A data processing architecture includes a processor which may access a memory and fetch a command recorded in the memory, transmit the fetched command to a subject configured to perform an operation corresponding to the fetched command through a network, and receive a result of performing the operation from the subject and record the result of performing the operation in the memory.

Systems, methods and storage devices are configured for facilitating flashing of mobile devices. Some disclosed embodiments include burst flashing mobile devices in such a way as to facilitate a reduction in time required for tethering the mobile devices that are tethered during the flashing session and by transmitting all data required for flashing the device to the volatile memory of the mobile device and de-tethering the mobile device prior to all of the transmitted data being written to the non-volatile memory of the mobile device.

A method of message-based communication is provided which includes executing, on one or more accelerated processing units, a plurality of groups of work items, receiving a first message from a first group of work items of the plurality of groups of work items executing on the one or more accelerated processing units and storing the first message at a first segment of memory allocated to a second group of work items of the plurality of groups of work items executing on the accelerated processing unit.

Incoming host data is programmed to a first set of data blocks indicated by a first cursor of a memory sub-system. The first set of blocks is associated with a first write mode. A determination is made that a second set of blocks associated with a second write mode is available to store the incoming host data prior to closing one or more of the first set of blocks. The incoming host data is programmed to the second set of blocks in view of a second cursor of the memory sub-system. A media management operation is performed to close the one or more of the first set of blocks.

Captured audio data is provided by a streaming interface to a multimedia application (e.g., a game, voice chat app or a recording app) via a virtual audio driver in accordance with some embodiments. The virtual audio driver is a software module that provides an interface between virtual audio hardware of a virtualized computing environment (e.g., a virtual machine or a remote machine) and the multimedia application, allowing the multimedia application to interact with the audio hardware using application program interfaces (APIs) and other software resources.

Methods and apparatus to provide peer-to-peer interrupt signaling between devices coupled via one or more interconnects are described. In one embodiment, a NIC (Network Interface Card such as a Remote Direct Memory Access (RDMA) capable NIC) transfers data directly into or out of the memory of a peer device that is coupled to the NIC via one or more interconnects, bypassing a host computing/processing unit and/or main system memory. Other embodiments are also disclosed.

Embodiments may be generally direct to apparatuses, systems, method, and techniques to determine a configuration for a plurality of connectors, the configuration to associate a first interconnect protocol with a first subset of the plurality of connectors and a second interconnect protocol with a second subset of the plurality of connectors, the first interconnect protocol and the second interconnect protocol are different interconnect protocols and each comprising one of a serial link protocol, a coherent link protocol, and an accelerator link protocol, cause processing of data for communication via the first subset of the plurality of connectors in accordance with the first interconnect protocol, and cause processing of data for communication via the second subset of the plurality of connector in accordance with the second interconnect protocol.

A method for using an access triggered architecture for a computer implemented application is provided. The method receives a set of data at a designated functional block associated with a system memory location; performs an operation at the designated functional block, using the set of data, to generate a result, wherein the operation is performed each time information is received at the designated functional block; and returns the generated result to the system memory location.

Embodiments of this disclosure allow non-position-independent-code to be shared between a closed application and a subsequent application without converting the non-position-independent-code into position-independent-code. In particular, embodiment techniques store live data of a closed application during runtime of the closed application, and thereafter page a portion of the live data that is common to both the closed application and a subsequent application back into volatile memory at the same virtual memory address in which the portion of live data was stored during runtime of the closed application so that the paged lived data may be re-used to execute the subsequent application in the managed runtime environment. Because the paged live data is stored at the same virtual memory address during the runtimes of both applications, non-position-independent-code can be shared between the applications.

The described technology relates to a publish-subscribe message framework in which an application, decomposed to a plurality of processing stages, is run by executing respective processing stages of the application asynchronously and simultaneously with each other. Communications between the respective processing stages may exclusively be in accordance with the publish-subscribe execution model. The described publish-subscribe framework provides for processing stages to be executed in a multi-process and/or multi-threaded manner while also enabling the distribution of the processing stages to respective processing resources in a multi-processor/multi-core processing environment. An example electronic exchange application and a corresponding example exchange gateway application are described.