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3N94.txt
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sbc-bench v0.9.2 RPi 4 Model B Rev 1.4 / BCM2711 rev B0 (Sat, 22 Jan 2022 10:44:23 -0500)
Distributor ID: Raspbian
Description: Raspbian GNU/Linux 11 (bullseye)
Release: 11
Codename: bullseye
Architecture: armhf
Raspberry Pi ThreadX version:
Nov 18 2021 16:16:49
Copyright (c) 2012 Broadcom
version d9b293558b4cef6aabedcc53c178e7604de90788 (clean) (release) (start)
ThreadX configuration (/boot/config.txt):
config_hdmi_boost=7
dtparam=i2c_arm=on
dtparam=i2s=on
dtparam=audio=on
disable_overscan=1
[cm4]
[all]
[pi4]
arm_boost=1
[all]
max_usb_current=1
hdmi_group=2
hdmi_mode=87
hdmi_timings=400 0 100 10 140 1280 10 20 20 2 0 0 0 60 0 43000000 3
display_rotate=3
dtoverlay=i2c-rtc,ds3231
[all]
dtoverlay=gpio-fan,gpiopin=14,temp=60000
Actual ThreadX settings:
arm_boost=1
arm_freq=1800
audio_pwm_mode=514
config_hdmi_boost=7
core_freq=500
core_freq_min=200
disable_commandline_tags=2
disable_l2cache=1
disable_overscan=1
display_hdmi_rotate=-1
display_lcd_rotate=-1
display_rotate=3
dvfs=3
enable_gic=1
force_eeprom_read=1
force_pwm_open=1
framebuffer_ignore_alpha=1
framebuffer_swap=1
gpu_freq=500
gpu_freq_min=250
init_uart_clock=0x2dc6c00
lcd_framerate=60
max_framebuffers=-1
over_voltage_avs=-20000
pause_burst_frames=1
program_serial_random=1
total_mem=8192
hdmi_force_cec_address:0=65535
hdmi_force_cec_address:1=65535
hdmi_group:0=2
hdmi_mode:0=87
hdmi_pixel_freq_limit:0=0x11e1a300
hdmi_pixel_freq_limit:1=0x11e1a300
/usr/bin/gcc (Raspbian 10.2.1-6+rpi1) 10.2.1 20210110
Uptime: 10:44:23 up 4 min, 1 user, load average: 0.77, 0.33, 0.14
Linux 5.10.63-v7l+ (whitebrick) 01/22/22 _armv7l_ (4 CPU)
avg-cpu: %user %nice %system %iowait %steal %idle
2.16 0.05 2.38 2.07 0.00 93.34
Device tps kB_read/s kB_wrtn/s kB_dscd/s kB_read kB_wrtn kB_dscd
mmcblk0 25.72 775.41 349.37 92099.35 228002 102729 27080891
total used free shared buff/cache available
Mem: 7.7Gi 50Mi 7.6Gi 0.0Ki 58Mi 7.5Gi
Swap: 99Mi 0B 99Mi
Filename Type Size Used Priority
/var/swap file 102396 0 -2
##########################################################################
Checking cpufreq OPP (Cortex-A72):
Cpufreq OPP: 1800 ThreadX: 1800 Measured: 1800 @ 0.9260V
Cpufreq OPP: 1700 ThreadX: 1700 Measured: 1700 @ 0.9040V
Cpufreq OPP: 1600 ThreadX: 1600 Measured: 1600 @ 0.8820V
Cpufreq OPP: 1500 ThreadX: 1500 Measured: 1500 @ 0.8600V
Cpufreq OPP: 1400 ThreadX: 1400 Measured: 1385 @ 0.8600V
Cpufreq OPP: 1300 ThreadX: 1300 Measured: 1300 @ 0.8600V
Cpufreq OPP: 1200 ThreadX: 1200 Measured: 1200 @ 0.8600V
Cpufreq OPP: 1100 ThreadX: 1100 Measured: 1100 @ 0.8600V
Cpufreq OPP: 1000 ThreadX: 1000 Measured: 1000 @ 0.8600V
