A method and an electronic device for scheduling software upgrade of network devices in an internet protocol (IP) based network are provided. The method includes predicting traffic directed towards at least one of the network devices, predicting at least one event to be occurred at the at least one of the network devices, determining a time period to schedule the software upgrade based on the predicted traffic and the determined at least one event, and scheduling the software upgrade in the time period.

Methods, apparatus, and processor-readable storage media for implementing dynamic widgets for displaying status information are provided herein. An example computer-implemented method includes executing a software widget configured to display, on a user device, status information associated with a plurality of items of an online data source; obtaining the status information from an application server via a first application programming interface, wherein the application server maintains at least a portion of the status information in a local database using a second application programming interface associated with the online data source; and updating a graphical user interface of the software widget to display the status information on the user device.

Apparatus and methods are disclosed for processing messages from agents of a network environment including the use of collectors. Collectors can use configurable pipelines to improve processing of messages received from the agents. In one example of the disclosed technology, a number of networked agents are configured to gather data describing operational aspects of an agent's computing host. A collector is configured to receive reports from the agent and send the gathered data to one or more destination agent data consumers designated by augmentation information in the reports. In some examples, the collector transforms data using one or more stage selector rules.

In one embodiment, a system for managing communication connections in a virtualization environment includes a plurality of host machines implementing a virtualization environment, wherein each of the host machines includes a hypervisor, at least one user virtual machine (user VM), and a distributed file server that includes file server virtual machines (FSVMs) and associated local storage devices. Each FSVM and associated local storage device are local to a corresponding one of the host machines, and the FSVMs conduct I/O transactions with their associated local storage devices based on I/O requests received from the user VMs. Each of the user VMs on each host machine sends each of its respective I/O requests to an FSVM that is selected by one or more of the FSVMs for each I/O request based on a lookup table that maps a storage item referenced by the I/O request to the selected one of the FSVMs.

Techniques are described for sharing prepopulated container image caches among container execution environments to improve the performance of container launches. The container images used to prepopulate such a cache at a computing device supporting one or more container execution environments can include various container images that are used as the basis for a wide range of user-created containers such as, for example, container images representing popular operating system distributions, database servers, web-application frameworks, and so forth. Existing systems typically obtain these container images as needed at runtime when launching containers (for example, from a container registry or other external source), often incurring significant overhead in the container launch process. The use of a prepopulated container image cache can significantly improve the performance of container launches by making such commonly used container images available to container execution environments running at a computing device ahead of time.

A system and method for sensing height above landing surface for an aircraft, processing that sensed height information to provide information useful to the aircraft pilot for assisting with the landing and flare-to-land maneuver, and providing the processed information in a peripheral vision display indicating landing conditions sequentially without interfering with pilot vision and focus on the landing area.

Systems/techniques for facilitating proxy objects for tracking processing of electronic coupon codes are provided. In various embodiments, a system can determine that a browser is performing a checkout on a frontend website. In various aspects, the system can cause the frontend website to instruct the web browser to transmit a validation request to a backend server, wherein the validation request identifies a coupon code and requests that the backend server determine whether the coupon code is applicable to the checkout. In various instances, the system can cause the web browser to append a proxy object to the validation request, wherein the proxy object fetches, during execution of the validation request by the backend server, an execution status of the validation request. In various cases, the system can receive, from the proxy object, the execution status and can initiate one or more electronic actions based on the execution status.

An embodiment is directed to switchover operations with a virtualized network device in a cloud or remote infrastructure. The virtualized hardware switchover operations may be used to selectively and temporarily provide virtualized control-plane operations to the data-plane of a non-redundant network device undergoing an upgrade or a reboot of its control plane. A non-redundant network device may operate hitless, or near hitless, operation even when its control plane is unavailable.

A method of migrating a network file copy (NFC) operation from a first host computing device to a second host computing device includes the steps of: transmitting a first request to the first host computing device to execute the NFC operation, wherein the NFC operation comprises transferring data from a shared datastore to another datastore; after transmitting the first request, selecting the second host computing device to complete the NFC operation in place of the first host computing device, and transmitting a second request to the first host computing device to stop executing the NFC operation; after transmitting the second request, detecting a message indicating that the first host computing device completed the copying of a first portion of the data; and in response to the detection of the message, transmitting a third request to the second host computing device to perform the remainder of the NFC operation.

Disclosed are various embodiments for automatically creating device campaigns. A computing device first determines that a second version of a software package assigned to an existing device campaign has been uploaded to a data store. The existing device campaign can include an existing compliance policy applicable to individual IoT endpoints assigned to the existing device campaign. The compliance policy may specify that a first version of the software package be installed on the individual IoT endpoints. In response, to the change, the computing device can create a new device campaign that includes a new compliance policy applicable to the individual IoT endpoints assigned to the new device campaign. The new compliance policy may specify that the second version of the software package be assigned to the individual IoT endpoints.