A method for generating a hierarchical edit script comprises generating, using a first linear sequence of nodes of a first hierarchical dataset and a second linear sequence of nodes of a second hierarchical dataset, a linear edit script defining a linear sequence of operations that can be applied to the first linear sequence to generate the second linear sequence, generating a first delta by matching one or more operations of the linear sequence of operations to the first hierarchical dataset, generating a second delta by matching one or more operations of the linear sequence of operations to the second hierarchical dataset, and generating the hierarchical edit script by merging the first delta and the second delta.

A method for generating a hierarchical edit script comprises generating, using a first linear sequence of nodes of a first hierarchical dataset and a second linear sequence of nodes of a second hierarchical dataset, a linear edit script defining a linear sequence of operations that can be applied to the first linear sequence to generate the second linear sequence, generating a first delta by matching one or more operations of the linear sequence of operations to the first hierarchical dataset, generating a second delta by matching one or more operations of the linear sequence of operations to the second hierarchical dataset, and generating the hierarchical edit script by merging the first delta and the second delta.

This application provides a data processing method and a related device, to keep data consistency between a management device and a forwarder in a multi-head management scenario. The method performed by a first management device in the plurality of management devices includes: sending a lock instruction to the forwarder; performing difference comparison between target data of the first management device and corresponding data that is on the forwarder and that corresponds to the target data to obtain a comparison result; and synchronizing the target data with the corresponding data if the first management device determines, by using the comparison result, that the target data and the corresponding data do not match, so that the target data matches the corresponding data.

This application provides a data processing method and a related device, to keep data consistency between a management device and a forwarder in a multi-head management scenario. The method performed by a first management device in the plurality of management devices includes: sending a lock instruction to the forwarder; performing difference comparison between target data of the first management device and corresponding data that is on the forwarder and that corresponds to the target data to obtain a comparison result; and synchronizing the target data with the corresponding data if the first management device determines, by using the comparison result, that the target data and the corresponding data do not match, so that the target data matches the corresponding data.

Application mobility is a unique feature of the edge computing to support relocation of application instance across edge computing hosts or between edge computing host and cloud computing over underlying mobile network. With the active-standby mode application instance implementation with support of L2 networks, the application mobility could achieve the service continuity with low latency switching time. An application mobility mechanism can be implemented in the data plane of edge computing host under the control of edge computing platform and management. It can be also implemented in L2 switching function of the User Plane Function in 5G networks.

Application mobility is a unique feature of the edge computing to support relocation of application instance across edge computing hosts or between edge computing host and cloud computing over underlying mobile network. With the active-standby mode application instance implementation with support of L2 networks, the application mobility could achieve the service continuity with low latency switching time. An application mobility mechanism can be implemented in the data plane of edge computing host under the control of edge computing platform and management. It can be also implemented in L2 switching function of the User Plane Function in 5G networks.

A network manager configures a first node to participate in a node cluster that spans at least a first cloud service provider and the second cloud service provider. The network manager configures a second node to participate in the node cluster. The network manager configures a third node to participate in the node cluster. The network manager initiates the first node as a virtual machine. The network manager initiates the second node as a containerized program. The network manager initiates the third node as a containerized program. The network manager sends messages into the first cloud serves and into the second cloud service to cause the containerized program of the second node and the containerized program of the third node to synchronize data such that the containerized program of the second node and the containerized program of the first node perform the same network security actions.

A network manager configures a first node to participate in a node cluster that spans at least a first cloud service provider and the second cloud service provider. The network manager configures a second node to participate in the node cluster. The network manager configures a third node to participate in the node cluster. The network manager initiates the first node as a virtual machine. The network manager initiates the second node as a containerized program. The network manager initiates the third node as a containerized program. The network manager sends messages into the first cloud serves and into the second cloud service to cause the containerized program of the second node and the containerized program of the third node to synchronize data such that the containerized program of the second node and the containerized program of the first node perform the same network security actions.

The present disclosure relates to a digital asset synchronization system that provides improved digital asset management and synchronization of a digital asset stored either within a component database or a packaged file. For example, the digital asset synchronization system enables a set of components that makes up a digital asset to appear as a singular packaged file, while also maintaining the benefits of having the digital asset made up of the components. In this manner, the digital asset synchronization system provides a bridge between a digital asset stored in a packaged file format and conventional file formats. In addition, the digital asset synchronization system also provides digital asset management and improved synchronization between a client device and a cloud storage system.

The present disclosure relates to a digital asset synchronization system that provides improved digital asset management and synchronization of a digital asset stored either within a component database or a packaged file. For example, the digital asset synchronization system enables a set of components that makes up a digital asset to appear as a singular packaged file, while also maintaining the benefits of having the digital asset made up of the components. In this manner, the digital asset synchronization system provides a bridge between a digital asset stored in a packaged file format and conventional file formats. In addition, the digital asset synchronization system also provides digital asset management and improved synchronization between a client device and a cloud storage system.