Patent application number | Description | Published |
20100223619 | VISUALIZATION-CENTRIC PERFORMANCE-BASED VOLUME ALLOCATION - A method, system, and computer program product for visualization-centric performance-based volume allocation in a data storage system using a processor in communication with a memory device is provided. A unified resource graph representative of a global hierarchy of storage components in the data storage system, including each of a plurality of storage controllers, is generated. The unified resource graph includes a common root node and a plurality of subtree nodes corresponding to each of a plurality of nodes internal to the plurality of storage controllers. The common root node and the plurality of subtree nodes are ordered in a top-down orientation. Scalable volume provisioning of an existing or new workload amount by graphical manipulation of at least one of the storage components represented by the unified resource graph is performed based on an input. | 09-02-2010 |
20110106938 | Multi-Level Offload of Model-Based Adaptive Monitoring for Systems Management - A method, system, and article are provided for monitoring performance of hardware devices. Each hardware device is configured with an agent, and the server is configured with a coordinator. The agent collects device data at a first modifiable frequency and communicates the collected data to the coordinator at a second dynamically modifiable frequency. The collected data is periodically monitored and the first and second frequencies are modified subject to evaluation of the collected and monitored data. | 05-05-2011 |
20120216209 | VISUALIZATION-CENTRIC PERFORMANCE-BASED VOLUME ALLOCATION - A method, system, and computer program product for visualization-centric performance-based volume allocation in a data storage system using a processor in communication with a memory device is provided. A unified resource graph representative of a global hierarchy of storage components in the data storage system, including each of a plurality of storage controllers, is generated. The unified resource graph includes a common root node and a plurality of subtree nodes corresponding to each of a plurality of nodes internal to the plurality of storage controllers. The common root node and the plurality of subtree nodes are ordered in a top-down orientation. Scalable volume provisioning of an existing or new workload amount by graphical manipulation of at least one of the storage components represented by the unified resource graph is performed based on an input. | 08-23-2012 |
20130275377 | MAINTAINING MULTIPLE COPY VERSIONS OF COMPONENT VALUES IN A SYSTEM - Provided are a computer program product, system, and method for maintaining multiple copy versions of component values in a system. A database includes entries for components in a system, wherein there is one entry for each of a plurality of component values associated with a component, wherein each entry indicates a range of copy versions for which the component value applies. A copy operation is performed at a current time to create a current copy version. A determination is made as to whether the component values for the components at the current time have changed since a previous copy version. The previous copy version is maintained in the database and immediately precedes the current copy version. For each component value that has changed, the entry for the component having the open indicator as the end copy version is updated to indicate the previous copy version as the end copy version. | 10-17-2013 |
20140365898 | VISUALIZATION-CENTRIC PERFORMANCE-BASED VOLUME ALLOCATION - A method, system, and computer program product for visualization-centric performance-based volume allocation in a data storage system using a processor in communication with a memory device is provided. A unified resource graph representative of a global hierarchy of storage components in the data storage system, including each of a plurality of storage controllers, is generated. The unified resource graph includes a common root node and a plurality of subtree nodes corresponding to each of a plurality of nodes internal to the plurality of storage controllers. The common root node and the plurality of subtree nodes are ordered in a top-down orientation. Scalable volume provisioning of an existing or new workload amount by graphical manipulation of at least one of the storage components represented by the unified resource graph is performed based on an input. | 12-11-2014 |