ipng/ipng.ch
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Add SixXS article

Browse Source
This commit is contained in:
Pim van Pelt
2024-08-04 23:58:04 +02:00
parent c5d6e2f665
commit 910acb3dfd
2 changed files with 443 additions and 43 deletions
Download Patch File Download Diff File Expand all files Collapse all files

406
content/articles/2017-03-01-sixxs-sunset.md Normal file
View File

@ -0,0 +1,406 @@
---
date: 2017-03-14
title: Sunsetting SixXS
aliases:
- /s/articles/2017/03/14/sixxs-sunset.html
---
* Author: Pim van Pelt, Jeroen Massar
* Contact: <[staff@sixxs.net](mailto:staff@sixxs.net)>
* Date: March 2017
* Status: Draft - Review SixXS - Review Admins - Final - **Published**
## Summary
SixXS will be sunset in H1 2017. All services will be turned down on **2017-06-06**, after which the
SixXS project will be retired. Users will no longer be able to use their IPv6 tunnels or subnets
after this date, and are required to obtain IPv6 connectivity elsewhere, primarily with their
Internet service provider.
## Introduction
SixXS (Six Access) is a free, non-profit, non-cost service for Local Internet Registries (LIR's) and
endusers. The main goal is to create a common portal to help company engineers find their way with
IPv6 networks deploying IPv6 to their customers in a rapid and controllable fashion. To reach our
goals, SixXS provides the following services:
+ IPv6 Tunnel Broker: a versatile and high performance IPv6 tunneling router
+ Ghost Route Hunter: an IPv6 route monitoring tool and various other services to help out where needed
+ IPv6Gate HTTP Proxy: IPv6-IPv4 and IPv4-IPv6 Website Gateway
SixXS has offered the [RIPE](http://www.ripe.net/), [ARIN](http://www.arin.net/),
[APNIC](http://www.apnic.net/), [LacNIC](http://www.lacnic.net/) and
[AfriNIC](http://www.afrinic.net/) communities pre-production deployment expertise based on the
experience gathered while running the IPng IPv6 tunnel broker since 1999 and, combined with its
successor, SixXS, gaining more than 18 years of valuable IPv6 experience.
### Userbase
As of March 2017, there are 38393 7-day active users spanning 140 countries. These users configured
a total of 44673 tunnels spanning 118 countries, and 12632 subnet delegations (28.28%). Our peak
7DA usage was over 50000 users. Full statistics, including distributions by country, can be found
on the SixXS website [[link](https://www.sixxs.net/misc/usage/)].
#### Growth
User engagement over time (as shown in the graphs below), shows strong growth from 2001-2011,
followed by a stagnation and then decrease of new users and subnets leading through 2016. We believe
this is due to *saturation*, all users with the ability and desire to receive service, obtained an
account, a tunnel and a subnet.
![Users/Year](/assets/sixxs-sunset/image1.png) | ![Tunnels/Year](/assets/sixxs-sunset/image2.png)
*Images: Left - New users per year; Right - New tunnels per year*.
Another way to visualize this data is to measure the cumulative requested subnets (which are /48 in
size). The requests for subnets naturally follows the growth of users. In recent years (2014
onwards), requests for additional subnets were clearly tapering off - this is in line with our goal
of SixXS. Therefore, in December of 2015, new user signups were suspended. Note: this explains the
flatline of requests in the years 2016 and 2017.
![Cumulative Requests/Year](/assets/sixxs-sunset/image3.png)
*Image: Cumulative requests over time*.
#### Traffic
As the project evolved, traffic initially grew significantly, with a daily average of just around
900Mbit/sec. We note the trend of traffic is on a downwards trajectory since H2 2015. We believe
this is in part due to ISPs starting to offer IPv6, which yields organic attrition of users
migrating away. This trend is in line with the goals of the project.