Cpufreq OPP: 900 ThreadX: 900 Measured: 900 @ 0.8600V
Cpufreq OPP: 800 ThreadX: 800 Measured: 800 @ 0.8600V
Cpufreq OPP: 700 ThreadX: 700 Measured: 700 @ 0.8600V
Cpufreq OPP: 600 ThreadX: 600 Measured: 600 @ 0.8600V
##########################################################################
Executing benchmark on cpu0 (Cortex-A72):
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 : 2379.4 MB/s
C copy backwards (32 byte blocks) : 2388.0 MB/s
C copy backwards (64 byte blocks) : 2304.6 MB/s (0.2%)
C copy : 2312.3 MB/s
C copy prefetched (32 bytes step) : 2302.7 MB/s
C copy prefetched (64 bytes step) : 2302.1 MB/s
C 2-pass copy : 1858.4 MB/s
C 2-pass copy prefetched (32 bytes step) : 1959.9 MB/s (0.6%)
C 2-pass copy prefetched (64 bytes step) : 1821.6 MB/s
C fill : 2696.6 MB/s
C fill (shuffle within 16 byte blocks) : 2694.6 MB/s
C fill (shuffle within 32 byte blocks) : 2695.5 MB/s
C fill (shuffle within 64 byte blocks) : 2697.2 MB/s (0.6%)
---
standard memcpy : 2310.8 MB/s
standard memset : 2689.2 MB/s
---
NEON read : 3656.9 MB/s (0.1%)
NEON read prefetched (32 bytes step) : 3693.9 MB/s (0.2%)
NEON read prefetched (64 bytes step) : 3693.9 MB/s (0.2%)
NEON read 2 data streams : 3385.8 MB/s (1.1%)
NEON read 2 data streams prefetched (32 bytes step) : 3379.1 MB/s (0.2%)
NEON read 2 data streams prefetched (64 bytes step) : 3379.1 MB/s (0.2%)
NEON copy : 2320.8 MB/s (0.1%)
NEON copy prefetched (32 bytes step) : 2303.9 MB/s
NEON copy prefetched (64 bytes step) : 2304.7 MB/s
NEON unrolled copy : 2308.0 MB/s
NEON unrolled copy prefetched (32 bytes step) : 2290.0 MB/s
NEON unrolled copy prefetched (64 bytes step) : 2289.8 MB/s (1.1%)
NEON copy backwards : 2384.4 MB/s
NEON copy backwards prefetched (32 bytes step) : 2396.8 MB/s
NEON copy backwards prefetched (64 bytes step) : 2396.7 MB/s (0.1%)
NEON 2-pass copy : 1871.0 MB/s
NEON 2-pass copy prefetched (32 bytes step) : 1950.5 MB/s (0.2%)
NEON 2-pass copy prefetched (64 bytes step) : 1973.5 MB/s
NEON unrolled 2-pass copy : 1854.1 MB/s
NEON unrolled 2-pass copy prefetched (32 bytes step) : 1961.0 MB/s (0.2%)
NEON unrolled 2-pass copy prefetched (64 bytes step) : 2009.5 MB/s
NEON fill : 2696.9 MB/s (0.6%)
NEON fill backwards : 2700.6 MB/s (0.2%)
VFP copy : 2311.1 MB/s
VFP 2-pass copy : 1811.6 MB/s (0.2%)
ARM fill (STRD) : 2697.4 MB/s (3.3%)
ARM fill (STM with 8 registers) : 2695.9 MB/s
ARM fill (STM with 4 registers) : 2692.3 MB/s
ARM copy prefetched (incr pld) : 2303.9 MB/s (1.0%)
ARM copy prefetched (wrap pld) : 2300.5 MB/s
ARM 2-pass copy prefetched (incr pld) : 1897.6 MB/s (0.2%)
ARM 2-pass copy prefetched (wrap pld) : 1882.1 MB/s (0.2%)
==========================================================================
