Geekbench

Geekbench is a cross-platform benchmark that measures the performance of your computer's processor and memory.

Sysbench

sudo apt-get update
sudo apt-get install sysbench
sysbench --num-threads=1 --test=cpu --cpu-max-prime=20000 --validate run
# sysbench version is 0.4.12, Ubuntu 16.04

sysbench --threads=1 cpu --cpu-max-prime=20000 --validate run
# sysbench version 1.0.11, Ubuntu 18.04

The following one was used to benchmark Raspberry Pi 32-bit vs 64-bit (Novaspirit Tech).

sysbench --threads=4 --test=cpu --cpu-max-prime=300000 run && 7za b

Two websites have a database for benchmarks.

• https://cpu-benchmarks.com
• https://www.cpubenchmark.net

Note that

• The /proc/cpuinfo shows only the current CPU freq. If we specify all threads when we ran the sysbench, we will be able to see the CPU MHz changed when we run watch.

watch -n1 "cat /proc/cpuinfo | grep \"MHz\""

• To get the maximum freq, follow this

sudo cat /sys/devices/system/cpu/*/cpufreq/cpuinfo_max_freq

Install 0.4.12 from source

For some reason, the threads option in version 1.0 does not work. See cpu test: single thread and multi-threads get the same result and Question about CPU benchmarking.

If we need to use version 0.4.12, we need to build from the source.

• https://wiki.mikejung.biz/Sysbench#Sysbench_0.4.12_Source_Install_On_CentOS_6.5_and_CentOS_6.6 to download the source code
• Installing sysbench on Ubuntu
• https://github.com/akopytov/sysbench/blob/master/README.md#general-syntax How to build from source

sudo apt install automake autoconf libtool libmysqlclient-dev libssl1.0.0 libssl-dev make

wget http://pkgs.fedoraproject.org/repo/pkgs/sysbench/sysbench-0.4.12.tar.gz/3a6d54fdd3fe002328e4458206392b9d/sysbench-0.4.12.tar.gz
tar zxvf sysbench-0.4.12.tar.gz
cd sysbench-0.4.12/
./autogen.sh
./configure --without-mysql
sudo make # Cannot establish any listening sockets - Make sure an X server isn't already running(EE)
          # ...
          # ../libtool: line 5281: : command not found
sudo make install

Run sysbench 0.4.12 using singularity

1. Install singularity either from pre-build binary or source (See the 'Docs' under https://sylabs.io/singularity/)
2. Create a new sub and build a container
3. 'Execute' the container

# step 1: the following method installed an old version (2.6.1) of singularity
#         
$ wget -O- http://neuro.debian.net/lists/bionic.us-nh.libre | sudo tee /etc/apt/sources.list.d/neurodebian.sources.list
$ sudo apt-key adv --recv-keys --keyserver hkp://pool.sks-keyservers.net:80 0xA5D32F012649A5A9
$ sudo apt update
$ sudo apt-get install singularity-container
$ singularity --version

# step 2
$ mkdir sysbench; cd sysbench
$ nano sysbench.def 
$ sudo singularity build sysbench0412 sysbench.def

# step 3
$ singularity exec sysbench0412 sysbench --num-threads=1 --test=cpu --cpu-max-prime=20000 --validate run
$ singularity exec sysbench0412 sysbench --num-threads=4 --test=cpu --cpu-max-prime=20000 --validate run

where the definition file <Singularity> (recall Ubuntu 16.04 still has the old version of sysbench) is

$ cat sysbench.def
Bootstrap: docker
From: ubuntu:16.04

%post
    apt-get -y update
    apt-get -y install sysbench

%environment
    export LC_ALL=C
    export PATH=/usr/games:$PATH

Interestingly, the container build using singularity 2.6.1 also works on singularity 3.5.0 (compile from source).

Version 1.0.X

I find the correct way to use the utility is to specify the all threads and use the time command.