Users engage with SixXS *passively* - once they set up their tunnel and configure their router or
computer, the system is largely zero-touch. Traffic is consistently diurnal with a 7:1 ratio between
peak and trough, which indicates that the traffic flowing through the system is roughly equivalent
to what access providers see. This has changed over time - in the early days of IPv6, the major use
case was NNTP and IRC, now general Internet usage with the larger content providers all support
IPv6.
Comparing our traffic pattern to a well known Internet exchange point
[[amsix](https://ams-ix.net/technical/statistics/sflow-stats/ipv6-traffic)], we see similar changes.
Today, many of the larger content providers have offerings on IPv6 which shifts the usage of our
service also more towards HTTP (and, to a diurnal pattern).
The following two graphs illustrate the usage: The first graph is average traffic in bits/sec
between 2012 and 2017. Second graph is average traffic in bits/sec between 2017-02-24 and
2017-03-03.
![image](/assets/sixxs-sunset/image4.png) | ![image](/assets/sixxs-sunset/image5.png)
*Images: Left - traffic since 2012. Right - weekly traffic pattern Feb 2017*.
#### Footprint
Looking at the total footprint of SixXS - In March 2017, 46 PoPs spread over 29 countries were
offered by 40 unique Internet service providers. Over the lifetime of SixXS, a total of 65 different
PoPs have been active.
![image](/assets/sixxs-sunset/image6.png)
*Image: Map of SixXS PoPs*
The full list of countries hosting PoPs: Australia, Belgium, Brazil, Czech Republic, Denmark,
Estonia, Faroe Islands, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg,
Netherlands, New Caledonia, New Zealand, Norway, Poland, Portugal, Russia, Slovenia, Sweden,
Switzerland, United Kingdom, United States and Vietnam.
Our deployment comprises the following subnet allocations: 85x /40 which is equivalent to a total of
21760 /48's or 1x /34 + 1x /36 + 1x /38 + 1x /40 -- to cover our usage fully would require an IPv6
/33. We believe the SixXS footprint is one of the largest IPv6 deployments in the world, and are
incredibly proud of the accomplishments and contributions we have made to the community.
## Rationale
The mission of SixXS is to help prepare companies and individual users for the world of IPv6.
Started in 1999, our goals were to build a distributed tunnelbroker system, which allowed
professional and hobbyist users to learn how to operate IPv6 networks so that they would roll out
IPv6 natively across the Internet. Back in 1999, we wrote: *Our ultimate target is to conclude the
tunnel brokering service when all the end users can get [Native
IPv6](https://www.sixxs.net/faq/connectivity/?faq=native) directly from their own Internet
provider*.
For a decade, the industry was divided into content providers and access providers engaged a chicken and egg game:
1. Content providers claimed that investing in IPv6 rollout would be useless because there were not
sufficient numbers of large ISPs which offered it.
1. Access providers claimed that investing in IPv6 would be useless because there were not
sufficient numbers of large content providers which offered it.
1. Both content providers and access providers claimed their customers didnt demand it and there
was no business justification in doing so.
One *raison dêtre* of SixXS is to help break this cycle by offering IPv6 connectivity to users, so
that they in turn can demand that content providers offer service over IPv6, and to companies, so
their engineers can learn the intricacies of rolling out IPv6 for their business safely. After 18
years, here is where we stand:
1. Content providers, largely, have switched to IPv6. Examples: Wikipedia, Google, Youtube,
Facebook, Akamai, Netflix, Microsoft, Yahoo.
1. Access providers are starting to move on IPv6 deployments:
[18%](https://www.google.com/intl/en/ipv6/statistics.html) of the Internet has IPv6 connectivity,
roughly doubling year over year.
1. The access providers generally still claim that there is not sufficient customer demand to
invest in IPv6.
Today, SixXS plays an insignificant role in converting the opinion on (1), (2) and (3) and is more
recently (2016 and beyond) being quoted by several large access providers as a compelling
alternative for their few customers who asked for IPv6, along the worrying lines of *“SixXS and
Hurricane Electric offer tunnels, so we are not planning to provide native IPv6 at this time”*.