== 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) : 1166.9 MB/s
NEON copy (from framebuffer) : 741.1 MB/s (0.9%)
NEON 2-pass copy (from framebuffer) : 654.5 MB/s (0.5%)
NEON unrolled copy (from framebuffer) : 636.2 MB/s (0.3%)
NEON 2-pass unrolled copy (from framebuffer) : 558.4 MB/s (0.4%)
VFP copy (from framebuffer) : 706.1 MB/s
VFP 2-pass copy (from framebuffer) : 612.5 MB/s (0.4%)
ARM copy (from framebuffer) : 733.1 MB/s
ARM 2-pass copy (from framebuffer) : 655.4 MB/s (0.5%)
==========================================================================
== 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 : 4.7 ns / 7.4 ns
131072 : 7.2 ns / 9.9 ns
262144 : 10.3 ns / 13.1 ns
524288 : 11.9 ns / 15.1 ns
1048576 : 26.0 ns / 40.1 ns
2097152 : 92.2 ns / 134.6 ns
4194304 : 124.0 ns / 160.6 ns
8388608 : 147.4 ns / 183.2 ns
16777216 : 158.7 ns / 192.9 ns
33554432 : 164.9 ns / 198.2 ns
67108864 : 177.5 ns / 214.8 ns
##########################################################################
Executing benchmark twice on cluster 0 (Cortex-A72)
OpenSSL 1.1.1k, built on 25 Mar 2021
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes 16384 bytes
aes-128-cbc 74506.05k 91584.09k 99347.11k 101366.78k 101976.75k 101782.87k
aes-128-cbc 74726.13k 91518.53k 99337.98k 101207.04k 101771.95k 101810.18k
aes-192-cbc 67306.94k 80220.65k 86249.05k 87764.31k 87902.89k 88124.07k
aes-192-cbc 67085.16k 80381.25k 86256.47k 87664.64k 88195.07k 88118.61k
aes-256-cbc 60792.65k 71851.43k 76053.16k 77344.09k 77690.20k 77725.70k
aes-256-cbc 60846.21k 71777.09k 76086.44k 77382.31k 77725.70k 77611.01k
##########################################################################
Executing benchmark single-threaded on cpu0 (Cortex-A72)
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,32 bits,4 CPUs LE)
LE
CPU Freq: 64000000 64000000 64000000 64000000 - - 512000000 1024000000 2048000000
RAM size: 7899 MB, # CPU hardware threads: 4
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: 1353 100 1318 1317 | 26066 100 2227 2226
23: 1271 100 1296 1295 | 25382 100 2198 2197
24: 1205 100 1297 1296 | 24640 100 2164 2163
25: 1126 100 1286 1286 | 23894 100 2128 2127
---------------------------------- | ------------------------------
Avr: 100 1299 1298 | 100 2179 2178
Tot: 100 1739 1738
##########################################################################
Executing benchmark 3 times multi-threaded
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,32 bits,4 CPUs LE)
LE
CPU Freq: 64000000 64000000 64000000 32000000 128000000 256000000 512000000 - -
RAM size: 7899 MB, # CPU hardware threads: 4
RAM usage: 882 MB, # Benchmark threads: 4
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 3705 365 988 3605 | 99129 399 2117 8457
