Sri Anggraeni, - (2024) IMPLEMENTASI SISTEM DISASTER RECOVERY BERBASIS SOFTWARE DEFINED NETWORK PADA DATABASE MONGODB. S1 thesis, Universitas Pendidikan Indonesia.
Abstract
Database harus dijaga semaksimal mungkin dari adanya ancaman yang bisa
mengakibatkan downtime atau bencana baik dilakukan secara sengaja maupun tidak
disengaja. Oleh karena itu perlu adanya sistem backup data yang baik dan benar sebagai
penerapan penanggulangan bencana atau disaster recovery. Penelitian ini melakukan live
migration virtual machine dengan model stop and-copy sebagai sistem disaster recovery
pada database MongoDB dengan parameter Recovery Time Objective dan Recovery Point
Objective. Sebagai fungsi tools tambahan, MongoDB di monitoring menggunakan
Prometheus dan Grafana dengan parameter utilisasi server dan kueri
MongoDB_exporter_build_info. Hasil sistem monitoring yang diperoleh pada penelitian
ini yaitu pada parameter utilisasi server, komponen CPU yang digunakan bernilai 1,5%,
komponen RAM yang digunakan yaitu 31,5%, komponen uptime yaitu 22,3 menit dan
kueri MongoDB_exporter_build_info mempunyai nilai 1. Dari grafik mengenai hasil live
migration virtual machine yang diperoleh pada penelitian ini, Nilai rata – rata waktu RTO
yaitu 6,15 detik sedangkan RPO memiliki rata- rata waktu 473 detik. Selisih waktu RPO
dan RTO pada penelitian ini yaitu sebesar 466,855 detik dimana Recovery Time Objective
(RTO) memiliki waktu yang lebih cepat dibandingkan Recovery Point Objective (RPO).
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Databases must be protected as much as possible from threats that can cause
downtime or disasters either intentionally or unintentionally. Therefore, it is necessary to
have a good and correct data backup system as an application of disaster recovery. This
research performs live virtual machine migration with the stop-and-copy model as a
disaster recovery system on the MongoDB database with Recovery Time Objective and
Recovery Point Objective parameters. As an additional tool function, MongoDB is
monitored using Prometheus and Grafana with server utilization parameters and
MongoDB_exporter_build_info queries. The results of the monitoring system obtained in
this study are in the server utilization parameter, the CPU component used is 1.5%, the
RAM component used is 31.5%, the uptime component is 22.3 minutes and the
MongoDB_exporter_build_info query has a value of 1. From the graph regarding the
results of live virtual machine migration obtained in this study, the average value of RTO
time is 6.15 seconds while RPO has an average time of 473 seconds. The difference the
time between of RPO and RTO in this study is 466.855 seconds where Recovery Time
Objective (RTO) has a faster time than Recovery Point Objective (RPO).
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S_SISTEL_2007550_Chapter1.pdf Download (208kB) |
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S_SISTEL_2007550_Chapter3.pdf Download (292kB) |
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S_SISTEL_2007550_Chapter5.pdf Download (191kB) |
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S_SISTEL_2007550_Appendix.pdf Restricted to Staf Perpustakaan Download (3MB) |
Item Type: | Thesis (S1) |
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Additional Information: | https://scholar.google.com/citations?hl=en&user=MJWlmokAAAAJ ID SINTA Dosen Pembimbing Galura Muhammad Suranegara: 6703764 Ahmad Fauzi: 6122861 |
Uncontrolled Keywords: | disaster recovery, SDN, MongoDB, Live migration, virtual machine, |
Subjects: | T Technology > T Technology (General) |
Divisions: | UPI Kampus Purwakarta > S1 Sistem Telekomunikasi |
Depositing User: | Sri Anggraeni |
Date Deposited: | 26 Aug 2024 06:39 |
Last Modified: | 26 Aug 2024 06:39 |
URI: | http://repository.upi.edu/id/eprint/120887 |
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