.73 kH/s
[2022-02-03 21:52:03] CPU #60: 1.73 kH/s
[2022-02-03 21:52:03] CPU #56: 1.73 kH/s
[2022-02-03 21:52:03] CPU #65: 0.87 kH/s
[2022-02-03 21:52:03] CPU #8: 0.87 kH/s
[2022-02-03 21:52:03] CPU #93: 0.87 kH/s
[2022-02-03 21:52:03] CPU #7: 0.87 kH/s
[2022-02-03 21:52:03] CPU #72: 0.87 kH/s
[2022-02-03 21:52:03] CPU #3: 0.87 kH/s
[2022-02-03 21:52:03] CPU #77: 0.87 kH/s
[2022-02-03 21:52:03] CPU #66: 0.87 kH/s
[2022-02-03 21:52:03] CPU #88: 0.87 kH/s
[2022-02-03 21:52:03] CPU #9: 0.87 kH/s
[2022-02-03 21:52:03] CPU #74: 0.87 kH/s
[2022-02-03 21:52:03] CPU #78: 0.87 kH/s
[2022-02-03 21:52:03] CPU #5: 0.86 kH/s
[2022-02-03 21:52:03] CPU #6: 0.87 kH/s
[2022-02-03 21:52:03] CPU #75: 0.87 kH/s
[2022-02-03 21:52:03] CPU #4: 0.87 kH/s
[2022-02-03 21:52:03] CPU #2: 0.86 kH/s
[2022-02-03 21:52:03] CPU #73: 0.87 kH/s
[2022-02-03 21:52:03] CPU #67: 0.87 kH/s
[2022-02-03 21:52:03] CPU #13: 0.87 kH/s
[2022-02-03 21:52:03] CPU #70: 0.87 kH/s
[2022-02-03 21:52:03] CPU #69: 0.86 kH/s
[2022-02-03 21:52:03] CPU #71: 0.86 kH/s
[2022-02-03 21:52:03] CPU #11: 0.87 kH/s
[2022-02-03 21:52:03] CPU #68: 0.87 kH/s
[2022-02-03 21:52:03] CPU #0: 0.85 kH/s
[2022-02-03 21:52:03] CPU #94: 0.86 kH/s
[2022-02-03 21:52:03] CPU #64: 0.86 kH/s
[2022-02-03 21:52:03] CPU #83: 0.87 kH/s
[2022-02-03 21:52:03] CPU #76: 0.87 kH/s
[2022-02-03 21:52:03] CPU #14: 0.87 kH/s
[2022-02-03 21:52:03] CPU #1: 0.86 kH/s
[2022-02-03 21:52:03] CPU #84: 0.87 kH/s
[2022-02-03 21:52:03] CPU #89: 0.87 kH/s
[2022-02-03 21:52:03] CPU #86: 0.87 kH/s
[2022-02-03 21:52:03] CPU #87: 0.87 kH/s
[2022-02-03 21:52:03] CPU #90: 0.87 kH/s
[2022-02-03 21:52:03] CPU #79: 0.87 kH/s
[2022-02-03 21:52:03] CPU #12: 0.87 kH/s
[2022-02-03 21:52:03] CPU #81: 0.86 kH/s
[2022-02-03 21:52:03] CPU #10: 0.86 kH/s
[2022-02-03 21:52:03] CPU #82: 0.87 kH/s
[2022-02-03 21:52:03] CPU #92: 0.87 kH/s
[2022-02-03 21:52:03] CPU #85: 0.87 kH/s
[2022-02-03 21:52:03] CPU #91: 0.87 kH/s
[2022-02-03 21:52:03] CPU #80: 0.87 kH/s
[2022-02-03 21:52:03] CPU #15: 0.87 kH/s
[2022-02-03 21:52:03] CPU #24: 0.87 kH/s
[2022-02-03 21:52:03] CPU #95: 0.87 kH/s
[2022-02-03 21:52:03] Total: 110.92 kH/s
[2022-02-03 21:52:03] CPU #18: 0.87 kH/s
[2022-02-03 21:52:03] CPU #21: 0.87 kH/s
[2022-02-03 21:52:03] CPU #19: 0.87 kH/s
[2022-02-03 21:52:03] CPU #22: 0.87 kH/s
