Deploying your BIP server to a geographically advantageous data center can make a big difference in connection speeds to your server. Ideally, your site or application should be served from multiple points around the world, with requests sent to the appropriate region based on client geolocation. On a smaller scale, deploying a BIP server in the data center nearest to you will make it easier to work with than one in a different region or continent.
There are many things can affect network congestion, connection speeds, and throughput, so you should never interpret one reading as the sole data point. Always perform tests in multiples of three or five for an average, and on both weekend and weekdays for the most accurate information.
This page is a quick guide for choosing and speed testing a data center (DC). Start by creating a BIP server in the data center in or near your region, or several BIP servers in multiple regions if you’re close to more than one DC. From there, use BIP’s Facilities Speedtest page for test domains to ping and files to download.
The Linux ping tool sends IPv4 ICMP echo requests to a specified IP address or hostname. Pinging a server is often used to check whether the server is up and/or responding to ICMP. Because
ping commands also return the time it takes a request’s packet to reach the server,
ping is commonly used to measure network latency.
Ping a data center to test your connection’s latency to that DC:
ping -c 5 speedtest.DC1.BIPmedia.com
Use ping6 for IPv6:
ping6 -c 5 speedtest.DC2.BIPmedia.com
NoteMany internet connections still don’t support IPv6 so don’t be alarmed if
ping6commands don’t work to your BIP server from your local machine. They will, work from your BIP server to other IPv6-capable network connections (ex. between two BIP servers in different data centers).
Download speed will be limited most heavily first by your internet service plan speed, and second from local congestion between you and your internet service provider. For example, if your plan is capped at 60 Mbps, you won’t be able to download much faster than that from any server on the internet. There are multiple terminologies to discuss download speeds with so here are a few pointers to avoid confusion:
Residential internet connection packages are sold in speeds of megabits per second (abbreviated as Mbps, Mb/s, or Mbit/s).
One megabit per second (1 Mbps or 1 Mb/s) is 0.125 megabytes per second (0.125 MB/s). Desktop applications (ex: web browsers, FTP managers, Torrent clients) often display download speeds in MB/s.
Mebibytes per second is also sometimes used (MiB/s). One Mbps is also equal to 0.1192 MiB/s.
To test the download speed from your data center of choice, use the
wget to download the
bin file from a data center of your choice. You can find the URLs on our Facilities Speedtest page.
curl -O http://speedtest.DC1.BIPmedia.com/100MB.bin wget http://speedtest.DC2.BIPmedia.com/100MB.bin
Below you can see that each time
cURL is run, a different average download speed is reported and each takes a slightly different amount of time to complete. This is to be expected, and you should analyze multiple data sets to get a real feel for how fast a certain DC will behave for you.
root@debian:~# curl -O http://speedtest.DC1.BIPmedia.com/100MB.bin % Total % Received % Xferd Average Speed Time Time Time Current Dload Upload Total Spent Left Speed 100 100M 100 100M 0 0 10.2M 0 0:00:08 0:00:08 --:--:-- 14.0M
root@debian:~# curl -O http://speedtest.DC1.BIPmedia.com/100MB.bin % Total % Received % Xferd Average Speed Time Time Time Current Dload Upload Total Spent Left Speed 100 100M 100 100M 0 0 12.2M 0 0:00:08 0:00:08 --:--:-- 14.9M
root@debian:~# curl -O http://speedtest.DC1.BIPmedia/100MB.bin % Total % Received % Xferd Average Speed Time Time Time Current Dload Upload Total Spent Left Speed 100 100M 100 100M 0 0 8298k 0 0:00:12 0:00:12 --:--:-- 10.0M