Abstract: The present disclosure describes systems and methods for spares management in a data center context. The described system may provide fully integrated dashboards and spares control mechanisms that visually displays the status of all spares activity including the ability to set alarms to monitor items to avoid potential supply disruptions. The system may also automatically monitor and balance the distribution of spares between multiple data centers.

Abstract: The present disclosure describes systems and methods for spares management in a data center context. The described system may provide fully integrated dashboards and spares control mechanisms that visually displays the status of all spares activity including the ability to set alarms to monitor items to avoid potential supply disruptions. The system may also automatically monitor and balance the distribution of spares between multiple data centers.

Abstract: The present disclosure describes mobile systems and methods for capturing, auditing, and transferring inventory information in contexts such as large data centers. In some cases, a mobile device is configured to manage inventory information in a data center. The mobile device may include a number of pre-configured workflows for capturing inventory information, receiving new inventory, auditing existing inventory, and/or transferring inventory from one place to another.

Abstract: A system for semantically modeling relationships and dependencies between groups, enclosures, assets, and support entities according to an industry specific manner. An exemplary system includes a user interface device, a relational database and a processor. The processor receives relationship information and receives attributes with associated measurements for the groups, enclosures, assets, and support entities for the corporation from the user interface device. The attributes with associated measurements are formatted according the specific industry of the corporation. The processor generates a three dimensional (3D) visualization of the groups, enclosures, assets, and support entities and allows a virtual walkthrough of the 3D visualization as presented on the display device based on user entered commands from the user input device.

Abstract: A system for semantically modeling relationships and dependencies between groups, enclosures, assets, and support entities according to an industry specific manner. An exemplary system includes a user interface device, a relational database and a processor. The processor receives relationship information and receives attributes with associated measurements for the groups, enclosures, assets, and support entities for the corporation from the user interface device. The attributes with associated measurements are formatted according the specific industry of the corporation. The processor generates a three dimensional (3D) visualization of the groups, enclosures, assets, and support entities and allows a virtual walkthrough of the 3D visualization as presented on the display device based on user entered commands from the user input device.

Abstract: A system for semantically modeling relationships and dependencies between groups, enclosures, assets, and support entities according to an industry specific manner. An exemplary system includes a user interface device, a relational database and a processor. The processor receives relationship information and receives attributes with associated measurements for the groups, enclosures, assets, and support entities for the corporation from the user interface device. The attributes with associated measurements are formatted according the specific industry of the corporation. The processor generates a three dimensional (3D) visualization of the groups, enclosures, assets, and support entities and allows a virtual walkthrough of the 3D visualization as presented on the display device based on user entered commands from the user input device.