[2022-02-03 21:52:03] CPU #25: 0.87 kH/s
[2022-02-03 21:52:03] CPU #26: 0.87 kH/s
[2022-02-03 21:52:03] CPU #23: 0.87 kH/s
[2022-02-03 21:52:03] CPU #20: 0.87 kH/s
[2022-02-03 21:52:03] CPU #27: 0.86 kH/s
[2022-02-03 21:52:03] CPU #16: 0.87 kH/s
[2022-02-03 21:52:03] CPU #28: 0.86 kH/s
[2022-02-03 21:52:03] CPU #17: 0.87 kH/s
[2022-02-03 21:52:03] CPU #30: 0.87 kH/s
[2022-02-03 21:52:03] CPU #31: 0.86 kH/s
[2022-02-03 21:52:03] CPU #29: 0.86 kH/s
[2022-02-03 21:52:08] Total: 110.93 kH/s
[2022-02-03 21:52:13] CPU #40: 1.73 kH/s
[2022-02-03 21:52:13] CPU #35: 1.73 kH/s
[2022-02-03 21:52:13] CPU #33: 1.73 kH/s
[2022-02-03 21:52:13] CPU #34: 1.73 kH/s
[2022-02-03 21:52:13] CPU #32: 1.73 kH/s
[2022-02-03 21:52:13] CPU #41: 1.73 kH/s
[2022-02-03 21:52:13] CPU #38: 1.73 kH/s
[2022-02-03 21:52:13] CPU #43: 1.73 kH/s
[2022-02-03 21:52:13] CPU #37: 1.73 kH/s
[2022-02-03 21:52:13] CPU #39: 1.73 kH/s
[2022-02-03 21:52:13] CPU #36: 1.73 kH/s
[2022-02-03 21:52:13] CPU #42: 1.73 kH/s
[2022-02-03 21:52:13] CPU #44: 1.73 kH/s
[2022-02-03 21:52:13] CPU #47: 1.73 kH/s
[2022-02-03 21:52:13] CPU #45: 1.73 kH/s
[2022-02-03 21:52:13] CPU #46: 1.73 kH/s
[2022-02-03 21:52:13] CPU #49: 1.73 kH/s
[2022-02-03 21:52:13] CPU #48: 1.73 kH/s
[2022-02-03 21:52:13] CPU #50: 1.73 kH/s
[2022-02-03 21:52:13] CPU #52: 1.73 kH/s
[2022-02-03 21:52:13] CPU #57: 1.73 kH/s
[2022-02-03 21:52:13] CPU #63: 1.73 kH/s
[2022-02-03 21:52:13] CPU #51: 1.73 kH/s
[2022-02-03 21:52:13] CPU #55: 1.73 kH/s
[2022-02-03 21:52:13] CPU #53: 1.73 kH/s
[2022-02-03 21:52:13] CPU #60: 1.73 kH/s
[2022-02-03 21:52:13] CPU #54: 1.73 kH/s
[2022-02-03 21:52:13] CPU #56: 1.73 kH/s
[2022-02-03 21:52:13] CPU #58: 1.73 kH/s
[2022-02-03 21:52:13] CPU #59: 1.73 kH/s
[2022-02-03 21:52:13] CPU #61: 1.73 kH/s
[2022-02-03 21:52:13] CPU #62: 1.73 kH/s
[2022-02-03 21:52:13] CPU #0: 0.86 kH/s
[2022-02-03 21:52:13] CPU #65: 0.87 kH/s
[2022-02-03 21:52:13] CPU #93: 0.87 kH/s
[2022-02-03 21:52:13] CPU #72: 0.87 kH/s
[2022-02-03 21:52:13] CPU #9: 0.87 kH/s
[2022-02-03 21:52:13] CPU #8: 0.87 kH/s
[2022-02-03 21:52:13] CPU #7: 0.87 kH/s
[2022-02-03 21:52:13] CPU #5: 0.87 kH/s
[2022-02-03 21:52:13] CPU #4: 0.87 kH/s
[2022-02-03 21:52:13] CPU #2: 0.87 kH/s
[2022-02-03 21:52:13] CPU #67: 0.87 kH/s
[2022-02-03 21:52:13] CPU #75: 0.87 kH/s
