Failover: Difference between revisions

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New page: '''Failover''' means the automatic substitution of a functionally equivalent system component for a failed one: if one ''fails'' the other can take ''over''. The principle describes the tr...
 
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'''Failover''' means the automatic substitution of a functionally equivalent system component for a failed one: if one ''fails'' the other can take ''over''. The principle describes the transfer of operation from a failed component to a similar, unused and [[Redundancy|redundant component]] to ensure uninterrupted functionality. It happens automatic without human intervention, and is often found and used in [[Fault Tolerance|fault-tolerant]] architectures. Necessary for successful failover techniques is high [[Redundancy|redundancy]].
'''Failover''' means the automatic substitution of a functionally equivalent system component for a failed one: if one ''fails'' the other can take ''over''. The principle describes the transfer of operation from a failed component to a similar, unused and [[Redundancy|redundant component]] to ensure uninterrupted functionality. It happens automatic without human intervention, and is often found and used in [[Fault Tolerance|fault-tolerant]] architectures. Necessary for successful failover techniques is high [[Redundancy|redundancy]].


[[Category:Applied Principles]]
[[Category:Applied Principles]]

Revision as of 03:27, 24 November 2010


Failover means the automatic substitution of a functionally equivalent system component for a failed one: if one fails the other can take over. The principle describes the transfer of operation from a failed component to a similar, unused and redundant component to ensure uninterrupted functionality. It happens automatic without human intervention, and is often found and used in fault-tolerant architectures. Necessary for successful failover techniques is high redundancy.