23: 3401 354 979 3466 | 96137 398 2089 8318
24: 3404 374 980 3661 | 93786 399 2063 8233
25: 3209 370 990 3664 | 91041 399 2029 8102
---------------------------------- | ------------------------------
Avr: 366 984 3599 | 399 2074 8278
Tot: 382 1529 5938
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,32 bits,4 CPUs LE)
LE
CPU Freq: 64000000 - 64000000 64000000 128000000 256000000 512000000 1024000000 2048000000
RAM size: 7899 MB, # CPU hardware threads: 4
RAM usage: 882 MB, # Benchmark threads: 4
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 3591 350 998 3494 | 99133 399 2120 8458
23: 3484 368 966 3551 | 96718 399 2096 8369
24: 3399 373 979 3655 | 94001 399 2068 8252
25: 3215 370 992 3671 | 90738 398 2029 8075
---------------------------------- | ------------------------------
Avr: 365 983 3593 | 399 2078 8288
Tot: 382 1531 5941
7-Zip (a) [32] 16.02 : Copyright (c) 1999-2016 Igor Pavlov : 2016-05-21
p7zip Version 16.02 (locale=C,Utf16=off,HugeFiles=on,32 bits,4 CPUs LE)
LE
CPU Freq: 64000000 - - - 128000000 - - 1024000000 2048000000
RAM size: 7899 MB, # CPU hardware threads: 4
RAM usage: 882 MB, # Benchmark threads: 4
Compressing | Decompressing
Dict Speed Usage R/U Rating | Speed Usage R/U Rating
KiB/s % MIPS MIPS | KiB/s % MIPS MIPS
22: 3601 348 1006 3504 | 99001 398 2120 8446
23: 3525 373 963 3592 | 96591 399 2096 8358
24: 3381 373 975 3636 | 93969 399 2067 8249
25: 3198 370 988 3652 | 91000 399 2030 8099
---------------------------------- | ------------------------------
Avr: 366 983 3596 | 399 2078 8288
Tot: 382 1531 5942
Compression: 3599,3593,3596
Decompression: 8278,8288,8288
Total: 5938,5941,5942
##########################################################################
Testing clockspeeds again. System health now:
Time fake/real load %cpu %sys %usr %nice %io %irq Temp VCore
11:00:03: 1800/1800MHz 4.06 90% 3% 86% 0% 0% 0% 51.6°C 0.9260V
Checking cpufreq OPP (Cortex-A72):
Cpufreq OPP: 1800 ThreadX: 1800 Measured: 1795 @ 0.9260V
Cpufreq OPP: 1700 ThreadX: 1700 Measured: 1700 @ 0.9040V
Cpufreq OPP: 1600 ThreadX: 1600 Measured: 1600 @ 0.8820V
Cpufreq OPP: 1500 ThreadX: 1500 Measured: 1215 @ 0.8600V
Cpufreq OPP: 1400 ThreadX: 1400 Measured: 1265 @ 0.8600V
Cpufreq OPP: 1300 ThreadX: 1300 Measured: 1155 @ 0.8600V
Cpufreq OPP: 1200 ThreadX: 1200 Measured: 1040 @ 0.8600V
Cpufreq OPP: 1100 ThreadX: 1100 Measured: 975 @ 0.8600V
Cpufreq OPP: 1000 ThreadX: 1000 Measured: 795 @ 0.8600V
Cpufreq OPP: 900 ThreadX: 900 Measured: 810 @ 0.8600V
Cpufreq OPP: 800 ThreadX: 800 Measured: 795 @ 0.8600V
Cpufreq OPP: 700 ThreadX: 700 Measured: 700 @ 0.8600V
Cpufreq OPP: 600 ThreadX: 600 Measured: 600 @ 0.8600V
##########################################################################
