System and method for application monitoring and automatic disaster recovery for high-availability
First Claim
1. A method for providing a user with an application monitoring and disaster recovery management tool, comprising the steps of:
- deploying a first plurality of intelligent agents within a primary computing environment, said primary computing environment including a primary server executing an application, and wherein each of said first plurality of intelligent agents monitors a metric related to said application;
monitoring, by a monitoring and management server module executing on a management server, a plurality of states, each of said plurality of states being rendered by one of said first plurality of intelligent agents, wherein said management server is in communication with said primary computing environment and a secondary computing environment;
displaying to a user, via a graphical user interface in communications with said monitoring and management server module, said plurality of states; and
performing a failure switch-over from said primary computing environment to a secondary computing environment having a secondary server capable of executing said application in response to a first input received from said user via said graphical interface, wherein said first input is received by said monitoring and management server module as a result of a button click by the user on said graphical user interface;
whereby said method allows for disaster recovery and fault tolerance, and limits computing down-time experienced by end users of said primary computing environment.
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Accused Products
Abstract
Stable and automated recovery of an application executing on a primary computer system by transitioning to a secondary computer system is provided. Intelligent agents installed on a primary client server allow the primary environment to be replicated on a host, secondary environment. This creates continuous availability of applications executing on the primary system via the mirrored host environment. Every transaction on the client environment (e.g., every piece of data) is replicated in real-time on the host environment. A simple mechanism (e.g., a button) is provided to allow access to the secondary environment thereby switching over from the client environment to the host environment in the case of, with respect to the primary environment, a disaster, a need to perform maintenance, system failure and the like.
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Citations
5 Claims
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1. A method for providing a user with an application monitoring and disaster recovery management tool, comprising the steps of:
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deploying a first plurality of intelligent agents within a primary computing environment, said primary computing environment including a primary server executing an application, and wherein each of said first plurality of intelligent agents monitors a metric related to said application; monitoring, by a monitoring and management server module executing on a management server, a plurality of states, each of said plurality of states being rendered by one of said first plurality of intelligent agents, wherein said management server is in communication with said primary computing environment and a secondary computing environment; displaying to a user, via a graphical user interface in communications with said monitoring and management server module, said plurality of states; and performing a failure switch-over from said primary computing environment to a secondary computing environment having a secondary server capable of executing said application in response to a first input received from said user via said graphical interface, wherein said first input is received by said monitoring and management server module as a result of a button click by the user on said graphical user interface; whereby said method allows for disaster recovery and fault tolerance, and limits computing down-time experienced by end users of said primary computing environment.
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2. A method for providing a user with an application monitoring and disaster recovery management tool, comprising the steps of:
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deploying a first plurality of intelligent agents within a primary computing environment, said primary computing environment including a primary server executing an application, and wherein each of said first plurality of intelligent agents monitors a metric related to said application; monitoring, by a monitoring and management server module executing on a management server, a plurality of states, each of said plurality of states being rendered by one of said first plurality of intelligent agents, wherein said management server is in communication with said primary computing environment and a secondary computing environment; displaying to the user, via a graphical user interface in communications with said monitoring and management server module, said plurality of states; and performing a failure switch-over from said primary computing environment to a secondary computing environment having a secondary server capable of executing said application in response to a first input received from the user via said graphical interface; performing a switch-back from said secondary computing environment to said primary computing environment in response to a second input received from the user via said graphical interface, wherein said second input is received by said monitoring and management server module and as a result of a button click by the user on said graphical user interface; whereby said method allows for disaster recovery and fault tolerance, and limits computing down-time experienced by end users of said primary computing environment.
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3. An article of manufacture for providing a user with an application monitoring and disaster recovery management tool, the article of manufacture comprising:
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a computer usable storage medium; and processor instructions stored on said computer usable storage medium for causing a computer to; deploy a plurality of intelligent agents within a primary computing environment, said primary computing environment including a primary server executing an application, and wherein each of said plurality of intelligent agents monitors a metric related to said application; monitor a plurality of states, each of said plurality of states being rendered by one of said plurality of intelligent agents; display to the user, via a graphical user interface, said plurality of states; and perform a failure switch-over from said primary computing environment to a secondary computing environment having a secondary server capable of executing said application in response to a single action input received from the user via said graphical user interface, wherein said single action is a button click by the user on said graphical user interface. - View Dependent Claims (4, 5)
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Specification