A call to action in 2016, asking our users to call their ISP and ask about rollout plans, yielded
some reasonable engagement from SixXS users (for which we are incredibly grateful), but arguably
disappointing results from the ISPs, particularly the very large ones. Extensive data can be found
on the SixXS wiki page [[link](https://www.sixxs.net/wiki/Call_Your_ISP_for_IPv6)].
## Conclusion
Building up to our conclusion, we make some critical observations:
1. SixXS penetration has hit a point of diminishing returns (see the Growth subsection of this
document).
1. Content providers have shown great progress in enabling users to reach their websites via IPv6,
in our opinion formally breaking the chicken and egg problem.
1. Access providers have shown reasonable interest in providing IPv6 to users, but some have
started to quote SixXS as a reason they do not have to show an interest.
1. Consumers should not have to be involved in the discussion as they largely need not know, or
care, how the Internet works, as long as they can reach the Internet resources they want, when they
want them.
Our conclusion is that SixXS is no longer able to contribute to the solution, and is hampering its
own goals of facilitating the migration of consumers to native IPv6. We have therefore decided to
shut down our services on 2017-06-06.
## Accomplishments
When we started in 1999, we set ourselves some pretty ambitious goals. They are described on our
website as value propositions to [ISPs](https://www.sixxs.net/faq/sixxs/?faq=isp), to
[endusers](https://www.sixxs.net/faq/sixxs/?faq=enduser) and we explain in detail [what
targets](https://www.sixxs.net/faq/sixxs/?faq=why) we want our project to achieve in order to help
the technical community.
To the latter point ([why do this](https://www.sixxs.net/faq/sixxs/?faq=why)?), we have by far
exceeded our targets of creating 10 regional PoPs (we created 65, each using their own IPv6 address
space); we developed and rolled out a provisioning system that manipulated tunnels and subnets w/o
human intervention; gathered a wide array of statistics (traffic, latency, uptime, debugging); set
up Multicast, DNS and DNSSEC delegations; and allowed for a feature rich web- and console interface
to manage the system.
We felt that having zero-touch PoP servers would likely yield less probability for human error to
cause outages, and we were right: in 18 years of operation we cannot remember any wide scale outages
caused by human error.
However, we did not stop at writing solid automation. The following are notable contributions that
SixXS has made to IPv6 deployment and the Internet in general:
1. PoPs on five major continents, missing Africa and Antarctica
1. [sixxsd](https://www.sixxs.net/faq/sixxs/?faq=sixxsd) - software based router with high performance tunneling support
1. [Heartbeat](https://www.sixxs.net/tools/heartbeat/) protocol (IANA port 3740) and [IETF draft](https://tools.ietf.org/html/draft-massar-v6ops-heartbeat-01)
1. [AYIYA](https://www.sixxs.net/tools/ayiya/) protocol (IANA port 5072) and [IETF draft](https://tools.ietf.org/html/draft-massar-v6ops-ayiya-02)
1. Community outreach (example RIPE, IETF, ISOC, AMS-IX IPv6 Awareness Day)
1. Research done with GRH (Ghost Router Hunter) to:
+ Help eradicate global IPv6 routing issues (Ghost Routes)
+ IPv6 Bogon Route detection
+ Distributed Looking Glass and Traceroute
1. AICCU (Automatic IPv6 Connectivity Client Utility)
+ Automatic setup of IPv6 connectivity providing only username + password.
+ Awards of Excellence in the Implementation Award Category in the [IPv6 Application Contest 2004](http://www.v6pc.jp/apc/en/implement.html)
+ Incorporated into commercial Draytek, ZyXel, Motorola CPE products
1. Heartbeat & TIC support out the box in AVM Fritz!Box
1. Very few outages over 18 years of operation
1. Pre-production access to Google and Wikipedia IPv6 servers through SixXS DNS recursors
Over time, social and technical media picked up on SixXS activities and regularly acknowledged the
significance of the project. For example at
[Heise](https://www.heise.de/newsticker/meldung/IPv6-Tunneldienst-SixXS-nimmt-ab-sofort-keine-neuen-Teilnehmer-an-3160822.html),
Linux [Journal](http://www.linuxjournal.com/content/may-2013-issue-linux-journal-raspberry-pi), and
in [other](https://www.sixxs.net/archive/sixxs/articles/) places.