Thermal source: /sys/devices/virtual/thermal/thermal_zone0/ (cpu-thermal)
System health while running tinymembench:
Time fake/real load %cpu %sys %usr %nice %io %irq Temp VCore
10:44:35: 1800/1800MHz 0.73 7% 2% 2% 0% 2% 0% 36.0°C 0.9260V
10:45:15: 1800/1800MHz 0.86 25% 0% 24% 0% 0% 0% 38.9°C 0.9260V
10:45:55: 1800/1800MHz 0.93 25% 0% 25% 0% 0% 0% 41.4°C 0.9260V
10:46:35: 1800/1800MHz 0.97 25% 0% 25% 0% 0% 0% 43.8°C 0.9260V
10:47:15: 1800/1800MHz 0.98 25% 0% 25% 0% 0% 0% 44.8°C 0.9260V
10:47:55: 1800/1800MHz 0.99 26% 0% 25% 0% 0% 0% 45.3°C 0.9260V
10:48:35: 1800/1800MHz 1.00 25% 0% 25% 0% 0% 0% 46.3°C 0.9260V
10:49:15: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 47.2°C 0.9260V
10:49:55: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 46.7°C 0.9260V
10:50:36: 1800/1800MHz 1.00 25% 0% 25% 0% 0% 0% 49.2°C 0.9260V
10:51:16: 1800/1800MHz 1.00 25% 0% 25% 0% 0% 0% 49.2°C 0.9260V
10:51:56: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 49.7°C 0.9260V
10:52:36: 1800/1800MHz 1.00 25% 0% 25% 0% 0% 0% 50.1°C 0.9260V
System health while running OpenSSL benchmark:
Time fake/real load %cpu %sys %usr %nice %io %irq Temp VCore
10:53:06: 1800/1800MHz 1.00 18% 1% 16% 0% 0% 0% 51.6°C 0.9260V
10:53:23: 1800/1800MHz 1.00 25% 0% 25% 0% 0% 0% 53.1°C 0.9260V
10:53:39: 1800/1800MHz 1.00 25% 0% 25% 0% 0% 0% 52.6°C 0.9260V
10:53:55: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 54.0°C 0.9260V
10:54:11: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 53.1°C 0.9260V
10:54:27: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 53.1°C 0.9260V
10:54:43: 1800/1800MHz 1.00 25% 0% 25% 0% 0% 0% 55.0°C 0.9260V
System health while running 7-zip single core benchmark:
Time fake/real load %cpu %sys %usr %nice %io %irq Temp VCore
10:54:55: 1800/1800MHz 1.00 19% 0% 17% 0% 0% 0% 54.0°C 0.9260V
10:55:02: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 54.5°C 0.9260V
10:55:09: 1800/1800MHz 1.00 30% 0% 24% 0% 5% 0% 54.0°C 0.9260V
10:55:18: 1800/1800MHz 1.00 37% 0% 24% 0% 12% 0% 54.5°C 0.9260V
10:55:25: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 54.5°C 0.9260V
10:55:32: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 53.6°C 0.9260V
10:55:39: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 53.6°C 0.9260V
10:55:46: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 53.6°C 0.9260V
10:55:54: 1800/1800MHz 1.00 25% 1% 23% 0% 0% 0% 55.5°C 0.9260V
10:56:01: 1800/1800MHz 1.00 25% 0% 24% 0% 0% 0% 55.5°C 0.9260V
10:56:08: 1800/1800MHz 1.00 25% 1% 24% 0% 0% 0% 54.5°C 0.9260V
10:56:15: 1800/1800MHz 1.00 25% 1% 24% 0% 0% 0% 55.5°C 0.9260V
10:56:22: 1800/1800MHz 1.00 25% 1% 24% 0% 0% 0% 55.5°C 0.9260V
System health while running 7-zip multi core benchmark:
