A first compute server of a distributed cloud computing network receives a request from a first client device for an object to be handled by an object worker that includes a single instantiation of a piece of code that solely controls reading and writing access to the first object. A determination is made that the object worker is instantiated for the object and is currently running in the first compute server, and the piece of code processes the first request. The first compute server receives a message to be processed by the first object worker from a second compute server. The message includes a second request for the object from a second client device connected to the second compute server. The piece of code processes the message and transmits a reply to the second compute server.

The disclosed technology addresses the need in the art for synchronizing a content library between a content management system and client devices. Each content item in a user's content library is stored on the content management system and a record of each change to the content library is recorded in a content journal. A client device transmits a synchronization request that a portion of the content journal representing unsynchronized changes be processed to update the content library on the client device. The synchronization request includes a content library identifier and a content journal number identifying the content entry in the content journal last processed by the client device. Synchronization commands are sent based on the content entries not processed by the client device. Updated synchronization data representing the processed content entries is sent to the client device after synchronization is completed.

The disclosed technology addresses the need in the art for synchronizing a content library between a content management system and client devices. Each content item in a user's content library is stored on the content management system and a record of each change to the content library is recorded in a content journal. A client device transmits a synchronization request that a portion of the content journal representing unsynchronized changes be processed to update the content library on the client device. The synchronization request includes a content library identifier and a content journal number identifying the content entry in the content journal last processed by the client device. Synchronization commands are sent based on the content entries not processed by the client device. Updated synchronization data representing the processed content entries is sent to the client device after synchronization is completed.

The invention relates to a method for providing a fault-tolerant global time and for the fault-tolerant transport of time-controlled messages in a distributed real-time computer system which comprises external computers and a fault-tolerant message distribution unit, FTMDU. The FTMDU comprises at least four components which supply the global time to the external computers by means of periodic external synchronization messages, wherein the external computers each set their local clock to the received global time, wherein each external sender of a time-controlled message transmits two message copies of the message to be sent via two different communication channels to two different components of the FTMDU at periodic sending times defined a priori in timetables, wherein these two message copies are delivered within the FTMDU via two independent communication paths to those two components of the FTMDU which are connected to an external receiver of the message via communication channels.

The invention relates to a method for providing a fault-tolerant global time and for the fault-tolerant transport of time-controlled messages in a distributed real-time computer system which comprises external computers and a fault-tolerant message distribution unit, FTMDU. The FTMDU comprises at least four components which supply the global time to the external computers by means of periodic external synchronization messages, wherein the external computers each set their local clock to the received global time, wherein each external sender of a time-controlled message transmits two message copies of the message to be sent via two different communication channels to two different components of the FTMDU at periodic sending times defined a priori in timetables, wherein these two message copies are delivered within the FTMDU via two independent communication paths to those two components of the FTMDU which are connected to an external receiver of the message via communication channels.

Edge server compute capacity demand in an overlay network is predicted and used to pre-position compute capacity in advance of application-specific demands. Preferably, machine learning is used to proactively predict anticipated compute capacity needs for an edge server region (e.g., a set of co-located edge servers). In advance, compute capacity (application instances) are made available in-region, and data associated with an application instance is migrated to be close to the instance. The approach facilitates compute-at-the-edge services, which require data (state) to be close to a pre-positioned latency-sensitive application instance. Overlay network mapping (globally) may be used for more long-term positioning, with short-duration scheduling then being done in-region as needed. Compute instances and associated state are migrated intelligently based on predicted (e.g., machine-learned) demand, and with full data consistency enforced.

A networked communications system that facilitates real-time interaction with persons-of-interest. The real-time communications system includes a pre-connection workflow that allows for efficient utilization of human resources and/or more precise control of the interaction and engagement time intervals allotted to users of the system. The real-time communications system transmits event status information to users while waiting for respective communications sessions to begin.

A networked communications system that facilitates real-time interaction with persons-of-interest. The real-time communications system includes a pre-connection workflow that allows for efficient utilization of human resources and/or more precise control of the interaction and engagement time intervals allotted to users of the system. The real-time communications system transmits event status information to users while waiting for respective communications sessions to begin.

A barrier synchronization system, a parallel information processing apparatus, and the like are described in the embodiments. In an example, provided is a solution to reduce latency time and improve processing speed in barrier synchronization. The parallel information processing apparatus includes: a completion information storage configured to store completion information, wherein the completion information includes information relating to completion of processing of an own apparatus and information relating to completion of processing of a lower information processing apparatus located in the tree structure; and a control circuit configured to, in response to a determination result indicating that a current status amounts to a given condition, instruct a specified information processing apparatus to forcibly suspend processing, the specified information processing apparatus being an apparatus that has not yet completed processing before all of the plurality of information processing apparatuses have completed the processing.

A barrier synchronization system, a parallel information processing apparatus, and the like are described in the embodiments. In an example, provided is a solution to reduce latency time and improve processing speed in barrier synchronization. The parallel information processing apparatus includes: a completion information storage configured to store completion information, wherein the completion information includes information relating to completion of processing of an own apparatus and information relating to completion of processing of a lower information processing apparatus located in the tree structure; and a control circuit configured to, in response to a determination result indicating that a current status amounts to a given condition, instruct a specified information processing apparatus to forcibly suspend processing, the specified information processing apparatus being an apparatus that has not yet completed processing before all of the plurality of information processing apparatuses have completed the processing.