A system synchronizes change-data in a multi-tenant system with one or more external service provider systems. The system comprises a system interface configured to receive transaction events; a write-optimized transactional database for recording the transaction events; a replicated read-optimized transactional database; a transaction log of change-data generated from the read-optimized transactional database; a first change-data processor configured to identify the change-data in the transaction log that is relevant to at least one external service provider system, and to generate an aggregate relevant change-data log; a second change-data processor configured to identify aggregate relevant change-data that is relevant to a particular external service provider system, and to generate a service provider relevant change-data log; a service provider connector configure to await a real-time trigger condition, and to, in response to the trigger condition, perform a synchronization session to synchronize the service provider relevant change-data with the particular external service provider system.

A system synchronizes change-data in a multi-tenant system with one or more external service provider systems. The system comprises a system interface configured to receive transaction events; a write-optimized transactional database for recording the transaction events; a replicated read-optimized transactional database; a transaction log of change-data generated from the read-optimized transactional database; a first change-data processor configured to identify the change-data in the transaction log that is relevant to at least one external service provider system, and to generate an aggregate relevant change-data log; a second change-data processor configured to identify aggregate relevant change-data that is relevant to a particular external service provider system, and to generate a service provider relevant change-data log; a service provider connector configure to await a real-time trigger condition, and to, in response to the trigger condition, perform a synchronization session to synchronize the service provider relevant change-data with the particular external service provider system.

Methods, systems, computer-readable media, and apparatuses are described for sending different update times corresponding to a same version of a resource. A computing device may provide a version of a resource in response to requests from a plurality of different devices, and may indicate different update times for the version of the resource. The different update times may be based on times associated with the requests from the plurality of different devices.

Methods, systems, computer-readable media, and apparatuses are described for sending different update times corresponding to a same version of a resource. A computing device may provide a version of a resource in response to requests from a plurality of different devices, and may indicate different update times for the version of the resource. The different update times may be based on times associated with the requests from the plurality of different devices.

Cloud storage provides for accessible interfaces, near-instant elasticity and scalability, multi-tenancy, and metered resources within a framework of distributed resources acting to provide highly fault tolerant solutions with high data durability. However, cloud storage also has drawbacks and limitations with information uploading and how information is subsequently accessed. To date the lack of automated tools for managing tens, hundreds and thousands of users and/or documents within enterprises and organizations means that for most migrating is a massive undertaking. Accordingly, knowledge workers require a human interface to the data ingested from third-party systems that manages the data in original folder contexts/locations for each knowledge worker within the interfaces. It would be further beneficial for knowledge workers to have tools for incremental ingestion of changes from data sources to a cloud storage repository as well as determining/centralizing cloud storage repository ingestion from the data sources.

Technologies are described providing adaptive query routing in a replicated database environment. The technologies can be used with a variety of replication protocols. Prepared statements, such as for queries, from a database client can be routed to a source node, or a source node and available replica nodes, when a replica node becomes unavailable. When a replica node becomes available again, a prepared statement can be updated to indicate that the updated prepared statement can be executed at nodes including the replica node that is available again. Prepared statement routing can also be used when a portion of replicated data becomes unavailable at a replica node, but a portion of replicated data remains available.

Technologies are described providing adaptive query routing in a replicated database environment. The technologies can be used with a variety of replication protocols. Prepared statements, such as for queries, from a database client can be routed to a source node, or a source node and available replica nodes, when a replica node becomes unavailable. When a replica node becomes available again, a prepared statement can be updated to indicate that the updated prepared statement can be executed at nodes including the replica node that is available again. Prepared statement routing can also be used when a portion of replicated data becomes unavailable at a replica node, but a portion of replicated data remains available.

A data synchronization method includes: receiving a data synchronization request from a light node; the request including a block identifier; obtaining synchronization transaction data in the synchronization block according to the block identifier; the synchronization transaction data including transaction detail data and contract information; obtaining, from a database, a target data set corresponding to the synchronization transaction data; the target data set including read data or result data. The result data is obtained by processing the transaction detail data based on the contract information; and obtaining verification data corresponding to the synchronization transaction data, and transmitting the synchronization transaction data, the verification data, and the target data set to the light node; verifying by the light node, a validity of the synchronization transaction data and to-be-verified result data corresponding to the transaction detail data, based on the verification data and the target data set.

A method is disclosed including setting, at a server, a server VSYNC signal to a server VSYNC frequency. The server VSYNC signal corresponding to generation of video frames during frame periods for the server VSYNC frequency. The method including setting, at a client, a client VSYNC signal to a client VSYNC frequency. The method including sending compressed video frames from the server to the client over a network using the server VSYNC signal, wherein the compressed video frames are based on the generated video frames. The method including decoding and displaying, at the client, the compressed video frames. The method including analyzing the timing of one or more client operations to adjust the relative timing between the server VSYNC signal and the client VSYNC signal, as the client receives the compressed video frames.

A method is disclosed including setting, at a server, a server VSYNC signal to a server VSYNC frequency. The server VSYNC signal corresponding to generation of video frames during frame periods for the server VSYNC frequency. The method including setting, at a client, a client VSYNC signal to a client VSYNC frequency. The method including sending compressed video frames from the server to the client over a network using the server VSYNC signal, wherein the compressed video frames are based on the generated video frames. The method including decoding and displaying, at the client, the compressed video frames. The method including analyzing the timing of one or more client operations to adjust the relative timing between the server VSYNC signal and the client VSYNC signal, as the client receives the compressed video frames.