[2022-02-03 21:52:13] CPU #6: 0.87 kH/s
[2022-02-03 21:52:13] CPU #88: 0.87 kH/s
[2022-02-03 21:52:13] CPU #77: 0.86 kH/s
[2022-02-03 21:52:13] CPU #69: 0.87 kH/s
[2022-02-03 21:52:13] CPU #11: 0.87 kH/s
[2022-02-03 21:52:13] CPU #66: 0.86 kH/s
[2022-02-03 21:52:13] CPU #71: 0.87 kH/s
[2022-02-03 21:52:13] CPU #74: 0.86 kH/s
[2022-02-03 21:52:13] CPU #78: 0.86 kH/s
[2022-02-03 21:52:13] CPU #68: 0.87 kH/s
[2022-02-03 21:52:13] CPU #70: 0.87 kH/s
[2022-02-03 21:52:13] CPU #13: 0.87 kH/s
[2022-02-03 21:52:13] CPU #3: 0.86 kH/s
[2022-02-03 21:52:13] CPU #73: 0.86 kH/s
[2022-02-03 21:52:13] CPU #94: 0.87 kH/s
[2022-02-03 21:52:13] CPU #1: 0.87 kH/s
[2022-02-03 21:52:13] CPU #89: 0.87 kH/s
[2022-02-03 21:52:13] CPU #84: 0.87 kH/s
[2022-02-03 21:52:13] CPU #76: 0.87 kH/s
[2022-02-03 21:52:13] CPU #14: 0.87 kH/s
[2022-02-03 21:52:13] CPU #79: 0.87 kH/s
[2022-02-03 21:52:13] CPU #81: 0.87 kH/s
[2022-02-03 21:52:13] CPU #83: 0.87 kH/s
[2022-02-03 21:52:13] CPU #90: 0.87 kH/s
[2022-02-03 21:52:13] CPU #10: 0.87 kH/s
[2022-02-03 21:52:13] CPU #91: 0.87 kH/s
[2022-02-03 21:52:13] CPU #82: 0.87 kH/s
[2022-02-03 21:52:13] CPU #86: 0.86 kH/s
[2022-02-03 21:52:13] CPU #87: 0.86 kH/s
[2022-02-03 21:52:13] CPU #12: 0.87 kH/s
[2022-02-03 21:52:13] CPU #80: 0.87 kH/s
[2022-02-03 21:52:13] CPU #92: 0.86 kH/s
[2022-02-03 21:52:13] CPU #85: 0.86 kH/s
[2022-02-03 21:52:13] CPU #64: 0.85 kH/s
[2022-02-03 21:52:13] CPU #24: 0.87 kH/s
[2022-02-03 21:52:13] CPU #15: 0.87 kH/s
[2022-02-03 21:52:13] CPU #95: 0.86 kH/s
[2022-02-03 21:52:13] Total: 110.90 kH/s
[2022-02-03 21:52:13] CPU #23: 0.87 kH/s
[2022-02-03 21:52:13] CPU #22: 0.87 kH/s
[2022-02-03 21:52:13] CPU #20: 0.87 kH/s
[2022-02-03 21:52:13] CPU #27: 0.87 kH/s
[2022-02-03 21:52:13] CPU #28: 0.87 kH/s
[2022-02-03 21:52:13] CPU #21: 0.87 kH/s
[2022-02-03 21:52:13] CPU #18: 0.87 kH/s
[2022-02-03 21:52:13] CPU #26: 0.87 kH/s
[2022-02-03 21:52:13] CPU #17: 0.87 kH/s
[2022-02-03 21:52:13] CPU #19: 0.87 kH/s
[2022-02-03 21:52:13] CPU #25: 0.87 kH/s
[2022-02-03 21:52:13] CPU #16: 0.87 kH/s
[2022-02-03 21:52:13] CPU #30: 0.87 kH/s
[2022-02-03 21:52:13] CPU #31: 0.87 kH/s
[2022-02-03 21:52:13] CPU #29: 0.87 kH/s
[2022-02-03 21:52:18] Total: 110.93 kH/s
[2022-02-03 21:52:23] CPU #40: 1.73 kH/s
[2022-02-03 21:52:23] CPU #33: 1.73 kH/s
