Embodiments are provided herein for facilitating high link bandwidth utilization in a disaggregated computing system. A plurality of general purpose links are used to connect respective pluralities of computing elements. A traffic pattern between respective ones of a first plurality of computing elements of a first type and respective ones of a second plurality of computing elements of a second type is detected. The first and second pluralities of computing elements are dynamically connected through the respective ones of the plurality of general purpose links according to the detected traffic pattern.

A device may include a processor system and an array of data processing engines (DPEs) communicatively coupled to the processor system. Each of the DPEs includes a core and a DPE interconnect. The processor system is configured to transmit configuration data to the array of DPEs, and each of the DPEs is independently configurable based on the configuration data received at the respective DPE via the DPE interconnect of the respective DPE. The array of DPEs enable, without modifying operation of a first kernel of a first subset of the DPEs of the array of DPEs, reconfiguration of a second subset of the DPEs of the array of DPEs.

Technologies for providing inter-kernel communication abstraction to support scale-up and scale-out include an accelerator device. The accelerator device includes circuitry to receive, from a kernel of the present accelerator device, a request through an application programming interface exposed to a high level software language in which the kernel of the present accelerator device is implemented, to establish a logical communication path between the kernel of the present accelerator device and a target accelerator device kernel, based on one or more physical communication paths. Additionally, the circuitry is to establish, in response to the request, the logical communication path between the kernel of the present accelerator device and the other accelerator device kernel and communicate data between the kernel of the present accelerator device and the other accelerator device kernel with a unified communication protocol that manages differences between the physical communication paths.

A plurality of in-vehicle information collecting devices mounted on a plurality of vehicles; a center server to manage each in-vehicle information collecting device as a communication target; and a communication unit to relay communication between each in-vehicle information collecting device and the center server are included. Each in-vehicle information collecting device has an in-vehicle controller to transmit/receive information including vehicle information to/from the center server, and the center server includes a server controller to transmit/receive information to/from each in-vehicle controller. The server controller, when receiving the vehicle information from each in-vehicle controller, analyzes the received vehicle information, generates speed information defining a transmission speed of the vehicle information based on an analysis result, and transmits the generated speed information to each in-vehicle controller. Each in-vehicle controller controls a communication amount of the vehicle information to the server controller, based on the speed information received from the server controller.

An inferential user matching system can determine a mutual interest between a first user and a second user. Based on determining the mutual interest, the system can transmit an expression of interest indication to a portable device(s) of the first and/or second user.

A communication structure comprises: a central node that is a communication data center of a network-on-chip and used for broadcasting or multicasting communication data to a plurality of leaf nodes; a plurality of leaf nodes that are communication data nodes of the network-on-chip and used for transmitting the communication data to the central node; and forwarder modules for connecting the central node with the plurality of leaf nodes and forwarding the communication data, wherein the plurality of leaf nodes are divided into N groups, each group having the same number of leaf nodes, the central node is individually in communication connection with each group of leaf nodes by means of the forwarder modules, the communication structure is a fractal-tree structure, the communication structure constituted by each group of leaf nodes has self-similarity, and the forwarder modules comprises a central forwarder module, leaf forwarder modules, and intermediate forwarder modules.

A system on chip includes an interconnect circuit having an input interface and a number of output interfaces. A source device is coupled to the input interface. A target device includes a sectorized addressable memory space and a number of access ports respectively coupled to the output interfaces. The source device is configured to deliver a transaction containing an address word to the target device.

An inferential user matching system can determine a mutual interest between a first user and a second user based on inferred trends corresponding to a set of usage behaviors by a plurality of users utilizing the system. Based on determining the mutual interest, the system can transmit, over one or more networks, a representation of the first and/or second user to the portable computing device of other user and monitor the first and/or second user to detect an expression of interest. Based on detecting the expression of interest, the system can transmit an expression of interest indication to a portable device(s) of the first and/or second user.

Systems and techniques facilitating resource frequency management are provided. An apparatus comprises: a processor; and a memory that stores executable instructions that, when executed by the processor, facilitate performance of operations. The operations comprise: receiving information indicative of an emergency condition in a defined area; and transmitting a command to a network device for the defined area to cause the base station device to send a communication for the emergency condition via a first wireless communication channel with a mobile device of mobile devices associated with a subscriber identity of respective subscriber identities assigned to provide a response to the emergency condition.

Provided are an application acceleration method and an application acceleration device. The application acceleration method includes invoking, by a control center, a process monitoring class to monitor start and end of a process. Process information on a process sent by the process monitoring class is received after the process monitoring class monitors that the process is started and confirms that the process requires to be accelerated. A service class is invoked based on the process information, where the service class monitors multiple states of the process, and executes a task in each of the multiple states of the process until the process is in an end state.