Hegdal
Gururaja Hegdal, Bangalore IN
Patent application number | Description | Published |
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20130297964 | Virtual Machine Placement With Automatic Deployment Error Recovery - Embodiments perform automatic selection of hosts and/or datastores for deployment of a plurality of virtual machines (VMs) while monitoring and recovering from errors during deployment. Resource constraints associated with the VMs are compared against resources or characteristics of available hosts and datastores. A VM placement engine selects an optimal set of hosts/datastores and initiates VM creation automatically or in response to administrator authorization. During deployment, available resources are monitored enabling dynamic improvement of the set of recommended hosts/datastores and automatic recovery from errors occurring during deployment. | 11-07-2013 |
20140215267 | VIRTUAL MACHINE PLACEMENT WITH AUTOMATIC DEPLOYMENT ERROR RECOVERY - Embodiments perform automatic selection of hosts and/or datastores for deployment of a plurality of virtual machines (VMs) while monitoring and recovering from errors during deployment. Resource constraints associated with the VMs are compared against resources or characteristics of available hosts and datastores. A VM placement engine selects an optimal set of hosts/datastores and initiates VM creation automatically or in response to administrator authorization. During deployment, available resources are monitored enabling dynamic improvement of the set of recommended hosts/datastores and automatic recovery from errors occurring during deployment. | 07-31-2014 |
20140317622 | VIRTUAL MACHINE PLACEMENT WITH AUTOMATIC DEPLOYMENT ERROR RECOVERY - Embodiments perform automatic selection of hosts and/or datastores for deployment of a plurality of virtual machines (VMs) while monitoring and recovering from errors during deployment. Resource constraints associated with the VMs are compared against resources or characteristics of available hosts and datastores. A VM placement engine selects an optimal set of hosts/datastores and initiates VM creation automatically or in response to administrator authorization. During deployment, available resources are monitored enabling dynamic improvement of the set of recommended hosts/datastores and automatic recovery from errors occurring during deployment. | 10-23-2014 |
20150067168 | VIRTUAL MACHINE DEPLOYMENT AND MANAGEMENT ENGINE - A virtual machine deployment and management engine deploys virtual machines to physical host computers based on a deployment time matrix. The deployment time matrix specifies approximate amounts of time used to clone or deploy a virtual machine from every host computer to every other host computer. The virtual machine deployment and management engine selects a deployment path based on the deployment times and executes the clone or deploy operations. | 03-05-2015 |
Gururaja Hegdal, Bangalore, IN US
Patent application number | Description | Published |
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20150127833 | RAPID VIRTUAL MACHINE CLONING - A management server clones a source virtual machine to a plurality of target host computers. For each target host, the management server creates linked clones of the source virtual machine in a target data store that is accessible to the target host. The management server starts execution of the linked clones in the target hosts. While the linked clones execute, for each target host, the management server creates full clones of the source virtual machine in the target data store and, after creating the full clones, suspends execution in the linked clones and resumes execution in the full clones. | 05-07-2015 |
Jan Peder Hegdal, Orkanger NO
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20100043906 | HIGH TEMPERATURE RESISTANT INSULATION FOR PIPE - A polymeric composition for insulating fluid and/or gas transport conduits, such as off-shore oil and gas pipelines operating at temperatures of 130° C. or higher in water depths above 1,000 metres. The outer surface of the conduit is provided with at least one layer of solid or foam insulation comprising a high temperature resistant thermoplastic having low thermal conductivity, high thermal softening point, high compressive strength and high compressive creep resistance. The high temperature resistant thermoplastic is selected from one or more members of the group comprising: polycarbonate; polyphenylene oxide; polyphenylene oxide blended with polypropylene, polystyrene or polyamide; polycarbonate blended with polybutylene terephthalate, polyethylene terephthalate, acrylonitrile butadiene styrene, acrylonitrile styrene acrylate, or polyetherimide; polyamides, including polyamide 12 and 612 and elastomers thereof; polymethylpentene and blends thereof; cyclic olefin copolymers and blends thereof; and, partially crosslinked thermoplastic elastomers, also known as thermoplastic vulcanizates or dynamically vulcanized elastomers. | 02-25-2010 |
Jan Peder Hegdal, Fannrem NO
Patent application number | Description | Published |
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20150041017 | HIGH TEMPERATURE FIELD JOINTS - A method for forming a high temperature field joint between two insulated pipe sections, and an insulated conduit having a low temperature field joint. The conduit comprises a steel pipe with a corrosion protection coating and a pipe insulation layer comprising a polymer composition having thermal conductivity of less than about 0.40 W/mk, and/or heat resistance to continuous operating temperatures from about 150° C. to above about 205° C. After a circumferential weld joint is formed between the two pipes, a first field joint insulation layer is applied over the joint area, the first field joint insulation layer comprises a polymer composition having heat resistance to continuous operating temperatures from about 150° C. to above about 205° C. | 02-12-2015 |