$ time sysbench --threads=4 cpu --cpu-max-prime=20000 --validate run
sysbench 1.0.11 (using system LuaJIT 2.1.0-beta3)

Running the test with following options:
Number of threads: 4
Additional request validation enabled.

Initializing random number generator from current time


Prime numbers limit: 20000

Initializing worker threads...

Threads started!

CPU speed:
    events per second:   769.40

General statistics:
    total time:                          10.0053s
    total number of events:              7700

Latency (ms):
         min:                                  5.18
         avg:                                  5.20
         max:                                 14.56
         95th percentile:                      5.18
         sum:                              40003.22

Threads fairness:
    events (avg/stddev):           1925.0000/1.00
    execution time (avg/stddev):   10.0008/0.00


real	0m10.043s
user	0m39.992s
sys	0m0.016s

$ time sysbench --threads=1 cpu --cpu-max-prime=20000 --validate run
sysbench 1.0.11 (using system LuaJIT 2.1.0-beta3)

Running the test with following options:
Number of threads: 1
Additional request validation enabled.

Initializing random number generator from current time


Prime numbers limit: 20000

Initializing worker threads...

Threads started!

CPU speed:
    events per second:   192.45

General statistics:
    total time:                          10.0034s
    total number of events:              1927

Latency (ms):
         min:                                  5.18
         avg:                                  5.19
         max:                                 17.24
         95th percentile:                      5.18
         sum:                              10000.58

Threads fairness:
    events (avg/stddev):           1927.0000/0.00
    execution time (avg/stddev):   10.0006/0.00


real	0m10.049s
user	0m10.028s
sys	0m0.020s

Odroid C4 vs Raspberry Pi 4 (ExplainingComputers)

sysbench cpu --cpu-max-prime=20000 --threads=4 --time=0 --events=10000 run

We can look at

1. the CPU speed: events per second (higher is better),
2. General statistics: total time (lower is better).

nbench

wget http://www.tux.org/~mayer/linux/nbench-byte-2.2.3.tar.gz
tar xzvf nbench-byte-2.2.3.tar.gz
cd nbench-byte-2.2.3
make
./nbench

geekbench

https://www.geekbench.com/

Google: how to run geekbench on the raspberry pi

CPU stress test

How to Impose High CPU Load and Stress Test on Linux Using ‘Stress-ng’ Tool

• stress

  sudo apt-get install stress
  uptime; sudo stress --cpu  8 --timeout 20; uptime   # 8 cores, 20 seconds
  

• stress-ng

  sudo apt-get install stress-ng    
  uptime; sudo stress-ng --cpu 8 --timeout 60 --metrics-brief; uptime 
  uptime; sudo stress-ng --cpu 4 --cpu-method fft --timeout 2m; uptime
  uptime; sudo stress-ng --hdd 5 --hdd-ops 100000; uptime
  uptime; sudo stress-ng --cpu 4 --io 4 --vm 1 --vm-bytes 1G --timeout 60s --metrics-brief; uptime
  

CPU/GPU overlock

3 Ways to Check If Your CPU or GPU Is Overclocked

Hardinfo (GUI)

sudo apt install hardinfo (this will appear in administration as “System Profiler & Benchmark”). See Odroid C4 vs Raspberry Pi 4.

Simple C program

See Time the iterations from 0 to_2147483647

Python vs C

How fast is C++ compared to Python?

R program

Gross inefficiency in influence.lm, r-source on github

Videos

Raspberry Pi 4B vs Jetson Nano

On Ubuntu, use one of the following commands to find out the graphics card information.

