Versions Compared

Old Version 32

changes.mady.by.user Joshua Gorton

Saved on

compared with

New Version Current

changes.mady.by.user Chris Wopat

Saved on

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

...

Table of Content Zone

Table of Contents

WiscNet hosted speedtest.net

Considerations

  1. For best results test with a wired (copper/fiber) connection.
  2. The performance of the computer running this test may have a significant impact on the test results.
  3. Other activity on your network may impact your test results significantly.
    1. For better results, bypass your network during and outage window and test directly from the Network Access handoff.
    2. If this is not an option, we recommend connecting your test computer to your network as close as possible to the Network Access handoff.
  4. graphs.wiscnet.net uses 5 minute polling and averages, so short speed tests that will fall within a 5 minute polling cycle won't be reflected as maximums on graphs.wiscnet.net.
  5. iperf3 performance is better than web browser based tests.

Web Browser Speed Tests

SiteDescriptionScreenshot

...

http://speedtest.wiscnet.net/

Image Removed

WiscNet hosted Iperf

WiscNet's locally hosted web based speed test site. This server has 100Gbps connectivity and runs OpenSpeedTest.

Image Added

https://fast.com/

Alternate speed test hosted by Netflix but served from WiscNet's network (if you are coming from WiscNet)

Image Added


WiscNet iperf Speed Tests

Iperf Info

  • iperf is a network testing tool used Iperf is a commonly used network testing tool to help measure network throughput
  • Iperf is an open source tool. There are clients for Windows, Mac, Linux, Bsd, etc.
  • Iperf operates where one end is the client, the other is the server. WiscNet runs an Iperf version 2 server in Eau Claire, WI.  
  • The server is restricted to WiscNet IP addresses. 
  • Iperf2 and iperf3 are incompatible
  • iperf.wiscnet.net runs a TCP Iperf server on the default port 5001
  • iperf.wiscnet.net runs a UDP Iperf server on port 5001
  • iperf.ipv6.wiscnet.net runs a v6 TCP Iperf server on port 5001
  • iperf.ipv6.wiscnet.net runs a v6 UDP Iperf server on port 5001

Some common Iperf flags

Enter iperf -h or man iperf depending on your operating system. Here are some common flags:

...

-b 250m

...

-L

...

-r

...

-d

...


  • WiscNet hosts both iperf2 and iperf3
    • Use iperf3 per recommendations below
    • Both are on the server iperf.wiscnet.net



iperf3 Installation

There are many publicly available guides online. Here are some common examples:


Windows with Windows Subsystem for Linux (Debian/Ubuntu):

Info

Windows .exe is not officially supported, see this page for reasons. If you must use Windows, please install Windows Subsystem for Linux

Code Block
sudo apt install iperf3


macOS with Homebrew:

Code Block
brew install iperf3


Linux - Redhat:

Code Block
sudo dnf install iperf3


Linux - Debian:

Code Block
sudo apt install iperf3



iperf3 Test Examples

We recommend using iperf3 TCP tests with four parallel threads when possible for up to 10Gbps tests. UDP tests (not documented here) may cause a service interruption if not used carefully.

iperf3 Download Test

iperf3 testing download speeds from the member's perspective, 4 threads in parallel, for 900 seconds/15 minutes, using TCP. The [SUM] row results in Mbits/sec or Gbits/sec.


Code Block
iperf3

TCP vs UDP testing

Iperf uses TCP by default. TCP has built in congestion avoidance. If TCP detects any packet loss, it assumes that the link capacity has been reached, and it slows down. This works very well, unless there is packet loss caused by something other than congestion. If there is packet loss due to errors, TCP will back off even if there is plenty of capacity. iperf allows TCP to send as fast as it can, which generally works to fill a clean, low latency link with packets. If a path is not clean/error free or has high latency, TCP will have a difficult time filling it. For testing higher capacity links and for links with higher latency, you will want to adjust the window size (-w option). See the KB article on TCP performance for more background.

By using the -u option, you have told iperf to use UDP packets, rather than TCP. UDP has no built in congestion avoidance, and iperf doesn't implement it either. When doing a UDP test, iperf requires that the bandwidth of the test be specified. If it isn't, it defaults to 1Mb/s. You can use the -b option to specify bandwidth to test. iperf will then send packets at the request rate for the requested period of time. The other end measures how many packets are received vs how many were sent and reports its results.

...