## Acknowledgements
As SixXS founders, we were not operating in a vacuum. We have had countless interactions with
institutions and corporations, many mentors, and like-minded engineers across the world. We wanted
to take this opportunity to call out these formative folks:
+ [TU/e](http://www.tue.nl/) and [MCGV Stack](http://www.stack.nl/) (the genesis of IPng in 1997)
+ [Intouch](http://www.intouch.nl/) (the continuation of IPng and first sponsor of SixXS in 1999)
+ [Concepts ICT](http://www.concepts-ict.nl) (long time sponsor of SixXS, including our NOC hardware)
+ [HEAnet](http://www.heanet.ie) (long time sponsor of SixXS since 2002)
+ [BIT](http://www.bit.nl) (long time IPv6 advocate, and long time sponsor of SixXS since 2004)
+ [AMS IX](http://www.ams-ix.net) (for organizing the AMS-IX IPv6 Awareness Day in Oct 2002)
+ [ISOC](http://www.isoc.org) and Steve Deering (for inventing IPv6, and meeting us in Amsterdam)
+ [IPv6 Flag Day](http://www.worldipv6launch.org/participants/?q=1) effort (for addressing the chicken-and-egg problem)
+ [IPv6 Ops](http://lists.cluenet.de/mailman/listinfo/ipv6-ops/) (for an engineering focused mailing list)
+ [Heise](http://www.heise.de) (for their kind attention over the years)
And lastly, we extend our gratitude to the men and women who professionally operate the network,
those who arranged the physical or virtual hardware, and those who are in a position to commit to
running all 65 [SixXS PoPs](https://www.sixxs.net/pops/)!
## FAQ
**Will you reconsider your decision?**
A lot of thought has gone into this decision. While we do understand that the service SixXS provides
is very valuable to its users, we have seen the growth of IPv6 content providers as well as IPv6
access providers is [exponentially](https://www.google.com/intl/en/ipv6/statistics.html) growing. We
are of the belief that IPv6 Tunnel Brokers are no longer facilitating access providers moving to
IPv6, and as such do not wish for the project to be continued. We will not reconsider our decision.
**Will you hand over the project to other folks?**
We are fairly protective of our brand and position in the community. Due to the nature of SixXS,
which rests on an open source client (aiccu) with a closed source server (sixxsd), we are not
willing to hand over the project. However, that aside, the main justification for our decision as
outlined in this document, is that we are of the belief that IPv6 Tunnel Brokers are no longer
facilitating access providers moving to IPv6, and as such do not wish for the project to be
continued. Handing it over to other folks will not allow us to satisfy our concerns.
**Do you need help?**
Running SixXS servers and infrastructure is very efficient and does not demand much time. The PoP
servers are stateless and can be brought up based on a Debian or Ubuntu base install in a matter of
minutes. Handling user questions is stressful at times due to the volume of requests, but overall
its manageable because most of our user interaction is self-service on the website. For operating
SixXS, we do not believe time is a major concern.
That said, help can be more productively offered in the area of IPv6 deployment in Internet content
providers and access providers. If you are active in those areas, we would greatly appreciate it if
you would champion with your leadership and engineering teams to roll out IPv6 for your users!
**What happens to the users?**
We will mark all the tunnels and subnets as deleted on 2017-06-06 at which point they will stop
forwarding traffic. Users will not have access to IPv6 through SixXS anymore on that date. We will
return all resources to the Internet service providers, shut down the PoPs and delete all personally
identifiable data from our database.
**What happens to the servers (PoPs)?**
The servers will be shut down and returned to the ISPs who own them, as SixXS itself does not own
the PoP servers. The SixXS website will continue to run on private servers, mostly serving as a
tombstone documenting our efforts over the years.
