Sponsored Links
-->

Rabu, 12 September 2018

How to use the 25% of the internet that the NSA doesn't monitor ...
src: www.extremetech.com

The Internet backbone might be defined by the principal data routes between large, strategically interconnected computer networks and core routers on the Internet. These data routes are hosted by commercial, government, academic and other high-capacity network centers, the Internet exchange points and network access points, that exchange Internet traffic between the countries, continents and across the oceans. Internet service providers, often Tier 1 networks, participate in Internet backbone traffic by privately negotiated interconnection agreements, primarily governed by the principle of settlement-free peering.


Video Internet backbone



History

The first packet-switched computer network was the NPL network, followed closely by the ARPANET. The latter used a backbone of routers called Interface Message Processors. Both the NPL and ARPANET networks were interconnected in 1973, while other packet-switched computer networks began to proliferate in the 1970s, eventually adopting TCP/IP protocols or being replaced by newer networks. The National Science Foundation created NSFNET in 1986 by funding six networking sites using 56kbit/s interconnecting links and peering to the ARPANET. In 1987, this new network was upgraded to 1.5Mbit/s T1 links for thirteen sites. These sites included regional networks that in turn connected over 170 other networks. IBM, MCI and Merit upgraded the backbone to 45Mbit/s bandwidth (T3) in 1991. The combination of the ARPANET and NSFNET became known as the Internet. Within a few years, the dominance of the NSFNet backbone led to the decommissioning of the redundant ARPANET infrastructure in 1990.

In the early days of the Internet, backbone providers exchanged their traffic at government-sponsored network access points (NAPs), until the government privatized the Internet, and transferred the NAPs to commercial providers.


Maps Internet backbone



Architectural principles

The Internet, and consequently its backbone networks, do not rely on central control or coordinating facilities, nor do they implement any global network policies. The resilience of the Internet results from its principal architectural features, most notably the idea of placing as few network state and control functions as possible in the network elements, and instead relying on the endpoints of communication to handle most of the processing to ensure data integrity, reliability, and authentication. In addition, the high degree of redundancy of today's network links and sophisticated real-time routing protocols provide alternate paths of communications for load balancing and congestion avoidance.


Map of the Internet Backbone 1996
src: www.kirara.co.uk


Infrastructure

The Internet backbone is a conglomeration of multiple, redundant networks owned by numerous companies. It is typically a fiber optic trunk line. The trunk line consists of many fiber optic cables bundled together to increase the capacity. The backbone is able to reroute traffic in case of a failure. The data rates of backbone lines have increased over time. In 1998, all of the United States backbone networks had utilized the slowest data rate of 45 Mbit/s. However, the improved technologies allowed for 41 percent of backbones to have data rates of 2,488 Mbit/s or faster by the mid 2000s. Fiber-optic cables are the medium of choice for Internet backbone providers for many reasons. Fiber-optics allow for fast data speeds and large bandwidth; they suffer relatively little attenuation, allowing them to cover long distances with few repeaters; they are also immune to crosstalk and other forms of electromagnetic interference which plague electrical transmission.


An unknown state may be running drills for taking down the entire ...
src: www.extremetech.com


Modern backbone

Because of the enormous overlap between long-distance telephone networks and backbone networks, the largest long-distance voice carriers such as AT&T Inc., MCI (Acquired in 2006 by Verizon), Sprint, and CenturyLink also own some of the largest Internet backbone networks. These backbone providers sell their services to Internet service providers (ISPs).

Each ISP has its own contingency network and is equipped with an outsourced backup. These networks are intertwined and crisscrossed to create a redundant network. Many companies operate their own backbones which are all interconnected at various Internet exchange points (IXPs) around the world. In order for data to navigate this web, it is necessary to have backbone routers, which are routers powerful enough to handle information on the Internet backbone and are capable of directing data to other routers in order to send it to its final destination. Without them, information would be lost.

Tier 1 providers

The largest providers, known as tier 1 providers, have such comprehensive networks that they never purchase transit agreements from other providers. As of 2014 there were seven tier 1 providers in the telecommunications industry. Current Tier 1 carriers include CenturyLink, Telia Carrier, NTT, Cogent, Level 3, GTT, and Tata Communications.


Cable Internet Backbone Infrastructure Diagram - Search For Wiring ...
src: personalpages.manchester.ac.uk


Economy of the backbone

Peering agreements

Backbone providers of roughly equivalent market share regularly create agreements called peering agreements, which allow the use of another's network to hand off traffic where it is ultimately delivered. Usually they do not charge each other for this, as the companies get revenue from their customers regardless.

Transit agreements

Backbone providers of unequal market share usually create agreements called transit agreements, and usually contain some type of monetary agreement.

Regulation

Antitrust authorities have acted to ensure that no provider grows large enough to dominate the backbone market. In the United States, the Federal Communications Commission has decided not to monitor the competitive aspects of the Internet backbone interconnection relationships as long as the market continues to function well.


Index of /download/inteng/Internet Backbone Maps
src: www.midinternet.com


Regional backbone

Egypt

The government of Egypt shut down the four major ISPs on January 27, 2011 at approximately 5:20 p.m. EST. Evidently the networks had not been physically interrupted, as the Internet transit traffic through Egypt, such as traffic flowing from Europe to Asia, was unaffected. Instead, the government shut down the border gateway protocol (BGP) sessions announcing local routes. BGP is responsible for routing traffic between ISPs.

Only one of Egypt's ISPs was allowed to continue operations. The ISP Noor Group provided connectivity only to Egypt's stock exchange as well as some government ministries. Other ISPs started to offer free dial-up Internet access in other countries.

Europe

Europe is a major contributor to the growth of the international backbone as well as a contributor to the growth of Internet bandwidth. In 2003, Europe was credited with 82 percent of the world's international cross-border bandwidth. The company Level 3 Communications began to launch a line of dedicated Internet access and virtual private network services in 2011, giving large companies direct access to the tier 3 backbone. Connecting companies directly to the backbone will provide enterprises faster Internet service which meets a large market demand.

Caucasus

Certain countries around the Caucasus have very simple backbone networks; for example, in 2011, a woman in Georgia pierced a fiber backbone line with a shovel and left the neighboring country of Armenia without Internet access for 12 hours. The country has since made major developments to the fiber backbone infrastructure, but progress is slow due to lack of government funding.

Japan

Japan's Internet backbone needs to be very efficient due to high demand for the Internet and technology in general. Japan had over 86 million Internet users in 2009, and was projected to climb to nearly 91 million Internet users by 2015. Since Japan has a demand for fiber to the home, Japan is looking into tapping a fiber-optic backbone line of Nippon Telegraph and Telephone (NTT), a domestic backbone carrier, in order to deliver this service at cheaper prices.


Backbone network - Dial Telecom, a.s.
src: www.dialtelecom.cz


See also

  • Backbone network
  • Default-free zone
  • Internet2
  • Mbone
  • Network service provider
  • Root name server
  • Routing
  • Switching
  • Trunking

Map Of Us Fiber Optic Network Us Fiber Cables | Bridgeforworld.org
src: bridgeforworld.org


References


global รข€
src: milldampr.com


External links

  • About Level 3
  • Russ Haynal's ISP Page
  • US Internet backbone maps
  • Automatically generated backbone map of the Internet
  • IPv6 Backbone Network Topology

Source of article : Wikipedia