A message based processor system (1) with a plurality of message based processor system cores (100) is proposed. Cores therein comprise a processor element controller that is configured to receive a message with an indication of a subset processor elements in the core to which it is directed as well as an indication of a target pattern, and to update the state value of the processor elements (Ei) in the subset in accordance with a specification of the target pattern. The processor element controller (PEC) is configurable in an address computation mode selected from a cyclic set of address computation modes, and configured to maintain its computation mode or assume a next address computation mode selected from the cyclic set dependent on a control value of a currently applied pattern element. Therewith a target pattern can efficiently specified.

A content production management system within a distributed studio environment includes a command interface module and a command queue management module. The command interface module is configured to render a user interface for a set of content production entities associated with a set of content production volumes within the distributed studio environment. The command queue management module, upon execution of software instructions, is configured to perform the operations of receiving, from the command interface module, a command targeting a target content production entity, assigning a synchronized execution time to the command, enqueueing the command into a command queue associated with the target content production entity according to the synchronized execution time, and enabling the target content production entity to execute the command from the command queue according to the synchronized execution time.

In a computer system, an orchestration platform includes extensible components that interact with external systems and technology. The platform extension deploys a surrogate component or probe that acts as a bridge between the core platform and the extension technology.

Various embodiments of the present disclosure provide methods, apparatuses, systems, computing devices, computing entities, and/or the like for determining optimized solutions to input problems in a containerized, cloud-based (e.g., serverless) manner. In one embodiment, an example method is provided. The method comprises: receiving a problem type of an input problem originating from a client computing entity; mapping the problem type to one or more selected solver types; generating one or more container instances of one or more compute containers, each compute container corresponding to a selected solver type; generating a problem output using the one or more container instances; and providing the problem output comprising a solution to the input problem to the client computing entity. In various embodiments, optimized solutions for input problems are determined using a cloud-based multi-domain solver system configured to dynamically allocate computing and processing resources between different solution-determining tasks.

This disclosure relates to streaming real-time messages over time to client applications according to query subscriptions that match content from a large stream of messages exchanged on a messaging platform in a manner that increases the speed of message delivery, effectively controls the management of computer resources to handle the fluctuation of the number of active query subscriptions, and/or increases the security of matching the query subscriptions against messages generated from the perspective of the authors while delivering those messages in real-time from the perspective of the users that initiated the query subscriptions.

Disclosed herein are a convolutional layer acceleration unit, an embedded system having the convolutional layer acceleration unit, and a method for operating the embedded system. The method for operating an embedded system, the embedded system performing an accelerated processing capability programmed using a Lightweight Intelligent Software Framework (LISF), includes initializing and configuring, by a parallelization managing function entity (FE), entities present in resources for performing mathematical operations in parallel, and processing in parallel, by an acceleration managing FE, the mathematical operations using the configured entities.

Systems, methods and computer program products are presented for the automated deployment of a code update to a device. One or more clusters of devices may be connected to a development environment for deployment of one or more code updates through respective development pipelines to the respective clusters of devices. A first cluster of devices receives a module for implementation of an agent for the first cluster of devices and a central queue local to a centralized controller of the development environment. The agent reports at least one status of a respective device to the centralized controller of the development environment, whereby that status may correspond to a code update image pulled onto the respective device. The agent retrieves one or more instruction messages from the centralized controller in response to the reported status of the respective device.

An electronic element includes: a module for storing reference data; a module for receiving data from a processor; a module for verifying the received data by comparison by way of reference data; and a module for transmitting an instruction to cut off supply of the processor, the supply cutoff instruction being transmitted after occurrence of a failure event, the failure event being an absence of reception of data or a failure in verifying the data. A system including such an electronic element and a method for monitoring a processor by the electronic element are also described.

A message transmitting and receiving method according to one aspect is performed by a communication apparatus, the communication apparatus including a middleware unit configured to manage a message published by a publisher in a publish/subscribe system in which a message is exchanged between the publisher and a subscriber via a broker, and a storage unit configured to store a library including functions configured to provide the broker, and includes the steps of performing, by the middleware unit, subscribing on the broker by setting a callback function, and upon receipt of a first message published by a device, passing, by the broker, the first message to the middleware unit by calling the callback function.

A storage controller includes a processing device to send a Non-Volatile Memory Express over Fibre Channel (NVMe/FC) command to a submission queue without routing the NVMe/FC command through a kernel space, the submission queue being reserved for direct access by an initiator device to a user space of the storage controller.