Embodiments of the invention are directed to systems, methods, and computer program products for dynamic processing of temporal upstream data and downstream data in communication networks. The invention is configured for dynamic processing and cascading of instance data and configuration files from edge node devices of a distributed network for reduction of latency in data transmissions. The invention involves constructing a first device cluster comprising one or more first cluster edge computing nodes of a plurality of edge computing nodes. In response to receiving a first downstream request for determining a current modification to the first source instance data, embodiments of the invention involves extracting at least one cluster configuration file associated with the at least one cluster edge computing node associated with first edge computing node, and processing the first technology application therewith.

Embodiments of the invention are directed to systems, methods, and computer program products for dynamic processing of temporal upstream data and downstream data in communication networks. The invention is configured for dynamic processing and cascading of instance data and configuration files from edge node devices of a distributed network for reduction of latency in data transmissions. The invention involves constructing a first device cluster comprising one or more first cluster edge computing nodes of a plurality of edge computing nodes. In response to receiving a first downstream request for determining a current modification to the first source instance data, embodiments of the invention involves extracting at least one cluster configuration file associated with the at least one cluster edge computing node associated with first edge computing node, and processing the first technology application therewith.

An operation control method for a household electrical appliance includes performing network configuration with a plurality of servers according to different network protocols; upon receiving a control instruction sent by one of the plurality of servers, determining a processing priority of the control instruction; and processing the control instruction according to the processing priority and a preset multi-protocol processing mechanism.

A data synchronization device is provided, including a control module, a data block storage module and an encoding/decoding module. A data synchronization method using the device is also provided, including: selecting, by the control module, a data transmission network node and selecting the to-be-synchronized data block of a data transmission network node from the data storage module; encapsulating the to-be-synchronized data block in a specific format and then broadcasting the encapsulated data, where if there are two or more to-be-synchronized data blocks, the to-be-synchronized data blocks are encoded and then encapsulated; otherwise, the to-be-synchronized data block is directly encapsulated; processing, by the encoding/decoding module, the encapsulated data to obtain the to-be-synchronized data block, and finally inputting the obtained to-be-synchronized data block into the data block storage module.

A data synchronization device is provided, including a control module, a data block storage module and an encoding/decoding module. A data synchronization method using the device is also provided, including: selecting, by the control module, a data transmission network node and selecting the to-be-synchronized data block of a data transmission network node from the data storage module; encapsulating the to-be-synchronized data block in a specific format and then broadcasting the encapsulated data, where if there are two or more to-be-synchronized data blocks, the to-be-synchronized data blocks are encoded and then encapsulated; otherwise, the to-be-synchronized data block is directly encapsulated; processing, by the encoding/decoding module, the encapsulated data to obtain the to-be-synchronized data block, and finally inputting the obtained to-be-synchronized data block into the data block storage module.

In various implementations, a productivity application allows selected content from an electronic document to be shared with and edited by multiple users through instances of a collaboration component. The collaboration component includes a distributed data structure that stores state information about the shared content. The component also includes application logic for managing the state information to reflect user edits and other such changes. This allows the selected content to be shared with the users in any application that supports the collaboration component and without the entirety of the document having to be shared. A user can experience the content in the context of applications other than the productivity application that hosts the document.

In various embodiments, a device receives profile data regarding users or devices of an on-premise telephony system. The device identifies, based on the profile data, group features associated with the users or devices of the on-premise telephony system. The device forms a candidate set of users or devices of the on-premise telephony system for migration to a cloud-hosted call agent, based on them sharing at least one of the group features. The device provides data indicative of the candidate set of users or devices to a user interface for display.

Some embodiments provide a method that, at a first domain name system (DNS) cluster of a set of DNS clusters, receives a DNS request from a client. The first DNS cluster identifies, based on an identifier of the client in the DNS request, a home DNS cluster of the client. The method forwards the DNS request to the home DNS cluster. The home DNS cluster supplies a DNS response to the client. Identifying the home DNS cluster, in some embodiments, includes performing a hash on the identifier of the client. Supplying the DNS response, in some embodiments, includes receiving a virtual IP (VIP) address associated with one of a plurality of sets of application servers to the client and providing the received VIP address to the client in the DNS response.

Some embodiments provide a method that, at a first domain name system (DNS) cluster of a set of DNS clusters, receives a DNS request from a client. The first DNS cluster identifies, based on an identifier of the client in the DNS request, a home DNS cluster of the client. The method forwards the DNS request to the home DNS cluster. The home DNS cluster supplies a DNS response to the client. Identifying the home DNS cluster, in some embodiments, includes performing a hash on the identifier of the client. Supplying the DNS response, in some embodiments, includes receiving a virtual IP (VIP) address associated with one of a plurality of sets of application servers to the client and providing the received VIP address to the client in the DNS response.

Methods, systems, and apparatus are described for transferring application data. In one aspect, a method includes causing, by a first component on a first device to establish a wireless connection with a second device; receiving, from a second component on the second device, data specifying one or more applications that are installed on the second device and supported by the second component, each of the applications being separate from the second component; determining, by the first component, that a first application installed on the first device matches one of the applications installed on the second device, the first application being separate from the first component; receiving, by the first component, first application data from the first application; and causing, by the first component, the first device to send the first application data to the second component running on the second device using the wireless connection.