Patent application number | Description | Published |
20080294777 | METHOD AND APPARATUS FOR TEMPLATE-BASED PROVISIONING IN A SERVICE DELIVERY ENVIRONMENT - A method for automated provisioning of computing resources in a distributed computing network includes obtaining a data structure representing a resource dependency characterization of an application to be implemented over the distributed computing network, wherein the data structure indicates a set of resources to be deployed, obtaining a template that represents a predefined network topology for supporting deployment of the set of resources, mapping the set of resources represented in the data structure to the template so as to satisfy a set of component requirements to generate a deployment map, and provisioning the set of resources on a plurality of computers based on the deployment map to implement the application over the distributed computing network. | 11-27-2008 |
20090300184 | Method and Apparatus for Template-Based Provisioning in a Service Delivery Environment - A method for automated provisioning of computing resources in a distributed computing network includes obtaining a data structure representing a resource dependency characterization of an application to be implemented over the distributed computing network, wherein the data structure indicates a set of resources to be deployed, obtaining a template that represents a predefined network topology for supporting deployment of the set of resources, mapping the set of resources represented in the data structure to the template so as to satisfy a set of component requirements to generate a deployment map, and provisioning the set of resources on a plurality of computers based on the deployment map to implement the application over the distributed computing network. | 12-03-2009 |
20100042721 | Dynamic application placement with allocation restrictions, vertical stacking and even load distribution - A solution to a variant of a class constrained multiple knapsack problem. Previous solutions require that memory demand of every application be identical and do not consider minimizing placement changes. Previous techniques do not consider optimizing placement to improve load balancing as is described subsequently. Thus, the present invention provides systems, methods and apparatus, encapsulated in software, to provide the dynamic placement of application instances on a heterogeneous cluster of server machines. It depends on the existence of a visible and controllable platform, systems management and other business services that signal events and accept commands. It provides dynamically placing applications on servers such as to maximize a total amount of satisfied application demands, minimize a number of placement changes from a current placement, and minimize imbalance of load distribution of said applications on said at least one server. | 02-18-2010 |
20140019963 | CO-LOCATION OF VIRTUAL MACHINES WITH NESTED VIRTUALIZATION - Co-locating a virtual machine with nested virtualization, in one aspect, may comprise receiving a list of one or more virtual machine instances to co-locate with associated configuration information. A parent virtual machine instance may be identified to host the one or more virtual machine instances. Virtual machine images associated with the one or more virtual machine instances may be consolidated. A composite parent virtual machine image may be created based on the consolidated virtual machine images and the parent virtual machine instance. The parent virtual machine instance may be configured to accommodate for capacity requirement of the one or more child virtual machine instances. The parent virtual machine instance may be started on a processor via the composite parent virtual machine image. The one or more virtual machine instances may be started within the parent virtual machine instance as one or more child virtual machine instances. | 01-16-2014 |
20140019968 | CO-LOCATION OF VIRTUAL MACHINES WITH NESTED VIRTUALIZATION - Co-locating a virtual machine with nested virtualization, in one aspect, may comprise receiving a list of one or more virtual machine instances to co-locate with associated configuration information. A parent virtual machine instance may be identified to host the one or more virtual machine instances. Virtual machine images associated with the one or more virtual machine instances may be consolidated. A composite parent virtual machine image may be created based on the consolidated virtual machine images and the parent virtual machine instance. The parent virtual machine instance may be configured to accommodate for capacity requirement of the one or more child virtual machine instances. The parent virtual machine instance may be started on a processor via the composite parent virtual machine image. The one or more virtual machine instances may be started within the parent virtual machine instance as one or more child virtual machine instances. | 01-16-2014 |
20140052768 | SYSTEM AND METHOD SUPPORTING APPLICATION SOLUTION COMPOSITION ON CLOUD - Disclosed is a method, computer-program product and a system to compose an application solution on a cloud-computing platform for a user. The method includes, in response to input from the user, selecting at least one predetermined template that includes a hardware and software instance of a data processing system that is implementable as an solution on a cloud platform; comparing the at least one selected template against a set of constraints; establishing an instance of a cloud based solution for the user based on the selected template; and validating the established cloud based solution against user-uploaded information such as software and workloads to ensure that the solution satisfies requirements of the user, such as both technical and financial requirements of the user. | 02-20-2014 |
20140052773 | SYSTEM AND METHOD SUPPORTING APPLICATION SOLUTION COMPOSITION ON CLOUD - Disclosed is a method, computer-program product and a system to compose an application solution on a cloud-computing platform for a user. The method includes, in response to input from the user, selecting at least one predetermined template that includes a hardware and software instance of a data processing system that is implementable as an solution on a cloud platform; comparing the at least one selected template against a set of constraints; establishing an instance of a cloud based solution for the user based on the selected template; and validating the established cloud based solution against user-uploaded information such as software and workloads to ensure that the solution satisfies requirements of the user, such as both technical and financial requirements of the user. | 02-20-2014 |
20140172491 | ON-DEMAND CLOUD SERVICE MANAGEMENT - A plurality of traditional software applications are packaged as custom composite solutions, and are stored as custom composite solution deployable images. Customer input is obtained from a customer. At least one of the custom composite solution deployable images is deployed into a management cloud in response to the customer input. | 06-19-2014 |