The invention relates to an integrated circuit arrangement, in particular an FPGA or an ASIC, for processing video data. It has a number of video interfaces for receiving and/or emitting video data from a plurality of data streams, as well as a frame buffer control system and a frame buffer interface. The invention further relates to a network device, a network, a computer unit and a method for processing video data.

An apparatus and method for monitoring the productivity of a portable machine are provided. The method includes receiving motion data for at least one component of the portable machine from a multi-axis accelerometer, receiving position data for the at least one component from a process parameter sensor communicatively coupled to the at least one component, and determining, based on the received motion data and the received position data that the at least one component is oriented in a predetermined position for productive operation. The method also includes determining an area of productive operation using at least one physical dimension of the at least one component and the received motion data when the at least one component is oriented in the predetermined position for productive operation and incrementing a total area counter based on the determination.

Examples include techniques for virtual Ethernet switching of a multi-node fabric. In some examples, first Ethernet links coupled with a group of Ethernet gateways are link aggregated. The group of Ethernet gateways couple with respective individual physical switch ports of a fabric switch of a multi-node fabric to form a default logical gateway to provide an uplink between a virtual Ethernet switch and an Ethernet network external to the multi-node fabric. Also, one or more individual Ethernet gateways coupled with respective individual physical switch ports of the fabric switch may be arranged to provide one or more respective downlinks between the virtual Ethernet switch and one or more Ethernet nodes external to the multi-node fabric via respective second Ethernet links coupled with the one or more individual Ethernet gateways.

A method for a time sensitive network (TSN) having a network topology is disclosed. The method includes determining a set of data flow permutations corresponding to the network topology, computing a respective full schedule corresponding to each data flow permutation of the set of data flow permutations, determining a respective time to compute the full schedule for each flow permutation of the set of data flow permutations, and computing a respective partial schedule for each data flow permutation of the set of data flow permutations. The method further includes selecting a data flow permutation of the set of data flow permutations based at least in part on the respective time to compute the full schedule for the selected flow permutation, and saving the selected data flow permutation to a memory.

A method for a time sensitive network (TSN) having a network topology is disclosed. The method includes determining a set of data flow permutations corresponding to the network topology, computing a respective full schedule corresponding to each data flow permutation of the set of data flow permutations, determining a respective time to compute the full schedule for each flow permutation of the set of data flow permutations, and computing a respective partial schedule for each data flow permutation of the set of data flow permutations. The method further includes selecting a data flow permutation of the set of data flow permutations based at least in part on the respective time to compute the full schedule for the selected flow permutation, and saving the selected data flow permutation to a memory.

An apparatus for data storage management includes one or more processors, and an interface for connecting to a communication network that connects one or more servers and one or more storage devices. The one or more processors are configured to receive a configuration of the communication network, including a definition of multiple network connections that are used by the servers to access the storage devices using a remote direct memory access protocol transported over a lossy layer-2 protocol, to calculate, based on the configuration, respective maximum bandwidths for allocation to the network connections, and to reduce a likelihood of congestion in the communication network, notwithstanding the lossy layer-2 protocol, by instructing the servers and the storage devices to comply with the maximum bandwidths.

Serial communication between a baseboard management controller and a host server may be reprogrammed for Ethernet communications. A PCIe high-speed bus, for example, may be reprogrammed as an Ethernet controller. Network addresses may then be shared for Ethernet communications between the baseboard management controller and a motherboard of the host server. Ethernet communications thus allow software applications operating in the host server to access resources associated with the baseboard management controller without relying on the Intelligent Platform Management Interface (IPMI) specification, which may be incompatible with some protocols and/or services.

A system and method for managing memory resources. In some embodiments the system includes a first server, a second server, and a server-linking switch connected to the first server and to the second server. The first server may include a stored-program processing circuit, a cache-coherent switch, and a first memory module. In some embodiments, the first memory module is connected to the cache-coherent switch, the cache-coherent switch is connected to the server-linking switch, and the stored-program processing circuit is connected to the cache-coherent switch.

Provided is a hybrid network end system device for a network system with an end system unit and a switch. The switch here exhibits at least one first port of the switch and a second port of the switch for connection with the network system.

Provided is an end system device for a network system with a first port for connection with the network system, a second port for connection with the network system, a local interface and a switching device. The switching device is designed to switch into a first or a second mode. In the first mode, the switching device is set up to relay data received at the first and second port to the local interface, and relay data received at the local interface to the first port and the second port. In the second mode, the switching device is set up to relay data received at the first port to the second port or to the local interface, relay data received at the second port to the first port or to the local interface, and relay data received at the local interface to the first port and the second port.