Patent application number | Description | Published |
20130055253 | CLOUD-BASED BUILD SERVICE - Building binary packages for software products, particularly large-scale software products, is a highly computation intensive process. Thus, it is desirable to distribute the workload over a large number of computing nodes so as to have the build process complete in an optimal period of time. One environment providing compute resources that can be utilized for a highly available and dynamically scalable distributed build process is an elastic compute cloud. In such an environment, virtual machines can be instantiated and destroyed as the resource requirements of the build process dictate. This has the advantage that dedicated hardware is unneeded, and excess capacity on the hardware employed can be employed for other computation tasks when the build process is idle. Presented herein are systems, methods and computer storage media for distributing a highly available and scalable build service, suitable for use in an elastic compute environment or other distributed environment. | 02-28-2013 |
20130198346 | AUTOMATED BUILD-OUT OF A CLOUD-COMPUTING STAMP - Methods, systems, and computer-readable media for automatically configuring an inventory of hardware to interact seamlessly with a cloud-computing fabric of a data center are provided. Initially, hardware devices within the hardware inventory are located by sending and receiving communications to network devices via serial-based connections and network-based connections, respectively. Information collected during hardware-device location is cross-referenced against a template file for purposes of validation. This information is also employed to generate an infrastructure state of the hardware inventory. The infrastructure state is shared with a controller of the fabric to integrate the hardware inventory therein. Upon integration, services and security measures are provisioned on the hardware inventory, which is designated as a fabric-computing cluster of the data center in order to extend reachability of the fabric, while distributed services are deployed and enabled on available portions of the hardware inventory, which are managed by the fabric controller. | 08-01-2013 |
20130346260 | ESTABLISHING AN INITIAL CONFIGURATION OF A HARDWARE INVENTORY - Methods, systems, and computer-readable media for automatically configuring an inventory of hardware to interact seamlessly with a datacenter are provided. Initially, customer-specific specifications are collected from a user, which are automatically supplemented with platform-specific specifications. These specifications are used to select the hardware inventory from a set of predefined hardware clusters, where each of the predefined hardware clusters represents compatible configurations of hardware assets and logical assets that have been demonstrated to function congruently. A cluster-configuration file is derived from data held within a stock-keeping unit (SKU) that describes the selected hardware inventory. The cluster-configuration file is populated with abstract symbolic representations that act as placeholders for expected values that are presently unknown. Network resources are assigned by automated conversion of the abstract symbolic representations into concrete values. The cluster-confirmation file is merged with previous versions of datacenter inventory to create an updated version of the datacenter inventory. | 12-26-2013 |
20140101467 | DISCOVERING, VALIDATING, AND CONFIGURING HARDWARE-INVENTORY COMPONENTS - Methods, systems, and computer-readable media for automatically validating and configuring an inventory of hardware to interact seamlessly with a cloud-computing fabric of a data center are provided. Initially, devices internal to the hardware inventory are located by sending and receiving messages via out-of-band communication channels and network communication channels, respectively. Locating the internal devices involves establishing communication from a user device to the hardware inventory and selecting at least one of the internal devices for conducting a discovery process thereon. The discovery process involves receiving a first network identifier via the out-of-band communication channel and receiving a second network identifier via the network communication channel. When the first and second network identifiers match, the interconnection of the selected device is validated. Otherwise, one or more remedial measures are initiated with respect to the selected device. Validation involves conducting a server boot within the MOS and executing validation and configuration tools. | 04-10-2014 |
20140137116 | CLOUD-BASED BUILD SERVICE - Building binary packages for software products, particularly large-scale software products, is a highly computation intensive process. Thus, it is desirable to distribute the workload over a large number of computing nodes so as to have the build process complete in an optimal period of time. One environment providing compute resources that can be utilized for a highly available and dynamically scalable distributed build process is an elastic compute cloud. In such an environment, virtual machines can be instantiated and destroyed as the resource requirements of the build process dictate. This has the advantage that dedicated hardware is unneeded, and excess capacity on the hardware employed can be employed for other computation tasks when the build process is idle. Presented herein are systems, methods and computer storage media for distributing a highly available and scalable build service, suitable for use in an elastic compute environment or other distributed environment. | 05-15-2014 |
20140173060 | DEPLOYING A HARDWARE INVENTORY AS A CLOUD-COMPUTING STAMP - Methods, systems, and computer-readable media for automatically configuring an inventory of hardware to interact seamlessly with a computing fabric of a data center are provided. Initially, a communicative coupling between a user device and computing units of the hardware inventory is established. The communicated coupling allows an engine running on the user device to provision the computing units with software that allows the hardware inventory to function as a fabric-computing cluster (FCC) of the data center. Provisioning involves deploying a computing fabric to the computing units, and deploying core infrastructure services to run on top of the computing fabric. The computing fabric enables the computing units to interact as a unified logical system, while the core infrastructure services represent operating-system-level components that provide underlying support of applications running on the FCC. Upon carrying out the provisioning, the components internal to the computing units of the hardware inventory are validated. | 06-19-2014 |
20140282353 | SOFTWARE RELEASE WORKFLOW MANAGEMENT - A computer-implemented method for managing a release of a software product includes obtaining a request for the release, the request including workflow action parameter data to define a release pipeline involving a plurality of software engineering systems configured to process data indicative of the software product, and executing, with a processor, a workflow to implement the release pipeline in accordance with the workflow action parameter data. Executing the workflow includes sending a series of instructions to the plurality of software engineering systems. A successive instruction in the series of instructions is sent based on whether a gating rule for the release is met. | 09-18-2014 |
20140282421 | DISTRIBUTED SOFTWARE VALIDATION - A computer-implemented method for validation of a software product via a distributed computing infrastructure includes receiving configuration data for a plurality of validation tasks of the validation, receiving code data representative of the software product, defining a validation pipeline to implement the plurality of validation tasks based on the configuration data, and initiating execution of the plurality of validation tasks on a plurality of virtual machines of the distributed computing infrastructure. Initiating the execution includes sending the code data and data indicative of the defined validation pipeline to configure each virtual machine in accordance with the code data and the defined validation pipeline. | 09-18-2014 |
20140282450 | SOFTWARE BUILD OPTIMIZATION - A method for optimization of a software build includes collecting first data representative of inputs for a build process obtained by a set of data accessing operations implemented during a first execution of the build process, the set including a file accessing operation and a non-file accessing operation. A redirection routine embedded within the build process captures the inputs. The first data is compared with second data representative of the inputs obtained in connection with a second execution of the build process. If the first and second data do not match, the second data is recorded in a data store and output data generated by the second execution of the build process is stored. If the first and second data match, output data generated by the first execution of the build process is used as an output for the second execution of the build process. | 09-18-2014 |