Unidirectional 1Gbps circuit test

Command
Code Block
themeConfluence
iperf -c iperf.wiscnet.net -t 10 -P 4 -u -b 250mt 900 -i1R
Results

When runing multiple threads you must look at the SUM lines for total throughput. Output below shows successfully getting 953Mbits/sec through

$ iperf 
-c iperf.wiscnet.net -
t 10 -
P 4 -
u -b 250m -i1 ------------------------------------------------------------ Client connecting to iperf.wiscnet.net, UDP port 5001 Sending 1470 byte datagrams UDP buffer size: 208 KByte (default) ------------------------------------------------------------ [ 5] local 10.0.10.105 port 44098 connected with 205.213.14.56 port 5001 [ 3] local 10.0.10.105 port 46090 connected with 205.213.14.56 port 5001 [ 4] local 10.0.10.105 port 38200 connected with 205.213.14.56 port 5001 [ 6] local 10.0.10.105 port 59296 connected with 205.213.14.56 port 5001 [ ID] Interval Transfer Bandwidth [ 5] 0.0- 1.0 sec 28.4 MBytes 238 Mbits/sec [ 3] 0.0- 1.0 sec 28.5 MBytes 239 Mbits/sec [ 4] 0.0- 1.0 sec 28.6 MBytes 240 Mbits/sec [ 6] 0.0- 1.0 sec 28.6 MBytes 240 Mbits/sec [SUM] 0.0- 1.0 sec 114 MBytes 957 Mbits/sec [ 5] 1.0- 2.0 sec 28.5 MBytes 239 Mbits/sec [ 3] 1.0- 2.0 sec 28.4 MBytes 238 Mbits/sec [ 4] 1.0- 2.0 sec 28.5 MBytes 239 Mbits/sec [ 6] 1.0- 2.0 sec 28.2 MBytes 236 Mbits/sec [SUM] 1.0- 2.0 sec 114 MBytes 953 Mbits/sec [ 5] 2.0- 3.0 sec 28.4 MBytes 238 Mbits/sec [ 3] 2.0- 3.0 sec 28.2 MBytes 237 Mbits/sec [ 4] 2.0- 3.0 sec 28.6 MBytes 240 Mbits/sec [ 6] 2.0- 3.0 sec 28.5 MBytes 239 Mbits/sec [SUM] 2.0- 3.0 sec 114 MBytes 953 Mbits/sec [ 5] 3.0- 4.0 sec 28.3 MBytes 238 Mbits/sec [ 3] 3.0- 4.0 sec 28.3 MBytes 238 Mbits/sec [ 4] 3.0- 4.0 sec 28.5 MBytes 239 Mbits/sec [ 6] 3.0- 4.0 sec 28.4 MBytes 239 Mbits/sec [SUM] 3.0- 4.0 sec 114 MBytes 952 Mbits/sec [ 5] 4.0- 5.0 sec 28.3 MBytes 237 Mbits/sec [ 3] 4.0- 5.0 sec 28.3 MBytes 238 Mbits/sec [ 4] 4.0- 5.0 sec 28.3 MBytes 238 Mbits/sec [ 6] 4.0- 5.0 sec 28.7 MBytes 241 Mbits/sec [SUM] 4.0- 5.0 sec 114 MBytes 954 Mbits/sec [ 5] 5.0- 6.0 sec 28.6 MBytes 240 Mbits/sec [ 3] 5.0- 6.0 sec 28.4 MBytes 238 Mbits/sec [ 4] 5.0- 6.0 sec 28.3 MBytes 238 Mbits/sec [ 6] 5.0- 6.0 sec 28.5 MBytes 239 Mbits/sec [SUM] 5.0- 6.0 sec 114 MBytes 955 Mbits/sec [ 5] 6.0- 7.0 sec 28.5 MBytes 239 Mbits/sec [ 3] 6.0- 7.0 sec 28.3 MBytes 238 Mbits/sec [ 4] 6.0- 7.0 sec 28.5 MBytes 239 Mbits/sec [ 6] 6.0- 7.0 sec 28.3 MBytes 237 Mbits/sec [SUM] 6.0- 7.0 sec 114 MBytes 953 Mbits/sec [ 5] 7.0- 8.0 sec 28.4 MBytes 238 Mbits/sec [ 3] 7.0- 8.0 sec 28.4 MBytes 238 Mbits/sec [ 4] 7.0- 8.0 sec 28.3 MBytes 238 Mbits/sec [ 6] 7.0- 8.0 sec 28.5 MBytes 239 Mbits/sec [SUM] 7.0- 8.0 sec 114 MBytes 953 Mbits/sec [ 5] 8.0- 9.0 sec 28.5 MBytes 239 Mbits/sec [ 3] 8.0- 9.0 sec 28.3 MBytes 237 Mbits/sec [ 4] 8.0- 9.0 sec 28.4 MBytes 238 Mbits/sec [ 6] 8.0- 9.0 sec 28.4 MBytes 238 Mbits/sec [SUM] 8.0- 9.0 sec 114 MBytes 953 Mbits/sec read failed: Connection refused [ 3] WARNING: did not receive ack of last datagram after 1 tries. [ 5] 9.0-10.0 sec 28.5 MBytes 239 Mbits/sec [ 5] 0.0-10.0 sec 284 MBytes 239 Mbits/sec [ 5] Sent 202875 datagrams [ 3] 0.0-10.0 sec 284 MBytes 238 Mbits/sec [ 3] Sent 202276 datagrams [ 4] 0.0-10.0 sec 284 MBytes 239 Mbits/sec [ 4] Sent 202852 datagrams [ 6] 0.0-10.0 sec 285 MBytes 239 Mbits/sec [ 6] Sent 203078 datagrams [SUM] 0.0-10.0 sec 1.11 GBytes 954 Mbits/sec read failed: Connection refused [ 5] WARNING: did not receive ack of last datagram after 5 tries. read failed: Connection refused [ 6] WARNING: did not receive ack of last datagram after 9 tries. [ 4] WARNING: did not receive ack of last datagram after 10 tries.
Code Block
titleExample output
collapsetrue
iperf3
Expand
titleClick here to expand results...
No Format

