The Internet backbone is a network of public networks, or autonomous systems (AS) connected to each other. Autonomous systems are essentially a unique collection of IP addresses/address blocks and network hardware within a common administrative domain. They are like independent, digital countries – each with a distinct geographical footprint, infrastructure, routing policy, and borders.
For full Internet access, a connection needs to either be established directly with all of these networks, or by a connecting through a network that is connected in some way to all of the other networks on the Internet. Generally, retail or enterprise users buy access from a single service provider and effectively become a part of that network (the service provider lends the enterprise IP addresses from its network block, but the ownership of them does not change).
Autonomous systems communicate route information and steer traffic to each other using a protocol known as the Border Gateway Protocol, or BGP.
IP Transit is a service by which networks have access to the rest of the Internet via BGP. In contrast to peering, where AS networks exchange only their own customer routes (on a mutual benefit and cost neutral basis), IP Transit is a commercial service whereby one network provides access to the entire Internet routing table (or a subset thereof), in return for payment. IP Transit services are typically charged on a usage basis, or by flat monthly fee.
IP Transit services are based on BGP, and therefore anyone buying IP Transit is required to operate and administer their own AS and IP addresses. A prerequisite for this is good knowledge of BGP routing and hardware capable of running it.
In contrast to services based on default routing, such as dedicated Internet access (DIA) and IP Connect, IP Transit affords larger networks greater routing flexibility and control via the levers BGP provides.
IP transit and IP peering are the two main interconnect relationships that are established between different Internet Service Providers (ISP) when securing full access to the Internet routing table. They form the foundation of all Internet access services. An ISP looking to provide global Internet connectivity to end-users can choose between building their own IP backbone network and peering with other ISPs, or simply just buying global IP Transit from someone that has an already established IP transit network. To achieve the best balance of cost and performance, most use a combination of the two.
IP Transit is the exchange of Internet IP traffic where one party pays another for access to a network (and the networks connected to it), that is considered as having the highest intrinsic value (based on a combination of geographical and logical assets). This may, for example, involve access to all, or a larger part of the wider Internet, or a subset of larger/unique end-customers. Where one network has a higher value than the other network, so-called ‘upstream’ IP Transit is purchased by the network with the lowest intrinsic value. IP Transit is a wholesale service, available only to Autonomous System (AS) number owners running the Border Gateway Protocol (BGP). Non-AS owners can also get Internet connectivity by acquiring services such as Dedicated Internet Access, DIA, or IP Connect, without running BGP. The benefits for ISPs are, amongst other things, a reduced capital expenditure risk and lower yearly recurring costs. There is also less administrative overhead.
Peering, on the other hand, is the exchange of IP traffic between networks without the flow of payments (known as settlement-free peering), or for a fee that compensates for any differences in intrinsic network value (known as paid peering). Settlement-free peering agreements are based on two parties having networks of equal intrinsic value and where they are mutually dependent on each other. A peering interconnection requires that routers and other related equipment are installed at the connection points of the peering parties’ respective networks.
Most ISPs need to buy IP Transit services from some of the largest Internet backbone networks to be able to offer the full Internet routing table to their end users. For some of the more local or regional traffic, they could benefit from traffic exchange at local peering exchange points (also known as IXs). To reach these peering points, Arelion offers a service called IX Connect.
Arelion’s #1 global IP network powers 65% of global Internet routes and connects you to 95% of US and European end-users within one network hop, providing the highest level of reliability, flexibility and security
We are one of the original Tier 1 networks, connecting billions of end-users to their critical content, applications and cloud services
Arelion provides exceptional customer care 24/7 – since 2014 we’ve been repeatedly recognised at the World Communications Awards for our Customer Experience and we have a very high NPS score of 44 (2020)
Our solutions are fully adapted to our customers’ needs and can be quickly adjusted, if business grows and locations change.
Most of our services are based on a dynamic pay-per-use model where customers are charged for a service when they use it, giving the best value for money
|Carrier-grade SLA, including: installation, availability, round-trip delay, packet loss|
|Secure customer portal|
|Three route options: Global Connect (global routes), Euro Connect (European customers and peers) and Content Connect (global customer routes)|
|IPv4 and IPv6 domains - dual stack|
|Secure Internet routing – minimized routing threats from BGP Hijacks and Route Leaks|
As an “open network,” the Internet requires a continuous and collaborative effort between all stakeholders to sustain the resilient, reliable, and secure infrastructure necessary to power the global economy.
At Arelion, we implement best practices and enhanced security measures for routing and exchanging traffic with other public networks.
Contact our us to learn more about our most recent efforts to enable emerging Internet security techniques such as Resource Public Key Infrastructure (RPKI), our collaboration with the Internet Society (ISOC), and the wider BGP community for route security and filtering.
Secure by design features
|Dual NOCs situated in secure underground locations|
|Physical and logical security from design to deployment|
|A network-wide Acceptable Use Policy (AUP)|
|Customer Service authentication procedures|
|Clear customer data handling policies|
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