Efisiensi Flooding Dengan Pengembangan Metode Reliable Subnetwork Pada Arsitektur Fibbing Di Lingkungan Hybrid SDN

Prakoso, Dino Budi (2020) Efisiensi Flooding Dengan Pengembangan Metode Reliable Subnetwork Pada Arsitektur Fibbing Di Lingkungan Hybrid SDN. Masters thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Dalam dunia teknologi khususnya pada bidang jaringan saat ini konektivitas autonomous systems (AS) sangat dibutuhkan. Khususnya terhadap protokol routing dynamic yang sering dipakai dibandingkan protokol routing static. Untuk mendukung jaringan saat ini, dibutuhkan protokol routing yang efisien dan efektif yang mampu mencakup skala yang cukup besar. Software Defined Network (SDN) adalah inovasi teknologi pada dunia jaringan yang mempunyai Control Plane dan Data Plane terpisah untuk memudahkan dalam melakukan konfigurasi pada sisi Control Plane. Control Plane merupakan titik pusat terjadinya proses bottleneck dalam arsitektur SDN. Performance merupakan masalah kritis dalam implementasi jaringan skala besar karena beban permintaan yang besar terjadi pada Control Plane dengan menghasilkan nilai throughput yang cukup besar. Pada penelitian ini akan dilakukan pengujian pada jaringan Hybrid SDN dengan menggunakan protokol routing OSPF, berdasarkan arsitektur “Fibbing” yang diimplementasikan pada jaringan sistem Hybrid SDN mampu membantu dalam meningkatkan performance, namun terdapat kendala saat pengiriman flooding LSA Type-5 yang digunakan sebagai pembentuk fake node. Banyak node-node yang tidak dilewati sebagai jalur distribusi juga membentuk fake node, dalam hal ini tentu akan meningkatkan nilai throughput menjadi besar. Hal tersebut dapat diatasi dengan menggunakan metode Reliable Subnetwork (RSN) untuk mengatur efisiensi flooding LSA Type-5, kemudian hasil yang didapatkan akan dianalis dengan QoS (Quality of Service). ======================================================== ======================================================== In the technology world especially in the field of current network of Autonomous Systems connectivity (AS) is indispensable. Especially against the dynamic routing protocols that are often used compared to static routing protocols. In supporting this current network, it takes efficient and effective routing protocols capable of covering a sizable scale. Software Defined Network (SDN) is a technological innovation in the network world that has a separate Control Plane and Data Plane that makes it easy to configure on the Control Plane side. Control Plane is the focal point on a process of bottleneck in SDN architecture. Performance is a critical issue in large-scale network implementations because of the large demand load occurring in the Control Plane by generating low throughput value. This research will be conducted testing on the Hybrid network of SDN by using OSPF routing protocol, based on the Fibbing architecture implemented on the system network Hybrid SDN whose able to assist in improving performance, but there are constraints when sending flooding LSA Type-5 which is used as a fake node forming. Many nodes are not skipped as distribution lines in the formation of a fake node, in which case it will certainly affect the value of throughput to be unstable and decrease. This can be overcome by using the Reliable Subnetwork (RSN) method to adjust the flooding efficiency of the Type-5 LSA, then the results obtained will be analyzed with QoS (Quality of Service).

Item Type: Thesis (Masters)
Uncontrolled Keywords: Software Defined Network, OSPF, QoS, Reliable Subnetwork Software Defined Network, OSPF, QoS, Reliable Subnetwork.
Subjects: T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5105.585 TCP/IP (Computer network protocol)
T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5105.5956 Quality of service. Reliability Including network performance
Divisions: Faculty of Intelligent Electrical and Informatics Technology (ELECTICS) > Informatics Engineering > 55101-(S2) Master Thesis
Depositing User: Dino Budi Prakoso
Date Deposited: 12 Aug 2020 04:15
Last Modified: 12 Aug 2020 04:15
URI: https://repository.its.ac.id/id/eprint/77572

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