Time fake/real load %cpu %sys %usr %nice %io %irq Temp VCore
10:56:26: 1800/1800MHz 1.00 20% 0% 18% 0% 0% 0% 55.5°C 0.9260V
10:56:42: 1800/1800MHz 1.46 92% 1% 91% 0% 0% 0% 61.8°C 0.9260V
10:56:57: 1800/1800MHz 2.03 91% 2% 88% 0% 0% 0% 59.9°C 0.9260V
10:57:13: 1800/1800MHz 2.47 97% 2% 95% 0% 0% 0% 58.9°C 0.9260V
10:57:28: 1800/1800MHz 2.88 89% 4% 85% 0% 0% 0% 55.0°C 0.9260V
10:57:44: 1800/1800MHz 3.13 86% 2% 84% 0% 0% 0% 51.6°C 0.9260V
10:57:59: 1800/1800MHz 3.19 92% 1% 91% 0% 0% 0% 56.0°C 0.9260V
10:58:14: 1800/1800MHz 3.44 92% 2% 89% 0% 0% 0% 53.6°C 0.9260V
10:58:30: 1800/1800MHz 3.56 97% 2% 95% 0% 0% 0% 55.0°C 0.9260V
10:58:46: 1800/1800MHz 3.73 89% 3% 85% 0% 0% 0% 52.6°C 0.9260V
10:59:01: 1800/1800MHz 3.79 86% 1% 84% 0% 0% 0% 51.1°C 0.9260V
10:59:17: 1800/1800MHz 3.84 93% 1% 91% 0% 0% 0% 53.1°C 0.9260V
10:59:32: 1800/1800MHz 4.01 93% 2% 91% 0% 0% 0% 52.6°C 0.9260V
10:59:47: 1800/1800MHz 4.08 96% 2% 94% 0% 0% 0% 51.1°C 0.9260V
11:00:03: 1800/1800MHz 4.06 90% 3% 86% 0% 0% 0% 51.6°C 0.9260V
##########################################################################
dmesg output while running the benchmarks:
[ 305.154578] process 'local/src/tinymembench/tinymembench' started with executable stack
##########################################################################
Linux 5.10.63-v7l+ (whitebrick) 01/22/22 _armv7l_ (4 CPU)
avg-cpu: %user %nice %system %iowait %steal %idle
31.94 0.03 1.24 0.64 0.00 66.15
Device tps kB_read/s kB_wrtn/s kB_dscd/s kB_read kB_wrtn kB_dscd
mmcblk0 7.00 233.34 84.09 21517.36 293670 105829 27080891
total used free shared buff/cache available
Mem: 7.7Gi 81Mi 7.5Gi 0.0Ki 124Mi 7.4Gi
Swap: 99Mi 0B 99Mi
Filename Type Size Used Priority
/var/swap file 102396 0 -2
CPU sysfs topology (clusters, cpufreq members, clockspeeds)
cpufreq min max
CPU cluster policy speed speed core type
0 0 0 600 1800 Cortex-A72 / r0p3
1 0 0 600 1800 Cortex-A72 / r0p3
2 0 0 600 1800 Cortex-A72 / r0p3
3 0 0 600 1800 Cortex-A72 / r0p3
Architecture: armv7l
Byte Order: Little Endian
CPU(s): 4
On-line CPU(s) list: 0-3
Thread(s) per core: 1
Core(s) per socket: 4
Socket(s): 1
Vendor ID: ARM
Model: 3
Model name: Cortex-A72
Stepping: r0p3
CPU max MHz: 1800.0000
CPU min MHz: 600.0000
BogoMIPS: 324.00
Flags: half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt vfpd32 lpae evtstrm crc32
SoC guess: BCM2711B0
Compiler: /usr/bin/gcc (Raspbian 10.2.1-6+rpi1/arm-linux-gnueabihf)
Userland: armhf
ThreadX: d9b293558b4cef6aabedcc53c178e7604de90788 / Nov 18 2021 16:16:49
Kernel: 5.10.63-v7l+/armv7l
CONFIG_HZ=100
CONFIG_HZ_100=y
CONFIG_HZ_FIXED=0
CONFIG_PREEMPTIRQ_TRACEPOINTS=y
CONFIG_PREEMPT_VOLUNTARY=y
| RPi 4 Model B Rev 1.4 / BCM2711 rev B0 | 1800 MHz | 5.10 | Bullseye armhf | 5940 | 74620 | 77670 | 2310 | 2690 | - |