• sudo lshw -C display
• lspci | grep -i --color 'vga\|3d\|2d'

Disk speed test

• Disk Speed Test (Read/Write): HDD, SSD Performance in Linux
• GUI method: use the 'disks' (gnome-disks) utility in Ubuntu
• 14 Hard Drive Speed Test & Benchmark Tools for SSD/HDD such as CrystalDiskMark

KDiskMark (GUI)

KDiskMark Is A GUI HDD / SSD Benchmark Tool For Linux (Similar To CrystalDiskMark)

dd

Linux and Unix Test Disk I/O Performance With dd Command

• Test write speed

$ sync; dd if=/dev/zero of=tempfile bs=1M count=1024; sync

# External storage
$ sync; dd if=/dev/zero of=/media/user/MyUSB/tempfile bs=1M count=1024; sync

• Test read speed

$ dd if=tempfile of=/dev/null bs=1M count=1024  # do not use this

# Clear the cache
$ sudo /sbin/sysctl -w vm.drop_caches=3
$ dd if=tempfile of=/dev/null bs=1M count=1024  # consistent with 'disks' utility

hdparm

hdparm is a Linux command line utility that allows to set and view hardware parameters of hard disk drives. -t and --direct measures data transfer rate but bypassing hard drive's buffer cache memory thus reading directly from the disk.

lsblk   # find the root "/" device

sudo hdparm -t --direct /dev/mmcblk0p1  # eg internal
sudo hdparm -t --direct /dev/mmcblk0p2  # eg sd card
sudo hdparm -t --direct /dev/sda1       # eg USB 
sudo hdparm -Tt /dev/sda
sudo hdparm -t /dev/vdb                 # Measure Hard Disk Device Read Speed
sudo hdparm -T /dev/vdb                 # Measure Hard Disk Cache Read Speed
# Reading cache will give more higher performance than reading 
# from disk because only the cached data will be used and tested.

hdparm -I /dev/sda                      # show information about disk

Example: Silicon-power 512GB ssd. The box says it can read up to 560MB/s & write up to 530MB/s. Below is a test result running on NUC Pentium Silver J5005 CPU.

$ sudo hdparm -t --direct /dev/sdb1
[sudo] password for brb: 

/dev/sdb1:
 Timing O_DIRECT disk reads: 1068 MB in  3.01 seconds = 355.34 MB/sec

On UDOO x86, the SSD is 341.77MB/s. The eMMC speed on UDOO x86 is 130MB/s. A portable HDD has a speed 24-29MB/s.

On ODroid x4, the eMMC is 150MB/s.

On phenom server, Samsung SSD 860 EVO 500GB is 235 MB/s, the HDD speed is 150MB/s (WD black WD4003FZEX 4TB, 2013) and 68MB/s (ST ST3640323as 640GB, 2014).

On Raspberry Pi 3B (sudo apt-get install hdparm), the microSD speed is 22MB/s only. The same SSD plugged to a USB2 port has a speed 34MB/s only.

on Dell t3600 Xeon E5-1650, the HDD (WD Blue 3TB 5400 rpm) speed is 50MB/s and the external USB (WD My Book 4T) is 25MB/s (216.50 kB/s before waking up).

Odroid C4 vs Raspberry Pi 4 Micro SD Card, USB 3.0 SSD, eMMC module.

Website loading

• How to Test Website Loading Speed in Linux
• Top 15 Free Website Speed Test Tools of 2018
• https://tools.pingdom.com/
• How to Test Website Loading Speed in Linux Terminal. It works for local IP address. (Another day's test: main server 31 seconds, 192.168.1.86/Odroid: 64 seconds, 192.168.1.88/RPi3: 290 seconds)

# http
$ curl -s -w 'Testing Website Response Time for :%{url_effective}\n\nLookup Time:\t\t%{time_namelookup}\nConnect Time:\t\t%{time_connect}\nPre-transfer Time:\t%{time_pretransfer}\nStart-transfer Time:\t%{time_starttransfer}\n\nTotal Time:\t\t%{time_total}\n' -o /dev/null http://192.168.1.88/wiki/index.php/C

# https
$ curl -s -w 'Testing Website Response Time for :%{url_effective}\n\nLookup Time:\t\t%{time_namelookup}\nConnect Time:\t\t%{time_connect}\nAppCon Time:\t\t%{time_appconnect}\nRedirect Time:\t\t%{time_redirect}\nPre-transfer Time:\t%{time_pretransfer}\nStart-transfer Time:\t%{time_starttransfer}\n\nTotal Time:\t\t%{time_total}\n' -o /dev/null https://taichimd.us/mediawiki/index.php/C