...

Note

Check your firewall settings and NAT to ensure port 5001 is open to your host

Code Block
themeConfluence
iperf -c iperf.wiscnet.net -t 10 -P 4 -u -b 250m -i1 -r

...

Image Removed

Microsoft Windows

  • Download and extract iperf2: iperf-2.0.10-win.zip
  • Right-click the downloaded iperf-2.0.10-win32.zip file and extract the contents of the .zip to any folder (seen here under \Users\Administrator)

...

Code Block
themeConfluence
cd \Users\Administrator\iperf-2.0.10-win\
dir

...

  • Now you can run your desired iperf test:

Image Removed

Apple macOS

Code Block
themeConfluence
iMac:~ $ cd Downloads/iperf-2.0.5-macos-x86_64

iMac:iperf-2.0.5-macos-x86_64 $ ls -lh
total 176
-rw-r--r--  1   staff   693B Feb 20  2011 README
drwxr-xr-x@ 8   staff   272B Feb 20  2011 doc
-rwxr-xr-x@ 1   staff    78K Feb 20  2011 iperf
-rw-r--r--@ 1   staff   3.7K Feb 20  2011 iperf.1
  • Now you can run your desired iperf test:
Code Block
themeConfluence
iMac:iperf-2.0.5-macos-x86_64 $ ./iperf -c iperf.wiscnet.net
------------------------------------------------------------
Client connecting to iperf.wiscnet.net, TCP port 5001
TCP window size:  128 KByte (default)
------------------------------------------------------------
[  5] local 10.0.10.100 port 51961 connected with 205.213.14.56 port 5001
[ ID] Interval       Transfer     Bandwidth
[  5]  0.0-10.0 sec   184 MBytes   154 Mbits/sec
iMac:iperf-2.0.5-macos-x86_64 $

...

  • Many Lunix and Unix distros will have iperf in official repositories. Make sure to install iperf2 (iperf), not iperf3
Ubuntu

...

themeConfluence

...

t 900 -R

<output shortened/omitted>
- - - - - - - - - - - - - - - - - - - - - - - - -
[ 7] 8.00-9.00 sec 31.6 MBytes 265 Mbits/sec 
[ 9] 8.00-9.00 sec 20.2 MBytes 170 Mbits/sec 
[ 11] 8.00-9.00 sec 33.4 MBytes 280 Mbits/sec 
[ 13] 8.00-9.00 sec 25.5 MBytes 214 Mbits/sec 
[SUM] 8.00-9.00 sec 111 MBytes 929 Mbits/sec 

<repeats until the test is completed>
<output shortened/omitted>

iperf3 Upload Test

iperf3 testing download speeds from the member's perspective, 4 threads in parallel, for 900 seconds/15 minutes, using TCP. The [SUM] row results in Mbits/sec or Gbits/sec. "-R" for reverse added to this test.


Code Block
iperf3 -c iperf.wiscnet.net -P 4 -t 900


Code Block
titleExample output
collapsetrue
iperf3 -c iperf.wiscnet.net -P 4 -t 900

<output shortened/omitted>
- - - - - - - - - - - - - - - - - - - - - - - - -
[ 7] 8.00-9.01 sec 22.4 MBytes 187 Mbits/sec 
[ 9] 8.00-9.01 sec 24.9 MBytes 208 Mbits/sec 
[ 11] 8.00-9.01 sec 22.4 MBytes 187 Mbits/sec 
[ 13] 8.00-9.01 sec 41.4 MBytes 346 Mbits/sec 
[SUM] 8.00-9.01 sec 111 MBytes 928 Mbits/sec 

<repeats until the test is completed>
<output shortened/omitted>


Specifying IPv4 or IPV6

  • iperf.wiscnet.net listens on v4 and v6. If you wish to test only v4 or only v6, please use the hostnames below (same server)
    • iperf-ipv4.wiscnet.net
    • iperf-ipv6.wiscnet.net

...