摘要:
Near clones for a set of targeted computing systems are provided by determining a highest common denominator set of components among the computing systems, producing a pseudo-clone configuration definition, and realizing one or more pseudo-clone computing systems as partially configured backups for the targeted computing systems. Upon a planned failover, actual failure, or quarantine action on a targeted computing system, a difference configuration is determined to complete the provisioning of the pseudo-clone system to serve as a replacement system for the failed or quarantined system. Failure predictions can be used to implement the pseudo-clone just prior to an expected first failure of any of the targeted systems. The system can also interface to an on-demand provisioning management system to effect automated workflows to realize pseudo-clones and replacement systems automatically, as needed.
摘要:
Near clones for a set of targeted computing systems are provided by determining a highest common denominator set of components among the computing systems, producing a pseudo-clone configuration definition, and realizing one or more pseudo-clone computing systems as partially configured backups for the targeted computing systems. Upon a planned failover, actual failure, or quarantine action on a targeted computing system, a difference configuration is determined to complete the provisioning of the pseudo-clone system to serve as a replacement system for the failed or quarantined system. Failure predictions can be used to implement the pseudo-clone just prior to an expected first failure of any of the targeted systems. The system can also interface to an on-demand provisioning management system to effect automated workflows to realize pseudo-clones and replacement systems automatically, as needed.
摘要:
Near clones for a set of targeted computing systems are provided by determining a highest common denominator set of components among the computing systems, producing a pseudo-clone configuration definition, and realizing one or more pseudo-clone computing systems as partially configured backups for the targeted computing systems. Upon a planned failover, actual failure, or quarantine action on a targeted computing system, a difference configuration is determined to complete the provisioning of the pseudo-clone system to serve as a replacement system for the failed or quarantined system. Failure predictions can be used to implement the pseudo-clone just prior to an expected first failure of any of the targeted systems. The system can also interface to an on-demand provisioning management system to effect automated workflows to realize pseudo-clones and replacement systems automatically, as needed.
摘要:
Near clones for a set of targeted computing systems are provided by determining a highest common denominator set of components among the computing systems, producing a pseudo-clone configuration definition, and realizing one or more pseudo-clone computing systems as partially configured backups for the targeted computing systems. Upon a planned failover, actual failure, or quarantine action on a targeted computing system, a difference configuration is determined to complete the provisioning of the pseudo-clone system to serve as a replacement system for the failed or quarantined system. Failure predictions can be used to implement the pseudo-clone just prior to an expected first failure of any of the targeted systems. The system can also interface to an on-demand provisioning management system to effect automated workflows to realize pseudo-clones and replacement systems automatically, as needed.
摘要:
Near clones for a set of targeted computing systems are provided by evaluating different configurations of the targeted computing systems including lists of installed hardware components and installed software components; determining a subset of components in common among the different configurations; determining an initial pseudo-clone configuration including the subset of components and excluding components which are not in common among the different target hardware configurations; for each of the targeted computing systems, producing a finish-out workflow of installation steps and components to be installed into an incompletely configured computer system according to the pseudo-clone configuration to produce an operational clone system; and outputting the pseudo-clone configuration and the workflow to a provisioning management system for subsequent realization of a pseudo-clone backup computing system and further subsequent realization of one or more operational clone systems.
摘要:
Environment asset inventories of computing environment assets are arranged into computing environments, and at least one collector interface is disposed between the environments to detect movement of an asset and to produce asset movement reports. Upon receipt of a movement report, one or more backup copies of a environment asset inventory are accessed, and compared a modified environment asset inventory. A history of each asset in each inventory is maintained. A history report regarding the life of an asset from first introduction into an environment throughout movements between environments is produced, including any applicable patches and upgrades configured into an environment. A discrepancy report is generated including assets, locations, status, and a revision level indicators.
摘要:
A system for establishing and maintaining inventories of computing environment assets comprising one or more custom collector interfaces that detect movement of assets from one environment to another, and an inventory scanner which modifies inventories for each environment based on monitored asset movements. The present invention is of especial benefit to autonomic and on-demand computing architectures.
摘要:
A system for establishing and maintaining inventories of computing environment assets comprising one or more custom collector interfaces that detect movement of assets from one environment to another, and an inventory scanner which modifies inventories for each environment based on monitored asset movements. The present invention is of especial benefit to autonomic and on-demand computing architectures.
摘要:
Workflows for execution by an autonomic provision management system to yield near clones and replacement systems for a set of targeted computing solutions are provided by determining a common denominator set of workflow steps among the workflows for the targeted computing systems, including workflows to morph a near clone to a specific targeted solution when executed a provisioning management system. Common portions of workflows are identified and archived as workflow templates for re-use in development of new workflows, thus virtualizing the process of subsequent workflow design which use the templates. Multi-level criteria-based searching is provided to workflow designers for finding and re-using existing workflows and workflow templates according to degree of matching common steps, quickest implementation, highest available, or other criteria.
摘要:
Near clones for a set of targeted computing systems are provided by determining a highest common denominator set of components among the computing systems, producing a pseudo-clone configuration definition, and realizing one or more pseudo-clone computing systems as partially configured backups for the targeted computing systems. Upon a planned failover, actual failure, or quarantine action on a targeted computing system, a difference configuration is determined to complete the provisioning of the pseudo-clone system to serve as a replacement system for the failed or quarantined system. Failure predictions can be used to implement the pseudo-clone just prior to an expected first failure of any of the targeted systems. The system can also interface to an on-demand provisioning management system to effect automated workflows to realize pseudo-clones and replacement systems automatically, as needed.