Border Gateway Protocol - Link State (BGP-LS) Extensions for Segment Routing

An autonomous system (AS) is the collection of networks having the same set of routing policies. Each AS has administrative control to its own inter-domain routing policy. Computer networks consisting of a bunch of AS's with different routing will not be able to interconnecttion one another. This is causes communication in the network to be inhibited. For that we need a protocol that can connect each different AS. Border Gateway Protocol (BGP) is an inter-domain routing protocol i.e. between different AS that is used to exchange routing information between them. In a typical inter-network (and in the Internet) each autonomous system designates one or more routers that run BGP software. BGP routers in each AS are linked to those in one or more other AS. The ability to exchange table routing information between Autonomous System (AS) is one of the advantages BGP. BGP implements routing policies based a set of attributes accompanying each route used to pick the “shortest” path across multiple ASs, along with one or more routing policies. BGP uses an algorithm which cannot be classified as a pure "Distance Vector", or pure "Link State". It is a path vector routing protocol as it defines a route as a collection of a number of AS that is passes through from source AS to destination AS. This paper discusses the implementation of the BGP routing protocol in the network that have different AS in order to interconnect. Its application using Packet Tracer 7.0 software for prototyping and simulating network. So that later can be applied to the actual network. Based on experiments that have been carried out, the BGP routing protocol can connect two routers that have different autonomous system.

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Distribution of Traffic Engineering Extended Administrative Groups Using the Border Gateway Protocol - Link State (BGP-LS)

10.17487/rfc9104 ◽

2021 ◽

Author(s):

J. Tantsura ◽

Z. Wang ◽

Q. Wu ◽

K. Talaulikar

Keyword(s):

Traffic Engineering ◽

Border Gateway Protocol ◽

Link State

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Signaling Maximum SID Depth (MSD) Using the Border Gateway Protocol - Link State

10.17487/rfc8814 ◽

2020 ◽

Author(s):

J. Tantsura ◽

U. Chunduri ◽

K. Talaulikar ◽

G. Mirsky ◽

N. Triantafillis

Keyword(s):

Border Gateway Protocol ◽

Link State

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PERBANDINGAN ROUTING PROTOCOL EXTERIOR BGP VERSI 4 DENGAN ROUTING INTERIOR EIGRP PADA ALGORITMA LINKSTATE MENGGUNAKAN PARAMETER PACKET LOSS

JURNAL TEKNOLOGI INFORMASI ◽

10.36294/jurti.v3i2.1071 ◽

2019 ◽

Vol 3 (2) ◽

pp. 185

Author(s):

Muhammad Ikhsan Azhari ◽

Tengku Mohd. Diansyah ◽

Ari Usman

Keyword(s):

Routing Protocol ◽

Packet Loss ◽

Routing Algorithm ◽

Border Gateway Protocol ◽

Route Selection ◽

Transfer Data ◽

Packet Delivery ◽

Link State ◽

Bgp Routing ◽

Successful Packet

Abstract - Computer networks very influential on the speed of transferring data from one computer to another computer by using a PC or server, in this case, the routing configuration is very influential. The best routing route selection is the solution to determine the most rapid and efficient routing, and as the best routing consideration, the researcher has examined two routings, namely BGP (Border Gateway Protocol) routing and EIGRP (Enhanced Interior Gateway Routing Protocol) using the Cisco Paket Traccer application. After the researcher was done an experiment, the researcher gets the result of the average EIGRP delay that is 54.619 and the packet loss result between EIGRP and BGP is not available (successful packet delivery). Keywords - BGP Routing Protocol Exterior, EIGRP Interior Routing, Algorithm Link state, Packet loss Abstrak - Jaringan komputer sangat berpengaruh pada kecepatan transfer data antar satu komputer ke komputer lain baik itu pc maupun server, dalam hal ini konfigurasi routing sangat berpengaruh. Pemilihan jalur routing terbaik merupakan solusi untuk menentukan routing yang paling cepat dan efisien, dan sebagai bahan pertimbangan routing terbaik penulis meneliti dua routing yakni routing BGP (Border Gateway Protocol) dan routing EIGRP (Enhanced Interior Gateway Routing Protocol) mengguanakan aplikasi Cisco Packet Traccer. Setelah dilakukannya percobaan yang penulis perbuat, maka didapatkan hasil dari rata-rata delay EIGRP yaitu 54,619 dan hasil dari packetloss antara EIGRP dan BGP tidak ada (pengiriman paket sukses). Kata Kunci - Routing Protocol Exterior BGP, Routing Interior EIGRP, Algoritma Link state, Packet loss.

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