A system for directing messages between a composite user interface and at least one source application. A message is to be directed to a predetermined set of services, each service executes a command specified by the message and the message comprises details of the predetermined set of services. Each service in the predetermined set of services uses said details to determine whether the message should be sent to another service, and if it is determined that the message should be sent to another service transmits the message to an appropriate service.

A data card and a communication method are provided. The method includes: when being connected to a terminal, a data card being enumerated as an MBIM device to an operating system of the terminal; and the data card communicate with the terminal via a CID message. The present invention achieves the installation of the data card in a driver-free mode, and thus the communication efficiency of the data card is improved.

A system, method and computer program product are provided for receiving information associated with a message, utilizing a first network protocol associated with a first network and causing a determination as to whether a storage resource is available. In use, in the event the storage resource is available, causing storage of the information utilizing the storage resource and sharing the information in less than one second, utilizing at least one message format corresponding to a second network protocol associated with a second network which is different from the first network protocol wherein the system, method and computer program product are associated with an automotive electronic control unit with at least one gateway function that remains in hardwired communication with the first network and the second network, the automotive electronic control unit having a plurality of interfaces.

A system, method and computer program product are provided for receiving information associated with a message, issuing a storage resource request in connection with a storage resource and determining whether the storage resource is available. In use, the information is capable of being shared in less than one second, utilizing an automotive electronic control unit which includes a plurality of interfaces.

A messaging system implements messaging among application servers and databases, utilizing other servers that implement messaging brokers. A large flood of incoming messages can bring down messaging brokers by overflowing the message queues, negatively impacting performance of the overall system. This disclosure in some embodiments detects and identifies flooders in a timely manner and isolates their message traffic to dedicated queues to avoid impacting other system users. Subsequently, a preferred system de-allocates the queues and returns the messaging system to normal operation when flooding conditions subside, and sweeps up any remaining orphan messages.

The described embodiments include a computing device that executes a broker application. The broker application performs a mediated data exchange to exchange data between a first sandboxed application and a second application. For example, the broker application can import data from the second application into the first sandboxed application. As another example, the broker application can export data from the first sandboxed application into the second application.

Managing tasks using an application-level blue-green topology with parallel cell infrastructure rails. Each cell infrastructure rail includes a dispatcher bot and a performer bot. The dispatcher bot is configured to prepare a work task based on a received request, and the performer bot performs the work task, resulting in performed work. A discovery server includes a service registry configured to store the states of the infrastructure rails. The discovery server receives the request for the work task, and sends the request to a dispatcher bot of a specific cell infrastructure rail based on the request and the states of the cell infrastructure rails. A respective workflow cell server receives the performed work. In the case that one cell infrastructure rail experiences a problem when processing the request, the cell infrastructure rails are switched to perform the request on the other cell infrastructure rail. The method implements the system.

A message passing interface processing system is described. In accordance with message passing logic, a node selects an affinity domain for communication of data associated with a message passing interface and selects a first rank of a first process of the message passing interface assigned to a first partition of the affinity domain as a first partition leader rank and an affinity domain leader rank. The node selects a second rank of a second process of the message passing interface assigned to a second partition of the affinity domain as second partition leader rank, receives the data at the first partition leader rank, and communicates the data from the first partition leader rank to the second partition leader rank.

A system, method and computer program product are provided for sharing information in a distributed system. After information is received, it is stored on a bulletin board. In use, the information is shared, in real-time, among a plurality of heterogeneous processes.

Various embodiments provide for an intermediary system and architecture that can operate under the communication constraints imposed by controller/clearance systems, and can also adapt respective data model and data services to accommodate functionality constraints. Further embodiments are configured to expand conventional functionality of the architecture, including enhancements to track user information beyond the operations provided by any clearing/controller system, and further manage a plurality of communication formats and/or architectures on behalf of a plurality of systems and communication standards, including custom messaging formats. Other embodiments are configured to resolve technical constraints of conventional approaches (e.g., infrastructure of overnight securities lending). Conventional data models are configured to capture information and reconcile on a day-to-day basis. This creates a vast gulf in tracking operations and managing data over a period greater than one day. New data architectures and data models are implemented to resolve this challenge.