**What happens to the PII data you have?**
In the lifetime of the project, we have taken privacy and individually identifiable information very
seriously, and to our knowledge have never suffered an information breach or leek. After
decommissioning the services we run, we will destroy all PII data, keeping only traffic statistics
at the PoP level, and general statistics of our usage, like the graphs seen in this document.
**What happens to WHOIS entries in RIPE and APNIC databases?**
As we mark the tunnels and subnets as deleted, our automation will automatically purge these records
(inet6num) from the RIPE and APNIC databases. We will also return the subnets SixXS operates on
behalf of the PoP owners (these /40 supernets will be returned to the LIRs).
For user (person) records, see FAQ entry (Do I have to delete my RIR handle).
**What is your timeline?**
Our timeline for the sunset of our services started in early March 2017, traversing a dialog with
PoP administrators in April, notifying users at the end of April, and offering 6 weeks of time for
folks to find alternative solutions.
On 2017-06-06 we will shut down services, and close the sunsetting project on 2017-07-01.
**What are my alternatives?**
Users are encouraged to call their ISP for IPv6 connectivity -- ultimately that is the best way
forward. Provided sufficient numbers of paying customers request IPv6 service, ISPs may be compelled
to invest in offering service.
There is sometimes healthy competition. ISPs are critically interested in retaining users. If a
specific ISP offers IPv6 to users -- consider switching providers to obtain native connectivity and
making note of this with the old ISP.
In cases where this proves infeasible, there are myriad other IPv6 Tunnel Brokers available.
**Will you open source SixXS code?**
We do not currently have plans to open source any code that is not already publicly available.
Although our provisioning servers and routing daemon (sixxsd) are very well thought out, they do
have some intricate dependencies on how we built SixXS. As such, offering the code base will not be
necessarily useful for others. Over time, given effort on Jeroens part, this may change. We cannot
make any promises at this point.
**Can I still use www.sixxs.net as connectivity checker (smokeping et al)?**
We are aware (simply by looking at access logs), that many users have pointed their IPv6 network
monitoring at our website. Among these users are some quite large companies as well. You can rest
assured that we will keep [www.sixxs.net](http://www.sixxs.net) running on highly available
distributed servers ongoing. It is likely that the website will become static, making it somewhat
more reliable than it already is.
**What happens to the SixXS domains (sixxs.{com,net,org,...})?**
While we are retiring our services, the website will remain up. All domains will remain delegated to
the current nameservers, although only www and MX will remain. In particular, the PoP hosts and
tunnel hostnames like cl-x.pop-yy.tld.sixxs.net will be removed.
**I am hosting my nameserver, mailserver, etc on my tunnel, what happens?**
It is quite common and entirely acceptable for folks to point NS or MX records towards their tunnel
name (cl-x.pop-yy.tld.sixxs.net). Hosting servers with content behind the tunnels is also common.
Considering the DNS entries for sixxs.net will cease to exist, and the tunnels will be
decommissioned, users are recommended to move their services to other IPv6 providers (either
colocated, natively routed to home or office connections, or behind another IPv6 Tunnel Broker if no
other options exist).
**Do I have to delete my RIR handle (RIPE/ARIN/APNIC/LacNIC/AfriNIC)?**
If you are using the handle for other business, obviously you should keep them. If SixXS was the
sole purpose of registering such a handle (we have required them for many years), we recommend
removing your handle from the relevant RIR database. The call is ultimately yours, as SixXS does not
own that data.
**What happens with the ULA registry?**
This registry was for educational purposes, and has no official status. Importantly, as ULA is
random per definition, the chance of collisions is extremely low. It is fairly straight forward to
get a prefix from one of the RIRs. While that does cost some money, it is an activity that is not
the main charter of SixXS and will be expected to continue with the RIRs.
## Timeline
**2017-03-01**: T-14wk
Decision made by Jeroen and Pim to start the sunset project.
**2017-03-06**: T-13wk
Communicate to PoP admins (e-mail, referencing intent and problem statement)
**2017-03-13**: T-12wk
Communicate to PoP admins (e-mail, details (this doc))
**2017-03-20**: T-11wk
Wrap up feedback from PoP admins, prepare publication to the users.