[2022-02-03 21:52:23] CPU #35: 1.73 kH/s
[2022-02-03 21:52:23] CPU #34: 1.73 kH/s
[2022-02-03 21:52:23] CPU #32: 1.73 kH/s
[2022-02-03 21:52:23] CPU #41: 1.73 kH/s
[2022-02-03 21:52:23] CPU #38: 1.73 kH/s
[2022-02-03 21:52:23] CPU #37: 1.73 kH/s
[2022-02-03 21:52:23] CPU #43: 1.73 kH/s
[2022-02-03 21:52:23] CPU #39: 1.73 kH/s
[2022-02-03 21:52:23] CPU #36: 1.73 kH/s
[2022-02-03 21:52:23] CPU #42: 1.73 kH/s
[2022-02-03 21:52:23] CPU #49: 1.73 kH/s
[2022-02-03 21:52:23] CPU #44: 1.73 kH/s
[2022-02-03 21:52:23] CPU #47: 1.73 kH/s
[2022-02-03 21:52:23] CPU #45: 1.73 kH/s
[2022-02-03 21:52:23] CPU #46: 1.73 kH/s
[2022-02-03 21:52:23] CPU #48: 1.73 kH/s
[2022-02-03 21:52:23] CPU #50: 1.73 kH/s
[2022-02-03 21:52:23] CPU #57: 1.73 kH/s
[2022-02-03 21:52:23] CPU #63: 1.73 kH/s
[2022-02-03 21:52:23] CPU #53: 1.73 kH/s
[2022-02-03 21:52:23] CPU #52: 1.73 kH/s
[2022-02-03 21:52:23] CPU #60: 1.73 kH/s
[2022-02-03 21:52:23] CPU #56: 1.73 kH/s
[2022-02-03 21:52:23] CPU #51: 1.73 kH/s
[2022-02-03 21:52:23] CPU #55: 1.73 kH/s
[2022-02-03 21:52:23] CPU #54: 1.73 kH/s
[2022-02-03 21:52:23] CPU #58: 1.73 kH/s
[2022-02-03 21:52:23] CPU #59: 1.73 kH/s
[2022-02-03 21:52:23] CPU #61: 1.73 kH/s
[2022-02-03 21:52:23] CPU #62: 1.73 kH/s
[2022-02-03 21:52:23] CPU #65: 0.87 kH/s
[2022-02-03 21:52:23] CPU #8: 0.87 kH/s
[2022-02-03 21:52:23] CPU #93: 0.87 kH/s
[2022-02-03 21:52:23] CPU #0: 0.86 kH/s
[2022-02-03 21:52:23] CPU #5: 0.87 kH/s
[2022-02-03 21:52:23] CPU #72: 0.87 kH/s
[2022-02-03 21:52:23] CPU #7: 0.87 kH/s
[2022-02-03 21:52:23] CPU #75: 0.87 kH/s
[2022-02-03 21:52:23] CPU #2: 0.87 kH/s
[2022-02-03 21:52:23] CPU #77: 0.87 kH/s
[2022-02-03 21:52:23] CPU #78: 0.87 kH/s
[2022-02-03 21:52:23] CPU #69: 0.87 kH/s
[2022-02-03 21:52:23] CPU #9: 0.87 kH/s
[2022-02-03 21:52:23] CPU #71: 0.87 kH/s
[2022-02-03 21:52:23] CPU #66: 0.87 kH/s
[2022-02-03 21:52:23] CPU #74: 0.87 kH/s
[2022-02-03 21:52:23] CPU #67: 0.87 kH/s
[2022-02-03 21:52:23] CPU #4: 0.86 kH/s
[2022-02-03 21:52:23] CPU #13: 0.87 kH/s
[2022-02-03 21:52:23] CPU #3: 0.87 kH/s
[2022-02-03 21:52:23] CPU #73: 0.87 kH/s
[2022-02-03 21:52:23] CPU #88: 0.86 kH/s
[2022-02-03 21:52:23] CPU #6: 0.86 kH/s
[2022-02-03 21:52:23] CPU #11: 0.86 kH/s
[2022-02-03 21:52:23] CPU #94: 0.87 kH/s
[2022-02-03 21:52:23] CPU #68: 0.86 kH/s