Patent application number | Description | Published |
20080250405 | Parallel installation - Installation of multiple servers with interdependencies is done in parallel steps, with each server advancing in sequence with other servers. When a second server is dependent on a first server during the installation process, the first server may finish a task and send a message to the second server to attempt an installation step that depends on the first server. If a problem occurs, the second server may revert to a configuration state before the attempted step and the first server may reattempt the installation step on which the second server depends. | 10-09-2008 |
20090100158 | Backup and Recovery System for Multiple Device Environment - A backup system stores configuration data for several interdependent systems in a single backup store. As the systems are being configured and when changes are made to the systems, the backup store is updated with the change. The systems may be configured with each system having a designated role. During a restore operation, an otherwise unallocated system may assume a particular role and use the configuration logic defined for the role that may be taken from the backup store. The system may perform the restore in conjunction with the other systems and the interdependencies with the systems. | 04-16-2009 |
20110289160 | Mail Service Management System - An electronic mail management system may have a standardized interface to which different mail providers may provide an adapter. The standardized interface may have a predefined set of functions that each mail provider may provide, and the mail management system may have a user interface through which the functions may be managed. In some cases, a mail provider may have additional or customized functions that may be added to the user interface and made available to an administrator. Through the user interface, an administrator may be able to add, delete, configure, and move mailboxes, as well as other functions. | 11-24-2011 |
20120297238 | CROSS-CLOUD COMPUTING FOR CAPACITY MANAGEMENT AND DISASTER RECOVERY - A cloud migration system is described herein that provides capacity management and disaster recovery by detecting peak load conditions and automatically moving computing to another computing resource (and back) and by providing computing across two or more clouds and moving completely to one in the case of a disaster at one site. The system monitors loads within a datacenter and detects a threshold that indicates that the current load is nearing the datacenter's capacity. Upon detecting that the threshold will be reached, the system facilitates an orderly move of at least some datacenter load to another datacenter or cloud-based resources. The system can also be used as a disaster recovery architecture at a datacenter/network level to manage fast workload transition in case of disaster. Thus, the system allows enterprises to build smaller and more efficient datacenters that leverage other resources for rare extra loads. | 11-22-2012 |
20120311111 | DYNAMIC RECONFIGURATION OF CLOUD RESOURCES - A cloud configuration system is described herein that provides the ability to dynamically reconfigure a set of computing resources to define a cloud into multiple separate logical cloud instances. The system includes a reconfiguration tool that reads an existing system and network configuration from a configuration store, allows the user to change the configuration into multiple logical systems, performs some syntactical checks, and stores the new configuration into the configuration store. The system also includes a validation tool that imports the existing and new configurations from the configuration store, determines what devices need to be changed in the network, and enables a deployment engine to proceed with the changes. The deployment engine applies each change until all changes are completed. The validation tool can then revalidate the post-deployment changes to make sure the new inventory is recognized and no existing setting is broken. | 12-06-2012 |
Patent application number | Description | Published |
20090158742 | METHOD AND APPARATUS FOR MIXING SUBSTANCES - A combustor assembly for a gas powered turbine includes a premix section to mix a first selected volume of fuel with a selected oxidizer. The premix section includes an injector plate that includes a porosity according to selected characteristics, such as pore size, pore density, pore distribution, and other selected characteristics. Therefore, the fuel may be provided through the porous plate to the premix area in a selected uniform flux. | 06-25-2009 |
20120036775 | MODULAR TIP INJECTION DEVICES AND METHOD OF ASSEMBLING SAME - A method of assembling an injection device for use in a reactor injector feed assembly includes coupling a plurality of substantially concentric conduits to a modular tip. The method also includes coupling a first conduit of the reactor injector feed assembly to a modular tip and coupling a second conduit of the reactor injector feed assembly to the modular tip. The modular tip includes a first substantially annular nozzle and a second substantially annular nozzle defined therein. The first conduit and the first substantially annular nozzle are centered about an injection device centerline. | 02-16-2012 |
20120039761 | APPARATUS FOR REMOVING HEAT FROM INJECTION DEVICES AND METHOD OF ASSEMBLING SAME - A method of assembling an injection device for use in a reactor injector feed assembly includes extending the injection device at least partially into a cavity. The injection device includes a plurality of substantially concentric conduits coupled to a modular tip that includes a plurality of cooling channels and a plurality of substantially annular nozzles defined therein. The method also includes coupling at least one coolant distribution device in flow communication with the plurality of cooling channels to facilitate removing heat from an outer surface of the injection device. | 02-16-2012 |
20120267576 | GASIFIER INJECTOR - A method for gasifying a carbonaceous material includes supplying a main slurry flow to a main cavity of a two-stage slurry splitter, dividing the main slurry flow into secondary slurry flows that flow into secondary cavities extending from the main cavity at distal ends of first stage flow dividers, dividing each secondary slurry flow into tertiary slurry flows that flow into slurry injection tubes extending from each secondary cavity at distal ends or second stage flow dividers, injecting the tertiary slurry flows into a gasification chamber coupled to the injector module, impinging annular shaped sprays of a reactant onto corresponding ones of the tertiary slurry flows within the gasification chamber using annular impinging orifices in a face plate of the injector module, and cooling the face plate to withstand high temperatures and abrasion. | 10-25-2012 |
20140157666 | APPARATUS FOR REMOVING HEAT FROM INJECTION DEVICES AND METHOD OF ASSEMBLING SAME - A method of assembling an injection device for use in a reactor injector feed assembly includes extending the injection device at least partially into a cavity. The injection device includes a plurality of substantially concentric conduits coupled to a modular tip that includes a plurality of cooling channels and a plurality of substantially annular nozzles defined therein. The method also includes coupling at least one coolant distribution device in flow communication with the plurality of cooling channels to facilitate removing heat from an outer surface of the injection device. | 06-12-2014 |