Lookup Time:		0.004311
Connect Time:		0.010050
AppCon Time:		0.049561 (https only)
Redirect Time:		0.000000 (https only)
Pre-transfer Time:	0.049659
Start-transfer Time:	5.035105

Total Time:		5.174981

• httpstat – A Curl Statistics Tool to Check Website Performance. It works for both https and local IP.

$ wget -c https://raw.githubusercontent.com/reorx/httpstat/master/httpstat.py
$ python httpstat.py https://taichimd.us/mediawiki/index.php/C
...
  DNS Lookup   TCP Connection   TLS Handshake   Server Processing   Content Transfer
[     4ms    |       8ms      |     34ms      |      31300ms      |       169ms      ]
             |                |               |                   |                  |
    namelookup:4ms            |               |                   |                  |
                        connect:12ms          |                   |                  |
                                    pretransfer:46ms              |                  |
                                                      starttransfer:31346ms          |
                                                                                 total:31515ms

ApacheBench (ab)

• https://en.wikipedia.org/wiki/ApacheBench
• https://httpd.apache.org/docs/2.4/programs/ab.html
• https://www.tutorialspoint.com/apache_bench/apache_bench_environment_setup.htm
• https://www.datadoghq.com/blog/apachebench/

Network speed

• 4.5MB/s wifi on raspberry pi 3B+ at home wifi-to-wifi, 7.3MB/s ethernet-to-wifi (tested using scp). Note Pi3b+ has gigabit ethernet network.
  • Gigabit Ethernet over USB 2.0 (maximum throughput 300Mbps) on Raspberry Pi 3B+.
• 5.3MB/s ethernet on UDOO x86 at home wifi-to-ethernet, 62MB/s ethernet-to-ethernet (scp).
• 33MB/s when I downloaded Linux iso from mirror.umd.edu

iperf: network speed test between two boxes

• https://iperf.fr/
• How To Use iPerf To Test Network Speed From Host To Host. The default port for iPerf 3 is 5201. iPerf 2 default port is 5001.

  # Server
  iperf3 -s
  
  # Client
  iperf3 -c XXX.XXX.X.XX
  

  Test on Raspberr Pi 3B+ and ODroid Xu4

  client not matter, ethernet cable not matter
  
  server: pi3b+ running ubuntu 20.04.1 64-bit
  [ ID] Interval           Transfer     Bandwidth       Retr  Cwnd
  [  4]   0.00-1.00   sec  39.3 MBytes   329 Mbits/sec    1    239 KBytes       
  [  4]   1.00-2.00   sec  38.2 MBytes   320 Mbits/sec    0    270 KBytes
  
  server: pi3b+ running raspberry pi OS lite (buster) 32-bit 
  SAME result as above. Note Pi 3B+ ethernet is slower than Udoo Quad
  
  server: odroid xu4 ubuntu 20.04.1 64-bit
  [ ID] Interval           Transfer     Bandwidth       Retr  Cwnd
  [  4]   0.00-1.00   sec   109 MBytes   911 Mbits/sec    0    334 KBytes       
  [  4]   1.00-2.00   sec   107 MBytes   900 Mbits/sec    0    334 KBytes
  
  server: Udoo Dual ubuntu 20.04.1/Armbian 20.08 Focal 32-bit
  [ ID] Interval           Transfer     Bandwidth       Retr  Cwnd
  [  4]   0.00-1.00   sec  63.8 MBytes   535 Mbits/sec    0   1.30 MBytes       
  [  4]   1.00-2.00   sec  54.9 MBytes   460 Mbits/sec    0   1.33 MBytes
  

SSH speed test

Linux Fu

yes | pv | ssh user@remote_host "cat >/dev/null"