Geo-replication: Difference between revisions
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'''Geo-replication''' systems improve the distribution of data across geographically distributed [[Computer networking|data networks]]. This enables improved end |
'''Geo-replication''' systems improve the distribution of data across geographically distributed [[Computer networking|data networks]]. This enables improved end-user experience of data heavy applications such as [[web portal]]s. Geo-replication can be achieved using software, hardware or a combination of the two. |
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== Geo-replication software == |
== Geo-replication software == |
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=== Portal acceleration === |
=== Portal acceleration === |
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Geo-replication technologies are used to provide replication of the content of portals such as [[Microsoft SharePoint]], intranets, web applications, content and data between servers, across wide area networks [[Wide area network|WAN]] to allow users at remote sites to access central content at [[LAN]] speeds. |
Geo-replication technologies are used to provide replication of the content of portals such as [[Microsoft SharePoint]], intranets, web applications, content and data between servers, across wide area networks [[Wide area network|WAN]] to allow users at remote sites to access central content at [[Local area network|LAN]] speeds. |
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Geo-replication software can dramatically increase the performance of data networks that suffer limited [[Bandwidth (computing)|bandwidth]], [[ |
Geo-replication software can dramatically increase the performance of data networks that suffer limited [[Bandwidth (computing)|bandwidth]], [[Latency (engineering)|latency]] and periodic disconnection. [[Terabyte]]s of data can be efficiently replicated over a WAN giving remote sites rapid access to web applications. |
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Geo-replication software solutions use a combination of [[data compression]] and content [[ |
Geo-replication software solutions use a combination of [[data compression]] and content [[Cache|caching]] technologies. [[Delta encoding|differencing]] technologies can also be employed to dramatically reduce the volume of data that has to be transmitted to keep portal content accurate across all servers. This update compression dramatically reduces the load that portal traffic inflicts on networks, and significantly improves the end user experience of a portal by accelerating its performance. |
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=== SharePoint replication === |
=== SharePoint replication === |
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== Geo-replication systems == |
== Geo-replication systems == |
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*[[Load balancing (computing)|Load balancing]] |
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*[[Round robin DNS]] |
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==References== |
==References== |
Revision as of 00:47, 12 November 2008
This article needs additional citations for verification. (May 2008) |
Geo-replication systems improve the distribution of data across geographically distributed data networks. This enables improved end-user experience of data heavy applications such as web portals. Geo-replication can be achieved using software, hardware or a combination of the two.
Geo-replication software
Geo-replication software is a network performance-enhancing technology that is designed to provide improved access to portal or intranet content for uses at the most remote parts of large organizations. It is based on the principle of storing complete replicas of portal content on local servers, and then keeping the content on those servers up-to-date using heavily compressed data updates.
Portal acceleration
Geo-replication technologies are used to provide replication of the content of portals such as Microsoft SharePoint, intranets, web applications, content and data between servers, across wide area networks WAN to allow users at remote sites to access central content at LAN speeds.
Geo-replication software can dramatically increase the performance of data networks that suffer limited bandwidth, latency and periodic disconnection. Terabytes of data can be efficiently replicated over a WAN giving remote sites rapid access to web applications.
Geo-replication software solutions use a combination of data compression and content caching technologies. differencing technologies can also be employed to dramatically reduce the volume of data that has to be transmitted to keep portal content accurate across all servers. This update compression dramatically reduces the load that portal traffic inflicts on networks, and significantly improves the end user experience of a portal by accelerating its performance.
SharePoint replication
Remote users of web portals and collaboration environments such as Microsoft SharePoint will frequently experience network bandwidth and latency problems which will slow down their experience of opening and closing files, and otherwise interacting with the portal. Geo-replication technology is deployed to accelerate the remote end user portal performance to be equivalent to that experienced by users locally accessing the portal in the central office.
Differencing engine technologies
This article contains promotional content. (May 2008) |
To deliver this dramatic reduction in the size of the required data updates across a portal, geo-replication systems often use differencing engine technologies. These systems are able to difference the content of each portal server right down to the byte level. This knowledge of the content that is already on each server enables the system to rebuild any changes to the content on one server, across each of the other servers in the deployment from content already hosted on those other servers. This type of differencing system ensures that no content, at the byte level, is ever sent to a server twice.
Offline portal replication on laptops
This article contains promotional content. (May 2008) |
Geo-replication systems are often extended to deliver local replication beyond the server and down to the laptop used by a single user. Server to laptop replication enables mobile users to have access to a full replica of their business portal on a standard laptop. This technology may be employed to provide in the field access to portal content by, for example, sales forces and combat forces.