Initial backup of SixXS PoPs completed.
**2017-03-23**: T-11wk
Publish to SixXS website.
One-time mail to all users, noting the sunset date and pointing to rationale and FAQ.
**2017-03-29**: T-10wk
Communicate and field response from IPv6 communities, social media, et al.
**2017-04-17**: T-7wk
Due date for converting the SixXS website to a static replica, for posterity.
**2017-05-29**: T-1wk
Convert [info@sixxs.net](mailto:info@sixxs.net) to an autoresponder pointing at rationale+FAQ.
**2017-06-06: (Tuesday)**
**Turn off TIC and SixXSd on PoPs**, retire IPv6Gate, shut down whois server.
**2017-06-12**: T+1wk:
Secondary backup of SixXS PoPs completed.
**2017-06-19**: T+2wk:
Power off SixXS PoPs, IPv6Gate, return resources
**2017-06-26**: T+3wk:
Destroy PII data (mysql database).
**2017-07-01**: Close out the sunset project.

80
content/services.md
View File

@ -11,70 +11,64 @@ menu:
{{< image width="15em" float="right" src="/assets/dwdm.png" alt="DWDM spectrum" >}} {{< image width="15em" float="right" src="/assets/dwdm.png" alt="DWDM spectrum" >}}
Our network consists of routers and interconnections in two main sites in the Our network consists of routers and interconnections in two main sites in the Zurich metro: eShelter
Zurich metro: eShelter (NTT) in Ruemlang (next to the airport), and Interxion (NTT) in Ruemlang (next to the airport), and Interxion ZUR1 in Glattbrugg. These two locations are
ZUR1 in Glattbrugg. These two locations are connected with dark fiber, and we connected with dark fiber, and we have access to several local loop providers in both locations. For
have access to several local loop providers in both locations. For example, we example, we can arrange connectivity to Colozueri, Equinix ZH4 and Equinix ZH5 directly, and using
can arrange connectivity to Colozueri, Equinix ZH4 and Equinix ZH5 directly, our partners (such as IP-Max, Init7, Openfactory), domestically and to most european cities.
and using our partners (such as IP-Max, Init7, Openfactory), domestically and
to most european cities.
You can read more about our network in this [informative post]({% post_url 2021-02-27-network %}). You can read more about our network in this [informative post]({% post_url 2021-02-27-network %}).
### IP Transit ### IP Transit
We operate [[AS8298](https://as8298.peeringdb.com/)] which announces `AS-IPNG` We operate [[AS8298](https://as8298.peeringdb.com/)] which announces `AS-IPNG` for ourselves and our
for ourselves and our transit customers. We're pretty firmly connected in and transit customers. We're pretty firmly connected in and around Zurich, with a 10Gbit link to
around Zurich, with a 10Gbit link to SwissIX, CommunityIX and CH-IX. We have SwissIX, CommunityIX and CH-IX. We have a diverse set of transit providers which give us good reach
a diverse set of transit providers which give us good reach to the world, to the world, including via Cogent AS174, Hurricane Electric AS6939, and for strong european
including via Cogent AS174, Hurricane Electric AS6939, and for strong european presence, we receive transit from OpenFactory AS58299, Meerfarbig AS34549, and IP-Max AS25091.
presence, we receive transit from OpenFactory AS58299, Meerfarbig AS34549, and
IP-Max AS25091.
Gaining access to this wealth of IPv4 and IPv6 coverage is as easy as finding Gaining access to this wealth of IPv4 and IPv6 coverage is as easy as finding an L2 connection to
an L2 connection to one of our points of presence, establishing a BGP session one of our points of presence, establishing a BGP session to us, and announcing your netblock(s).
to us, and announcing your netblock(s). We'll take it from there! We'll take it from there!
You can read more about our BGP capabilities in this [informative post]({% post_url 2021-02-27-network %}). You can read more about our BGP capabilities in this [informative post]({% post_url 2021-02-27-network %}).
