Metric-driven job assignment in cloud-based environments: Unterschied zwischen den Versionen
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|betreuer=Robert Heinrich | |betreuer=Robert Heinrich | ||
|termin=Institutsseminar/2018-12-21 | |termin=Institutsseminar/2018-12-21 | ||
|kurzfassung= | |kurzfassung=A cloud storage migration is usually done in one of two ways - via corresponding storage sync clients or SaaS migration tools. The SaaS migration tools can typically migrate the data significantly faster, as they are not as constrained by the Internet bandwidth as the users are. Such tools incorporate a server that reads the data from the user’s old cloud storage and copies it to another, desired cloud storage. This server is referred to as "migration server". The geographic location of the migration server can influence the duration of the cloud storage migration. Commonly, it is reported that closer distances yield better results in terms of speed over the Internet and hence, the expectation is that a migration server placed at the geographic midpoint between the data centers of the cloud storages involved, will lead to good results. We investigate different influences on cloud storage migration speed and conceptualize an algorithm for choosing a migration server location in a generic cloud storage migration scenario. In an experimental evaluation, the results of the algorithm are compared against the results of the geographic midpoint between the data centers of the cloud storages involved in the migration. midpoint, determine the necessity of developing an algorithm for choosing a migration serverlocation and ultimately present some of the guidelines for developing such an algorithm. | ||
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Aktuelle Version vom 17. Dezember 2018, 11:00 Uhr
| Vortragende(r) | Erdinch Mehmedali | |
|---|---|---|
| Vortragstyp | Masterarbeit | |
| Betreuer(in) | Robert Heinrich | |
| Termin | Fr 21. Dezember 2018 | |
| Vortragsmodus | ||
| Kurzfassung | A cloud storage migration is usually done in one of two ways - via corresponding storage sync clients or SaaS migration tools. The SaaS migration tools can typically migrate the data significantly faster, as they are not as constrained by the Internet bandwidth as the users are. Such tools incorporate a server that reads the data from the user’s old cloud storage and copies it to another, desired cloud storage. This server is referred to as "migration server". The geographic location of the migration server can influence the duration of the cloud storage migration. Commonly, it is reported that closer distances yield better results in terms of speed over the Internet and hence, the expectation is that a migration server placed at the geographic midpoint between the data centers of the cloud storages involved, will lead to good results. We investigate different influences on cloud storage migration speed and conceptualize an algorithm for choosing a migration server location in a generic cloud storage migration scenario. In an experimental evaluation, the results of the algorithm are compared against the results of the geographic midpoint between the data centers of the cloud storages involved in the migration. midpoint, determine the necessity of developing an algorithm for choosing a migration serverlocation and ultimately present some of the guidelines for developing such an algorithm. | |