### Local Loop Ethernet ### Local Loop Ethernet
Apropos, getting onto the internet is pretty easy if you are in a commercial Apropos, getting onto the internet is pretty easy if you are in a commercial colocation facility. Of
colocation facility. Of course, any internet provider will offer various course, any internet provider will offer various quality IPv4 and IPv6 connections with or without a
quality IPv4 and IPv6 connections with or without a static IP address. However static IP address. However getting from your house to the datacenter is often the most complicated
getting from your house to the datacenter is often the most complicated and and expensive project. At IPng, we had this challenge too -- and considering we solved it for
expensive project. At IPng, we had this challenge too -- and considering ourselves, we can certainly also solve it for you! With our residential last-mile ISP collaboration
we solved it for ourselves, we can certainly also solve it for you! With our (for example, ConnectionPoint, Init7, Solnet, and Swisscom BBCS), L2 services directly to your
residential last-mile ISP collaboration (for example, ConnectionPoint, Init7, residence or office become easily possible.
Solnet, and Swisscom BBCS), L2 services directly to your residence or office
become easily possible.
## Colocation ## Colocation
We operate a private colocation facility in Zurich Albisrieden. The facility We operate a private colocation facility in Zurich Albisrieden. The facility has 3x200A of power and
has 3x200A of power and about 60m2 of floor space. Hosting one or several about 60m2 of floor space. Hosting one or several machines, including Layer2 connectivity either to
machines, including Layer2 connectivity either to your own home, or to the your own home, or to the main internet hubs of Zurich, are easily accomplished in our colocation
main internet hubs of Zurich, are easily accomplished in our colocation facility. If more space is needed, we are regulars in most all Swiss carrier housing facilities, and
facility. If more space is needed, we are regulars in most all Swiss carrier can help broker a deal that is tailored to your needs.
housing facilities, and can help broker a deal that is tailored to your
needs.
You can read more about how we built our own colocation from scratch in You can read more about how we built our own colocation from scratch in this [informative post]({%
this [informative post]({% post_url 2022-02-24-colo %}). post_url 2022-02-24-colo %}).
## Project Design / Execution ## Project Design / Execution
{{< image width="15em" float="right" src="/assets/pdu19.png" alt="19 inch PDU" >}} {{< image width="15em" float="right" src="/assets/pdu19.png" alt="19 inch PDU" >}}
We design things, both logical and physical. Be it two dimensional or three We design things, both logical and physical. Be it two dimensional or three dimensional, as life
dimensional, as life long tinkerers, we have a fair bit of experience in long tinkerers, we have a fair bit of experience in mechanical and electrical engineering. Of
mechanical and electrical engineering. Of course, as a network business, course, as a network business, designing and deploying autonomous systems and networks of any size
designing and deploying autonomous systems and networks of any size is our home is our home turf. Also fundamentally understanding how a network should perform, be it throughput,
turf. Also fundamentally understanding how a network should perform, be it bandwidth, latency or jitter and packet loss: we've seen it all, from ADSL lines to 300km DWDM
throughput, bandwidth, latency or jitter and packet loss: we've seen it all, spans.
from ADSL lines to 300km DWDM spans.
For some good examples, take a look at these case studies: For some good examples, take a look at these case studies:
* [Fiber7 on LiteXchange]({{< ref "2016-10-07-fiber7-litexchange" >}}) * [Fiber7 on LiteXchange]({{< ref "2016-10-07-fiber7-litexchange" >}})
* [SixXS Sunset]({% post_url 2017-03-01-sixxs-sunset %}) * [SixXS Sunset]({{< ref "2017-03-01-sixxs-sunset" >}})
* [Coloclue Loadtesting]({% post_url 2021-02-27-coloclue-loadtest %}) * [Coloclue Loadtesting]({% post_url 2021-02-27-coloclue-loadtest %})
There's many more papers and opinion pieces in our [[Articles]({{< ref "articles" >}})] section.